最新美国发明专利
Document Document Title
US11126242B2 Time varying power management within datacenters
Disclosed techniques include time-varying power management within datacenters. A set of power policies for managing power within a datacenter is obtained. The set of policies varies over time. A priority is determined for a policy within the set of policies for managing the power within the datacenter. The policy within the set varies over time. A situation within the datacenter is identified where the situation matches that described in the policy within the set of policies. A power arrangement within the datacenter is modified based on the policy within the set of policies. The power arrangement within the datacenter applies to a section of the datacenter including one or more IT racks. The modifying includes powering a set of loads within the datacenter by a specific power source, changing a topology within the datacenter, powering down a portion of the datacenter, or changing a service level agreement support level.
US11126241B2 Method and system for low power internetwork communication with machine devices
A wireless mobile device in a public communication network receives network-initiated signaling or messaging, while operating in a battery-conserving mode, or modes that, keep(s) minimal baseband processing functions awake. The baseband processing functions process incoming signaling or data in a received message to determine whether to act further on information in the incoming message by enabling additional processing capability in the mobile device. The mobile device may have permanent template criteria values, either coded in firmware or implemented in hardware, or temporary template criteria values, stored in RAM or processor registers, that are compared to values of an incoming message or datagram from the mobile network to determine whether to perform additional actions, such as awakening an application processor. Multiple templates may co-exist to allow different incoming datagrams to cause the device to take some additional action, respond, or even ignore information in an incoming datagram or message.
US11126240B2 Communication node in vehicle network and operation method of the communication node
A communication node in a vehicle network may comprise a medium access control (MAC) layer; a physical (PHY) layer; a first port connected to the PHY layer; a second port connected to the PHY layer; and a switch controlling a connection between the first port and the second port. The switch may turn on or off the connection between the first port and the second port under control of the MAC layer.
US11126238B2 Open channel solid state drive, nonvolatile memory system including the same and method of power loss protection of open channel solid state drive
An open channel solid state drive includes a flash memory including a first block and a controller which controls the flash memory, the controller receiving write data and a physical address of the first block from a host and attempting a write of the data in the first block. The controller generates first data which is not written in the first block among the write data when a power-off occurs during writing attempt. The write data includes the first data and second data already written in the first block. The controller determines whether successive writing of the first data in the first block is possible or impossible. If the successive writing is possible, the controller successively writes the data in the first block. If the successive writing is impossible, the host or the controller writes the first data and the second data in a second block of the flash memory.
US11126237B2 Electric power supply system
According to one embodiment, an electric power supply system includes a processor, a power circuit and an embedded controller. The processor includes a first controller configured to modify an operating frequency of the processor and a second controller configured to modify an operating power of the processor. The power circuit and the embedded controller detect a presence or an absence of a battery in parallel. The power circuit instructs the first controller to modify the operating frequency when removal of the battery is detected. The embedded controller causes the second controller to modify the operating power via a Basic Input/Output System (BIOS) when the removal of the battery is detected, and causes the first controller to stop modify the operating power via the power circuit.
US11126234B2 Safe power up generating circuit having reset mechanism activating a chip select and command signal
A method is provided for initializing an electronic circuit in dependence on an externally applied voltage. The electronic circuit contains a first input circuit and further circuit elements. In a first step, a first enable signal for the operation of the input circuit and a further enable signal for the operation of the further circuit elements are deactivated if the voltage falls below a first threshold. In a second step, the first enable signal for the operation of an input circuit is activated and the further enable signal for the operation of the further circuit elements is deactivated if the voltage exceeds the first threshold. This is followed by the reception, with the first input circuit, of a chip select signal for the activation of the electronic circuit and of a code word at a terminal for the command bus. The activation of the further enable signal for the operation of the further circuit elements takes place if the received chip select signal and the received code word have predetermined values.
US11126231B2 Display device and grounding device thereof
The present disclosure illustrates a display device comprising a display panel; a frame made by insulative material, and configured to receive the display panel and comprising a through hole in communication with a top and a bottom thereof; a metal frame enclosing the frame, and comprising a hollow part configured to accommodate the display panel; a printed circuit board disposed under the frame and not in contact with the metal frame, and connected to the display panel via the through hole and a flexible cable; a conductive film attached with and electrically connected to a ground terminal of the printed circuit board and the metal frame; and a protective layer made by the insulative material and configured to cover on the printed circuit board and attach with a peripheral portion of the printed circuit board by adhesive material, so as to fix the printed circuit board for electrical shielding.
US11126229B2 Display panel
A display panel has a display area, a first wiring area, and a second wiring area, in which the display area is adjacent to the first and second wiring areas. The display panel includes a plurality of pixels, a first loop pattern, and a second loop pattern. The pixels are arranged within the display area. The first loop pattern is arranged within the display area and is located above the pixels. The first loop pattern includes a first wiring. The second loop pattern is arranged within the first wiring area and is located outside the second wiring area. The second loop pattern is electrically connected to the first loop pattern and includes a second wiring, in which the wiring width of the first wiring is smaller than the wiring width of the second wiring.
US11126227B2 Electronic device
An electronic device includes a main frame, a support component pivoted to the main frame, a flexible display panel connected between the main frame and the support component, and a display movably connected to the support component. The support component is adapted to be closed to the main frame to fold the flexible display panel between the main frame and the support component, and is adapted to be opened from the main frame to expand the flexible display panel. When the support component is opened, the display is adapted to rotate relative to the support component to a first state such that the display and the flexible display panel are located on the same side of the support component, and to rotate relative to the support component to a second state such that the display and the flexible display panel are located on different sides of the support component.
US11126226B2 Bendable display panel having bending detection unit, and display apparatus comprising the same
A display panel and a display apparatus. The display panel includes at least one first region, at least two second regions, and a detection layer. The first region and the second region are adjacently arranged along a first direction, and the first region is located between adjacent second regions. The first region is bent, and the second region is not bent, in a case that the display panel is bent. The detection layer includes at least one detection unit, the detection unit is located in the second region, the detection unit does not overlap with the first region, and the detection unit is configured to detect bending of the first region. The display panel has high detection accuracy and strong detection capability.
US11126223B2 Electronic device and method for performing fast transition between screens
An electronic device and method are disclosed. The device includes a foldable housing including a hinge connecting a first and second housing, a first bendable display, a second display oriented facing the first display, at least one sensor for detecting the bending, a memory and a processor. The processor implements the method, including: detecting bending by the sensor while displaying an application, determining to pre-generate another screen of the application based on the bending angle, pre-generating the second execution screen before the change in the angle is reaches a threshold value, and active a deactivated display and display the second execution screen on the activated display when the angle surpasses the predetermined threshold value.
US11126220B2 System and method for time synchronization between information handling systems
An information handling system includes a synchronizer and a module identifier. The module identifier identifies a module identification event for a module attached to the information handling system; in response to identifying the module identification event: obtains a module identifier from the module, and makes a determination that the module identifier indicates that the module is a synchronization type of module, and initiates, based on the determination, time synchronization for the information handling system with a second information handling system using the module and the synchronizer.
US11126209B1 Pressure reducing and relief valve
A pressure regulating and pressure relief valve, has a valve body defining an inlet port, outlet port, valve seat and pressure relief opening. A pressure regulating plug is displaced during a first portion of a motion from an open position, which provides a continuous flow path from the inlet port to the outlet port, to a closed position in which the plug is closed against the valve seat to obstruct the continuous flow path. A spring biases the plug to the open position. An actuation surface is exposed to a pressure at the outlet port that displaces the plug against the spring bias toward the closed position. Further displacement of the plug beyond the closed position during a second portion of the motion that is beyond a range of the first portion of the motion, opens a relief flow path from the outlet port through the pressure release opening.
US11126203B2 Aerial imaging aircraft having attitude stability
An aerial imaging aircraft operable to transition between thrust-borne lift in a VTOL orientation and wing-borne lift in a biplane orientation. The aircraft includes an airframe having first and second wings with first and second pylons coupled therebetween. A two-dimensional distributed thrust array is coupled to the airframe. The thrust array includes a plurality of propulsion assemblies each operable for variable speed and omnidirectional thrust vectoring. A payload is coupled to the airframe and includes an aerial imaging module. A flight control system is operable to independently control the speed and thrust vector of each of the propulsion assemblies such that in an inclined flight attitude, the flight control system is operable to maintain the orientation of the aerial imaging module toward a target while translating the aircraft, changing aircraft altitude and/or circling the target.
US11126199B2 Learning based speed planner for autonomous driving vehicles
A learning based speed planner for autonomous driving vehicles (ADV) is disclosed. An ADV is set into human-driving mode. Driving control elements are under control of a human driver, and other ADV logic is enabled. The ADV plans a route path on a segment of the route having an obstacle. ADV logic generates a station-time graph for the path of the segment, and a grid of cells to encompass the path and obstacle. A feature vector is generated from the grid. Human driving behavior is recorded as the ADV is navigated along the path. Recorded driving data for a large plurality of paths, obstacles and ADVs is transmitted to a server to generate a speed model. The speed model is downloaded to one or more ADVs for use in autonomous driving mode, to determine an initial speed to use in similar driving situations.
US11126198B2 Robot movement control method, apparatus and robot using the same
A robot movement control method and apparatus as well as a robot using the same are provided. The method includes: calculating a distance between a robot and a Ultrawide Band (UWB) base station; configuring an internal coordinate system according to a preset position of the UWB base station, and calculating a coordinate of the robot in the internal coordinate system according to a distance between the UWB base station and the robot; combining the coordinate of the robot in the internal coordinate system with localization information of an odometer provided on the robot to obtain a combined robot coordinate; and controlling the robot to move in accordance with a preset target position according to the combined robot coordinate. In such manner, UWB base station localization can be used to control the movement of a robot in a limited scene.
US11126196B2 Monocular modes for autonomous platform guidance systems with auxiliary sensors
The described positional awareness techniques employing sensory data gathering and analysis hardware with reference to specific example implementations implement improvements in the use of sensors, techniques and hardware design that can enable specific embodiments to provide positional awareness to machines with improved speed and accuracy. The sensory data are gathered from an operational camera and one or more auxiliary sensors.
US11126194B2 In-vehicle display system, traffic equipment and the image display method
An in-vehicle display system, a traffic equipment and an image display method are disclosed. The in-vehicle display system includes an image generation device, an intermediate image receiving part and a controller. The image generation device is configured to project projection light of a first image; the intermediate image receiving part is configured to receive the projection light of the first image, so as to present the first image, and the intermediate image receiving part is further configured to have a changeable intermediate image receiving position; the controller is configured to control the intermediate image receiving position of the intermediate image receiving part at least based on a current driving speed so as to present the first image at a corresponding position.
US11126192B2 Wide-view LIDAR with areas of special attention
A system and method include scanning a light detection and ranging (LIDAR) device through a range of orientations corresponding to a scanning zone while emitting light pulses from the LIDAR device. The method also includes receiving returning light pulses corresponding to the light pulses emitted from the LIDAR device and determining initial point cloud data based on time delays between emitting the light pulses and receiving the corresponding returning light pulses and the orientations of the LIDAR device. The initial point cloud data has an initial angular resolution. The method includes identifying, based on the initial point cloud data, a reflective feature in the scanning zone and determining an enhancement region and an enhanced angular resolution for a subsequent scan to provide a higher spatial resolution in at least a portion of subsequent point cloud data from the subsequent scan corresponding to the reflective feature.
US11126188B2 System and method for maintaining a work surface at a worksite
A method includes receiving a worksite plan to be executed by a machine at a worksite, and determining first travel parameters of the machine. Such first travel parameters include a first travel path along a work surface, and first work tool positions. The method also includes controlling the machine to traverse at least part of the first travel path, receiving sensor information associated with the work surface, and identifying an imperfection of the work surface located along the first travel path. The method further includes determining second travel parameters of the machine. Such second travel parameters including a second travel path along the work surface, and second work tool positions. The method also includes controlling the machine to traverse at least part of the second travel path while positioning the work tool according to at least one of the second work tool positions.
US11126176B2 Vehicle control apparatus
A vehicle control apparatus can continue a control function against abnormality in operation of an arithmetic processor and in the power supply voltage, and capable of improving reliability. Where there is no abnormality, the autonomous travel control unit and an auxiliary control unit calculate control instruction values for automatic driving control, and validate a CAN communication circuit of autonomous travel control units while invalidating a CAN communication circuit of the auxiliary control unit. Where an abnormality occurs in the autonomous travel control unit and not the auxiliary control unit, the CAN communication circuit of the autonomous travel control unit is invalidated and the CAN communication circuit of the auxiliary control unit is validated. Where the auxiliary control unit has no abnormality when the autonomous travel control unit has an abnormality during automatic driving control thereof, seamless automatic driving control with substantially no time lag continues.
US11126172B2 Methods and systems for applying run-to-run control and virtual metrology to reduce equipment recovery time
Described herein are methods, apparatuses, and systems for reducing equipment repair time. In one embodiment, a computer implemented method includes collecting test substrate data or other metrology data and fault detection data for maintenance recovery of at least one manufacturing tool in a manufacturing facility and determining a relationship between tool parameter settings for the manufacturing tool and the test substrate data. The method further includes utilizing virtual metrology predictive algorithms and at least some collected data to obtain a metrology prediction and applying multivariate run-to-run (R2R) control modeling to obtain a state estimation including a current operating region of the at least one manufacturing tool. Applying multivariate run-to-run (R2R) control modeling to obtain tool parameter adjustments for at least one manufacturing tool to reduce maintenance recovery time and to reduce requalification time.
US11126171B2 Methods and systems of diagnosing machine components using neural networks and having bandwidth allocation
Systems and methods for data collection in an industrial environment are disclosed. A system may include a data collector to collect data from a subset of a plurality of input channels based on a selected data collection routine, and a data acquisition and analysis circuit for receiving the collected data and analyzing the collected data using an expert system analysis circuit to determine an occurrence of an anomalous condition for a machine component based on an analysis. The expert system analysis circuit may utilize a neural network. The data analysis circuit may determine an aggregate rate of data being collected and, if the aggregate rate exceeds a current bandwidth allocation rate associated with the network infrastructure, request an increase to the current bandwidth allocation rate from the network infrastructure.
US11126170B2 System and method for remote structural health monitoring
A method includes determining, based on physical characteristics indicated by first data, a plurality of sensor operations associated with a plurality of structures. The method further includes updating a structural health management system to indicate the plurality of sensor operations and, after updating the structural health management system, sending a plurality of notifications to the plurality of portable field devices. The method further includes receiving, in response to sending the plurality of notifications, second data from the plurality of portable field devices indicating results of the plurality of sensor operations. The results are generated by a plurality of tools used to perform the plurality of sensor operations. The method further includes performing, based on the results of the plurality of sensor operations, a plurality of remote structural health monitoring operations to determine one or more structural health characteristics of each structure of the plurality of structures.
US11126168B2 Automatic discovery and persistence of data for industrial automation equipment
Techniques to facilitate automatic discovery of industrial assets and associated data in an industrial automation environment are disclosed herein. In at least one implementation, a computing system iteratively scans a communication network to automatically detect at least one industrial device on the communication network. The computing system determines a unique identifier of a device type associated with the at least one industrial device detected on the communication network. The computing system determines an identity object for the industrial device and maps the identity object to the unique identifier of the device type associated with the industrial device. Based on the identity object for the industrial device, the computing system establishes communication with the industrial device on the communication network and receives operational data from the industrial device. The computing system processes the operational data received from the industrial device to generate a device profile for the industrial device.
US11126157B1 Hybrid internet of things evaluation framework
Various examples are disclosed for hybrid alert and action solution in Internet-of-Things (IoT) networks. A multi-edge alert definition specifies a plurality of IoT devices that communicate through a plurality of edge devices. The multi-edge alert definition is registered in a fog evaluation service for evaluation. Data corresponding to the IoT devices is received by the fog evaluation service from the plurality of edge devices. An alert is triggered based on a condition specified in the multi-edge alert definition.
US11126156B2 Cycle time estimator
A cycle time estimator is a device configured to calculate for each block the time required for movement along a tool path specified by a NC command. The cycle time estimator divides the NC command into blocks, divides the tool path into segments, calculates segment travel times individually for the segments, and holds the correspondence between the blocks and the segments. The cycle time estimator further calculates block travel times by integrating the segments individually for the blocks and displays the blocks and the block travel times in association with one another in an editing screen for the NC command.
US11126155B2 Automatic screw inspection system
To provide an automatic screw inspection system allowing screw inspection of a workpiece to be conducted more efficiently. An automatic screw inspection system comprises: a robot to which a screw inspection device is attached, the screw inspection device including a holder unit attached in a removable manner and holding an inspection gauge used for inspection of a female screw hole in a workpiece as an inspection target; a gauge storage storing a plurality of the holder units for inspection of the female screw hole conforming to a plurality of standards; a table on which the workpiece is to be placed; and a controller that controls the drive of the robot. The controller comprises: a holder unit attachment/storage control unit that controls the drive of the robot and the screw inspection device so as to select the holder unit conforming to a standard for the female screw hole from the gauge storage and attach the selected holder unit automatically to the screw inspection device; and an inspection implementation control unit that controls the drive of the robot and the screw inspection device so as to make the screw inspection device inspect the female screw hole in the workpiece.
US11126150B2 Information processing device, information processing method, and storage medium
An information processing device according to one aspect of the present invention includes a first acquirer configured to acquire measured data of a sensor, a second acquirer configured to acquire maintenance information related to maintenance performed on the sensor, a learner configured to learn teacher data in which the acquired maintenance information as label information is associated with the acquired measured data to generate a determination model, and a storage storing the generated determination model.
US11126143B2 Decorative article and timepiece
An external part of a timepiece has a substrate that includes a base layer and a surface layer, the surface layer including Ti or stainless steel; and a coating disposed on the substrate. The coating includes an outermost layer formed primarily of TiC defining an external surface, and an interior layer formed primarily of TiC positioned between the substrate and the outermost layer. An elastic modulus of the interior layer is greater than the elasticmodulus of the outermost layer.
US11126142B2 Watch case with interchangeable rotating bezel
A watch case including a middle defining a peripheral track; a rotating bezel; a toothed crown; a structure for detachably fastening the bezel on the middle with the possibility of axial clearance, the fastening structure includes a band supporting radially projecting fins, each capable of engaging with a bayonet formed in the middle; a coupling system including a male part and a female part, one of which is integral with the bezel and the other one of which is integral with the fastening structure, with this coupling system being able to adopt a decoupling configuration, in which the male part and the female part are decoupled, and a coupling configuration, in which the male part and the female part are coupled.
US11126139B2 Developing cartridge including first and second inclined surfaces, elastic member, and first protrusion
A developing cartridge includes: a casing; a developing roller; a shaft extending in a first direction; a first inclined surface; a second inclined surface; an elastic member; and a first protrusion. The shaft is movable in the first direction relative to the casing and the developing roller, and is movable in the second direction together with the same. The first inclined surface is positioned at one end portion of the shaft, while the second inclined surface is positioned at another end portion of the shaft. The first and second inclined surfaces are inclined relative to the first direction. The first protrusion is movable in the first direction together with the second inclined surface. The shaft is movable from a first position to a second position when the second inclined surface receives a pressing force directed in a direction from the another end portion to the one end portion.
US11126130B2 Optical sensor and image forming apparatus
An optical sensor includes a first light emitting diode (LED), a second LED, a first photodiode (PD), and a second PD. The first LED and the second LED are configured to irradiate an optical-axis center point of an intermediate transfer belt. The first PD is arranged at a position at which specularly reflected light of light emitted from the first LED and diffused reflected light of light emitted from the second LED are received. The second PD is arranged at a position at which diffused reflected light of the light emitted from the first LED is received.
US11126126B2 Image forming apparatus that determines image failure
An image forming apparatus includes an image forming unit configured to form an image on a sheet; a detection unit configured to detect a characteristic value of the sheet; a reading unit configured to optically read the sheet; and a control unit configured to perform determination processing for determining whether or not an image failure has occurred, by comparing a determination value acquired by causing the reading unit to read a non-image area of the sheet after an image has been formed on the sheet, with a reference determination value that is based on the characteristic value detected by the detection unit.
US11126125B1 Image forming apparatus
It is an object of the present invention to diagnose image quality of a print image without using an open communication network and output the print image, a diagnosis result of image quality, and information of the print parameters while avoiding disclosure of confidential information to users. A test print control portion causes a print device to execute a test print process to form a test image on a sheet. An image quality diagnosis portion diagnoses image quality of the test image included in the image read by an image reading device. A code image generating portion generates a code image that represents information of print parameters adopted in the test print process. An output control portion causes an output device to output a diagnosis image that includes an image representing a diagnosis result of image quality of the test image, and the code image.
US11126124B2 Image reading device and image forming apparatus incorporating same
An image reading device includes a plurality of image reading units arranged at different positions in a width direction perpendicular to a conveyance direction of a recording medium to read an image on the recording medium at image reading positions and a conveyance roller pair that conveys the recording medium to the plurality of image reading units. The conveyance roller pair includes a drive roller and a driven roller that contacts the drive roller and rotates following the drive roller. The plurality of image reading units includes an upstream and a downstream image reading units downstream from the upstream image reading unit in the conveyance direction. A reading interval between the image reading positions and a diameter of the drive roller satisfy the relation: X2=n1×π×D1a, where X2 represents the reading interval, n1 represents an integer, and D1a represents the diameter of the drive roller.
US11126121B2 Image forming apparatus and image forming system that set conveying speed based on a number of small sheets to be used or a print operation history
An image forming apparatus, including: a control portion that controls a conveying speed of recording materials when the recording materials pass through a nip portion; wherein the control portion, in a case of continuous sheet passing of the recording materials each having a smaller width than the recording materials each having a maximum width: executes, in a case where a representative value of the number of the recording materials having the smaller width for one operation of the continuous sheet passing is smaller than a predetermined threshold, a first operating mode in which the conveying speed is controlled to a first speed; and executes, in a case where the representative value is the threshold or more, a second operating mode in which the conveying speed is controlled to a second speed lower than the first speed.
US11126115B2 Image forming apparatus that sets a transfer voltage
An image forming apparatus includes an image bearing member, a transfer member, a voltage source, a sensor configured to detect a current value or a voltage value, an image detecting portion, and a controller capable of executing an operation in a mode for setting a transfer voltage to be applied to the transfer member, on the basis of a result of detection of a test chart formed on a test recording material. The controller sets the transfer voltage on the basis of a first detection result acquired by the sensor under application of a voltage to the transfer member when the recording material is absent in the transfer portion and a second detection result acquired by the sensor under application of the test voltages to the transfer member when the test recording material is present in said transfer portion during the operation in the mode.
US11126114B2 Belt running device, transfer device, and image forming apparatus
A belt running device includes a plurality of rollers, a belt, a guide, a regulating member, and an abutting member. The belt is wound around the plurality of rollers and configured to rotate. The guide is provided at an end of an inner peripheral surface of the belt. The regulating member is provided at an end of at least one roller of the plurality of rollers in the axial direction of the at least one roller and configured to contact the guide and regulate a movement of the belt in the axial direction of the at least one roller. The abutting member is configured to contact an outer peripheral surface of the belt to press the belt inward in a vicinity of a contact start point at which the guide and the regulating member start to contact when the belt runs.
US11126112B2 Toner agitator support
A toner container according to one example embodiment includes a housing having a reservoir for storing toner. A rotatable developer roll is mounted on the housing. A doctor blade has a distal end in contact with the outer surface of the developer roll along a length of the developer roll for metering toner on the outer surface of the developer roll. The doctor blade has a proximate end positioned against a portion of the housing. A toner agitator in the reservoir has a shaft. A support in the reservoir is positioned in close proximity to the shaft to limit bending of the shaft. A first end of the support contacts an inner surface of the portion of the housing that the proximate end of the doctor blade is positioned against. The support stiffens the portion of the housing that the proximate end of the doctor blade is positioned against.
US11126110B2 Image forming apparatus for controlling durability correction value in execution of toner installation mode
The control unit controls supply of toner from the toner container to the developing device. The image forming apparatus performs durability correction for correcting image forming conditions in accordance with a cumulative driving time from the start of use of the developing device, a cumulative number of printed sheets, and the like. The control unit can execute a normal supply of toner from the toner container to the developing device based on the detection result of the toner amount detection sensor, and a toner installation mode in which more toner is supplied from the toner container to the developing device than the normal supply. When toner is not detected in the developing device, a durability correction value is reset and the toner installation mode is executed. When toner is detected in the developing device, the control unit executes the toner installation mode without resetting the durability correction value.
US11126108B2 Image forming apparatus and image forming method for correcting a position of a target image
An image forming apparatus includes an image forming device and a control device. The image forming device forms an image on a recording medium. The control device controls an image forming process. The control device includes circuitry. The circuitry changes a plurality of partial images in a target image into a certain state. The target image is to be formed on the recording medium. The plurality of partial images are to be formed peripheral to a plurality of pattern images. Each of the plurality of pattern images is to be formed at a certain position on the recording medium. The circuitry further controls the image forming device to form the target image including the changed plurality of partial images and the plurality of pattern images on the recording medium, and corrects a position of the target image based on a detection result of the formed plurality of pattern images.
US11126107B2 Printer with cross-track position error correction
A digital printing system having a linear printhead includes corrections for cross-track position errors. A data processing system implements a method for determining a cross-track position function which includes printing a test target including a plurality of alignment marks, automatically analyzing a captured image of the printed test target to determine a measured position for each of the alignment marks, comparing the measured positions for the alignment marks to reference positions to determine measured cross-track position errors, and determining a cross-track position correction function responsive to the measured position errors. The cross-track position correction function specifies cross-track position corrections to be applied as a function of cross-track position. A corrected digital image is determined by resampling the image lines of a digital image responsive to the cross-track position correction function.
US11126106B1 Charging device and image forming apparatus
A charging device includes a first charging unit that charges a target unit, which is to be charged, by coming into contact with the target unit and a second charging unit that charges the target unit by coming into contact with the target unit and in which distribution of a contact region in contact with the target unit is different from distribution of a contact region in the first charging unit.
US11126095B2 Extreme ultraviolet light generation device and electronic device manufacturing method
An extreme ultraviolet light generation device according to an aspect of the present disclosure includes: a chamber; a mirror configured to condense extreme ultraviolet light radiated from plasma generated by irradiating a target supplied into the chamber with a laser beam; an electromagnet disposed outside the chamber to form a magnetic field between a generation region of the plasma in the chamber and the mirror; a current inversion device configured to invert the direction of current flowing through the electromagnet; and a controller configured to control the current inversion device to invert the direction of the current when a set condition is satisfied.
US11126090B2 Model for calculating a stochastic variation in an arbitrary pattern
A method of determining a relationship between a stochastic variation of a characteristic of an aerial image or a resist image and one or more design variables, the method including: measuring values of the characteristic from a plurality of aerial images and/or resist images for each of a plurality of sets of values of the design variables; determining a value of the stochastic variation, for each of the plurality of sets of values of the design variables, from a distribution of the values of the characteristic for that set of values of the design variables; and determining the relationship by fitting one or more parameters from the values of the stochastic variation and the plurality of sets of values of the design variables.
US11126086B2 Substrate treatment apparatus, substrate treatment method, and computer storage medium
A substrate treatment apparatus for applying a coating solution to a front surface of a substrate and developing an exposed coating film on the front surface of the substrate, includes a film forming unit configured to form a friction reducing film on a rear surface of the substrate before exposure processing, the friction reducing film reducing friction between the rear surface of the substrate and a holding surface for holding the rear surface of the substrate in the exposure processing.
US11126083B2 Superstrate and a method of using the same
A superstrate can include a body having a surface; a buffer layer overlying the surface; and a protective layer overlying the buffer layer, wherein the protective layer has a surface roughness that is equal to or less than a surface roughness of the surface of the body. The protective layer can include a material that can be selectively removed with respect to the buffer layer, and the buffer layer can include a material that can be selectively removed with respect to the body of the superstrate. The superstrate can be used for more planarization or other processing sequences before the body needs to be replaced, as any defects that may form extend into the protective layer or buffer layer and not reach the body. The layers can be removed and replaced by corresponding new layers without significantly adversely affecting the body.
US11126080B2 Photosensitive compositions, quantum dot polymer composite pattern prepared therefrom, and electronic devices including the same
A photosensitive composition includes a plurality of quantum dots including an organic ligand on the surface thereof; a binder; a photopolymerizable monomer composition; photoinitiator; and a solvent, wherein the photopolymerizable monomer includes a main monomer having 1 to 6 carbon-carbon double bonds, a first accessory monomer having 8 to 20 carbon-carbon double bonds, and a second accessory monomer represented by Chemical Formula A; and a method of preparing the photosensitive composition and a quantum dot-polymer composite pattern prepared therefrom are provided: R1O-(L1)m-L3-A-L4-(L2)n-OR2  Chemical Formula A wherein, A, L1, L2, L3, L4, R1, and R2 are the same as defined herein.
US11126078B2 Pattern forming method, production method for processed substrate, production method for optical component, production method for circuit substrate, production method for electronic component and production method for imprint mold
A pattern forming method comprising, a step (1) of coating a layer formed of a curable composition (A1) containing at least a certain polymerizable compound (a1) on a surface of a substrate, a step (2) of dispersedly dropping a droplet of a curable composition (A2) containing at least a polymerizable compound (a2) on the layer of the curable composition (A1) to form lamination, a step (3) of sandwiching between a mold and the substrate a layer in which the curable composition (A1) and the curable composition (A2) are partially mixed, a step (4) of curing a portion of the layer in which the two curable compositions are partially mixed all at once by applying light from the side of the mold, the portion being sandwiched between the mold and the substrate, and a step (5) of separating the mold from the layer formed of the cured curable compositions.
US11126077B2 Patterning device, a method of making the same, and a patterning device design method
A patterning device, includes: an absorber layer on a patterning device substrate; and a reflective or transmissive layer on the patterning device substrate, wherein the absorber layer and the reflective or transmissive layer together define a pattern layout having a main feature and an attenuated sub-resolution assist feature paired with the main feature, wherein: the main feature is configured to generate, upon transferring the device pattern to a layer of patterning material on a substrate, the main feature in the layer of patterning material, and upon the transferring the pattern to the layer of patterning material, the attenuated sub-resolution assist feature is configured to avoid generating a feature in the layer of patterning material and to produce a different radiation intensity than the main feature.
US11126072B2 Phosphor wheel including a light absorption processing body provided in a light processing region, light source device including the phosphor wheel, and projection display apparatus including the phosphor wheel
A phosphor wheel of exemplary embodiment in the present disclosure includes a substrate, a phosphor region circularly provided on one surface of the substrate, a light processing region circularly provided on an other surface of the substrate and entered by incident light, a light processing body provided in the light processing region, a light-transmissive region provided in the substrate, and a drive device rotating the substrate.
US11126070B2 Projector holder
A method and apparatus for mounting a projector holder to or placing a projector holder on an object for displaying an image onto a surface is disclosed. The projector holder includes a body within which a projector is at least partially disposed. The body includes one or more pliable appendages that are adapted to be manipulated and deformed from a first configuration to a second configuration. In some embodiments, the body is formed in the shape of an animal.
US11126067B2 Accessory, image pickup apparatus on which same is mountable, and camera system
An accessory configured to be detachably mountable to an image pickup apparatus including a first mount portion including first bayonet claw portions and first terminals, the accessory including a second mount portion including second bayonet claw portions configured to enable engagement with the first bayonet claw portions, and second terminals configured to enable contact with the first terminals, in which the second terminals are provided at positions that are different from positions of the second bayonet claw portions, and wherein half lines that extends from a central axis of the second mount portion and passes through second terminals that are used in communication between the image pickup apparatus and the accessory, all pass through a predetermined second bayonet claw portion.
US11126065B2 Photonic crystals logic devices
Systems, methods, and apparatus for photonic crystals logic devices are disclosed. In one or more embodiments, a disclosed method for an optical logic device comprises radiating, by at least one source, at least one signal. The method further comprises reflecting at least one signal off of at least one photonic crystal, when at least one photonic crystal senses a physical phenomena of a threshold strength. Also, the method comprises not reflecting at least one signal off of at least one photonic crystal, when at least one photonic crystal does not sense the physical phenomena of the threshold strength. Further, the method comprises detecting or not detecting, by at least one detector, at least one signal.
US11126064B2 Optical wavelength conversion device
An object is to provide, for example, an optical wavelength conversion device capable of highly efficient wavelength conversion on the surface of, or inside, the main body of any of various shapes, such as a bulky shape and a fiber shape. The optical wavelength conversion device includes a main body configured to allow light to propagate therein, and a plurality of crystal regions arranged inside the main body along a propagation direction of the light. The plurality of crystal regions each have a spontaneous polarization oriented along the propagation direction (i.e., spontaneous polarization having a polarization orientation coinciding with the propagation direction).
US11126058B1 Semiconductor optical modulation element
The present invention provides a highly reliable, high-speed, and low-loss semiconductor optical modulation element that protects a pin junction structure in a modulation region against reverse voltage ESD by configuring an additional capacity having a thyristor structure between a plurality of feeding pad electrodes. An n-type contact layer, an n-type cladding layer, a non-doped core/cladding layer, a p-type cladding layer, and a p-type contact layer are sequentially laminated on the substrate surface. A Mach-Zehnder interferometric waveguide and a plurality of feeding pad installation sections are formed by dry etching. The n-type contact layer and the n-type cladding layer are removed except for a modulation region of the Mach-Zehnder interferometric waveguide and a feeding region in which the feeding pad installation sections are formed so that the modulation region and the semiconductor of the lower part of the feeding region are electrically isolated from each other. The feeding pads are formed on the common n-type contact layer and n-type cladding layer. A thyristor structure of a pinip junction is formed between the feeding pads.
US11126055B2 Switching of liquid crystal device
An apparatus comprising a liquid crystal material and a controller are described herein. The liquid crystal material is disposed between a first electrode and a second electrode opposite the first electrode. Molecules of the liquid crystal material assume a first orientation during a first state of the liquid crystal material and a second orientation during a second state of the liquid crystal material. The first orientation is different from the second orientation. The controller is coupled to the first electrode and the second electrode to perform operations. The operations include applying a first periodic waveform to the first electrode and a second periodic waveform to the second electrode to generate a drive waveform applied across the liquid crystal material. The operations further include changing a duty cycle of the drive waveform over a first time period to transition the liquid crystal material between the first state and the second state.
US11126053B2 Liquid crystal display device
It is an object of the present invention to apply a sufficient electrical field to a liquid crystal material in a horizontal electrical field liquid crystal display device typified by an FFS type. In a horizontal electrical field liquid crystal display, an electrical field is applied to a liquid crystal material right above a common electrode and a pixel electrode using plural pairs of electrodes rather than one pair of electrodes. One pair of electrodes includes a comb-shaped common electrode and a comb-shaped pixel electrode. Another pair of electrodes includes a common electrode provided in a pixel portion and the comb-shaped pixel electrode.
US11126052B2 Array substrate, method for manufacturing the same, display device, and switching element
According to an aspect, an array substrate includes: a substrate; a light-shielding layer; a first gate electrode; a semiconductor layer; a signal line; and an electrode. A first surface of the substrate is provided with, in sequence, the light-shielding layer, the first gate electrode, the semiconductor layer, the signal line, and the electrode. The semiconductor layer includes a first impurity region electrically coupled to the electrode, a first channel region overlapping the first gate electrode, a second impurity region opposite to the first impurity region with respect to the first channel region, and a first lightly doped drain region between the first impurity region and the first channel region. The light-shielding layer has a first end and a second end opposite to each other. The first end overlaps the first channel region. The light-shielding layer overlaps a boundary between the first channel region and the first lightly doped drain region.
US11126049B2 Display apparatus
The display apparatus includes a plurality of gate lines, a plurality of vertical gate lines orthogonal to the gate lines, and a plurality of connection parts, each of which connects one of the gate lines and corresponding one of the vertical gate lines. The plurality of vertical gate lines extend from a first side in the display region. At least the gate line disposed closest to the first side is connected to the corresponding vertical gate line by a plurality of connection parts disposed at two or more locations.
US11126046B2 Display panel, manufacturing method thereof, and display device
The present disclosure provides a display panel, a manufacturing method thereof, and a display device. By disposing a conductive film at terminals of an array substrate and a color filter substrate having sides flush with each other, forming a chamfer on an edge of a bonding area corresponding to the color filter substrate or the array substrate, and making a chip on film bonded to the conductive film and bent along the chamfer for bonding, frame widths of display panels and risks of broken lines in a frame area of display panels are reduced.
US11126043B2 Liquid crystal display device
The liquid crystal display device includes: a TFT substrate including scanning lines extending in a first direction and being arranged in a second direction, video signal lines extending in the second direction and being arranged in the first direction, pixel electrodes arranged in regions surrounded by the scanning lines and the video signal lines, and common electrodes formed with an insulating film arranged between the common electrodes and the pixel electrodes; a counter substrate opposed to the TFT substrate; and a liquid crystal. The first common electrode extends between the first and second scanning lines in the first direction, and the second common electrode extends between the second and third scanning lines in the first direction. The first and second common electrodes are electrically connected by a bridge. The bridge covers the first video signal line without covering the second video signal line, when seen in a plan view.
US11126033B2 Backlight unit with emission modification
A display device is disclosed that includes a backlight comprising light-emitting diodes. The disclosed display device includes a liquid crystal panel configured to control transmission of light from the backlight to a viewer. The display device also includes one or more optical films that incorporate one or more light conversion or light absorbing materials. The optical films can be positioned between the layers of the disclosed display device and give enhanced blue-light absorption to the display device.
US11126032B2 Display panel, control method thereof and display device
A display panel, a control method thereof, and a display device are disclosed. The display panel includes a display module and a backlight module, and the display module and the backlight module are relatively movably connected with each other through a connection component so that the backlight module is switchable between a first state and a second state. In the first state, the backlight module is blocked by the display module, and in the second state, the backlight module is exposed.
US11126031B2 Polarizing plate and liquid crystal display device including same
Provided are a polarizing plate and a liquid crystal display device including same, the polarizing plate including a polarization film, a contrast-improving layer, and an anti-reflection film that are sequentially laminated. The minimum reflectance of the anti-reflection film is no greater than 0.45%. The anti-reflection film has a first substrate layer, a high-refraction layer and a low-refraction layer that are laminated in order from the contrast-improving layer. The contrast-improving layer includes a first resin layer and a second resin layer facing the first resin layer. The second resin layer is provided with a pattern part having optical patterns and a flat part between the optical patterns. The pattern part satisfies Equation 1 and the optical patterns have a base angle (θ) of 75° to 90°. The slope of the reflectance of the polarization plate in Equation 2 is no greater than 0.3.
US11126029B2 Optical member and display device including the same
Provided is an optical member. The optical member includes a color filter member including quantum dots and a low-refractive index layer below the color filter member and including a first hollow particle and a second hollow particle. The first hollow particle may have a particle size different from a particle size of the second hollow particle.
US11126028B2 Photoluminescent liquid crystal display
A photoluminescent liquid crystal display includes: a liquid crystal panel including a lower substrate, an upper substrate, a liquid crystal layer interposed between the upper and lower substrates, and a photoluminescent color filter layer disposed between the upper substrate and the liquid crystal layer; an optical device disposed on the upper substrate; a polarizing plate disposed under the lower substrate; and a backlight unit disposed under the polarizing plate and which emits blue light, where the photoluminescent color filter layer includes a first color filter which emits polarized red light, a second color filter which emits polarized green light, and a third color filter which emits polarized blue light, and the first color filter and the second color filter include a semiconductor nanocrystal-polymer composite.
US11126027B2 Display apparatus and driving method thereof
The present application provides a display apparatus. The display apparatus includes N numbers of display panels substantially parallel to each other and spaced apart from each other along a depth direction, N is a positive integer greater than 1. The N numbers of display panels are configured to display a composite image in a plurality of composite pixels. Each of the plurality of composite pixels is a composite pixel of N pixels respectively from the N numbers of display panels, the N pixels spaced apart from each other along the depth direction.
US11126018B2 Polarization de-multiplexing for intensity-modulated direct-detection (IM-DD) optical communications
Embodiments include apparatuses, methods, and systems including a dynamic polarization controller (DPC) to receive a first light beam and a second light beam, to adjust a rotation of a state of polarization (SOP) of the first light beam and the second light beam to generate a third light beam and a fourth light beam, under the control of a first control signal, a second control signal, and a third control signal. The first control signal may be related to a phase difference between the third light beam and the fourth light beam, the second control signal may be related to an intensity difference between the third light beam and the fourth light beam, and the third control signal may be related to a rotation of a SOP of the third light beam and the fourth light beam. Other embodiments may also be described and claimed.
US11126017B2 Driving circuit for optical device
A driving circuit includes a plurality of differential amplifier circuits each electrically connected to a power supply line. Each differential amplifier circuit includes a differential pair circuit and a series resistance circuit. In the differential pair circuit, a first transistor and a second transistor are electrically connected to the power supply line through a first load resistor and a second load resistor, respectively. A center node is electrically connected between the first transistor and the second transistor. Each differential amplifier circuit generates a differential output signal in accordance with a differential incoming signal. The series resistance circuit includes a resistor and a line element. The line element includes a signal line which extends straight with a distance between the signal line and a ground line extending in parallel thereto. The resistor and the line element are connected in series between the center node and a static potential line.
US11126013B2 Spectacle lens and method for calculating and producing a spectacle lens
A spectacle lens has an object-side front surface and an eye-side rear surface and is made of a base material that includes an ultraviolet (UV) absorber, which functions as a band-stop filter for UV light. In a first variant, the band-stop filter has an upper cut-off wavelength between 325 nm and 360 with a transmittance of 2% for light which is incident on the front surface, transmitted through the spectacle lens, and emerges from the rear surface for each angle of incidence between 0° and 15°. Additionally or alternatively, in a second variant, the spectacle lens has an antireflective coating with a reflectance below 5% for UV light in a wavelength range between 280 nm and a threshold wavelength, which lies between 325 nm and 350 nm, and a reflectance of 5% at the threshold wavelength for each angle of incidence between 30° and 45°.
US11126012B1 Broadview natural addition lens
An ophthalmic lens apparatus has a visual field of a plurality of horizontal meridians each having constant optical power. The optical power of the visual field continuously varies from a top portion of the lens to a bottom portion of the lens by the horizontal meridians being arranged with their midpoints along a generally vertical focal length deceleration curve across the visual field and at least some adjacent horizontal meridians having different optical powers. The focal length deceleration curve across the visual field is at least 20 millimeters (mm) long.
US11126007B2 Beam splitting prism systems
According to one embodiment, a prism system is provided. The prism system includes a polarizing beam splitter (PBS) surface. The PBS surface is configured to generate first and second sub-beams having corresponding first and second polarization information from a received beam, the second polarization information being different than the first polarization information. A first optical path of the first sub-beam within the prism system has substantially same length as a second optical path of the second sub-beam within the prism system. Additionally or alternatively, the first sub-beam achieves a predetermined polarization extinction ratio.
US11126005B2 Head up display system for expanding a display range of a virtual image
First and second head up displays are installed so an angle ϕ at which a first and second center line intersect is ϕ=θ+α and a distance PD between a first and second virtual emission point, is PD=L(M−L(W−D)/(H−W))/W. The α is α=arctan(W/2L), the θ is an angle of view of first or second virtual emission point, the W is a length of an eye box in a width direction of a vehicle, the L is a distance from an eye point to a virtual image plane, the M is a distance from the eye point to a point where a virtual image cannot be seen, the D is an interval between both eyes, and the H is a length of the virtual image plane on which the virtual image is displayed, in the width direction of the vehicle.
US11126004B2 Head-mounted electronic display device with lens position sensing
A head-mounted device may have a display with first and second pixel arrays that display content for a user. A head-mounted support structure in the device supports the pixel arrays on the head of the user. A left positioner may be used to position a left lens module that includes a left lens and the first pixel array. A right positioner may be used to position a right lens module that includes a right lens and the second pixel array. Sensing circuitry such as proximity sensing circuitry may be used to detect relative positions between the left and right lens modules and facing surfaces of a user's nose while the user is wearing the head-mounted support structure. Control circuitry may adjust the positions of the left and right lens modules using interpupillary distance information for the user and using information from the sensing circuitry.
US11126003B2 See-through computer display systems
Aspects of the present invention relate to providing see-through computer display optics.
US11126002B2 Head-mounted display
This head-mounted display is provided with, closer to the viewing side than a color filter having a black matrix between pixels in a liquid crystal display panel (160), an anisotropic optical film (150), the linear transmittance of which changes according to the angle of incident light, wherein the anisotropic optical film (150) includes a single-layered or multilayered anisotropic light diffusion layer, on at least on one surface of the anisotropic light diffusion layer, surface asperities having an arithmetic average roughness Ra of 0.10 μm or less, which is measured in accordance with JIS B0601-2001, are formed, the anisotropic light diffusion layer has a matrix region and a plurality of pillar regions having a refractive index different from that of the matrix region, and the visibility of the black matrix is lowered by the anisotropic optical film (150), thereby making it possible to obtain a higher sense of immersion without feeling coloring.
US11125999B2 Polarization plate, image display device using same, and mobile body
A polarization plate includes a sapphire plate having a first main surface, and a thin metal wire disposed in a stripe pattern on the first main surface of the sapphire plate. The polarization plate has an angle of 5° or less between a c-axis of the sapphire plate and a longitudinal direction of the thin metal wire.
US11125997B2 Information processing apparatus, information processing method, and program
An information processing apparatus connected to a display apparatus mounted on a head of a user acquires information regarding a line-of-sight direction of the user and determines a field of view of the user in a virtual three-dimensional space in either a first mode in which the field of view of the user in the virtual three-dimensional space is determined in accordance with the acquired information regarding the line-of-sight information or a second mode in which the field of view of the user in the virtual three-dimensional space is determined without using the information regarding the line-of-sight direction at least in a predetermined direction among the acquired information regarding the line-of-sight direction, and generates an image of an object in the determined field of view to be output.
US11125995B2 Driving device for head-up display
A driving device for a head-up display including a motor, a driving gear mounted at the motor and rotated when the motor is driven, a worm gear engaged with the driving gear and rotated by interlocking with the driving gear, a movable mirror configured to linearly move by being engaged with the worm gear, a stopper configured to restrict movement of the movable mirror, and a bending prevention part formed in the driving gear and configured to be inserted into the worm gear, so that engagement between the driving gear and the worm gear is maintained in an excessive torque section, and noise generation is prevented.
US11125993B2 Optical hyperfocal reflective systems and methods, and augmented reality and/or virtual reality displays incorporating same
Optical hyperfocal reflective systems and methods are provided. One such optical hyperfocal reflective system has an optical substrate; an optical input coupling portion configured to input couple a collimated display image to the optical substrate; and an optical hyperfocal output coupling portion integrated with said optical substrate. The optical output coupling portion includes at least one hyperfocal reflective view port formed from a discrete optical hyperfocal reflector spot integrated with the optical substrate. The discrete optical hyperfocal reflector spot is sized to form a reflected discrete optical spot beam with a diameter at a target area such that a view of a discrete virtual display image portion, as seen by a lens-detector system locatable at the target area, is hyperfocused.
US11125992B2 Chromatic aberration adjusting method and apparatus of detection device
The present disclosure illustrates a chromatic aberration adjusting method and apparatus of a detection device. The method includes the following steps: recording optical parameters corresponding to multiple image detection components when the multiple image detection components are respectively used to obtain images of multiple different standard films, selecting one of the optical parameters for each standard film, enter the selected optical parameter into a database as a base, and adjust the optical parameters of other image sensing components according to the database. The apparatus comprises a recording module, a selection module, an input module and an adjustment module.
US11125990B2 Endoscope distal end portion, endoscope, and method of manufacturing endoscope distal end portion
An endoscope distal end portion includes: a channel that is tubular, the channel being where a surgical tool is to be inserted in; a light guide configured to guide illumination light emitted from a light source; an imager configured to capture an image of an observed region illuminated with the illumination light from the light guide; and a fixing member that is made of resin and that has a columnar outer shape, the fixing member being configured to seal around the channel, the light guide, and the imager, wherein the channel is in contact with the imager, and the light guide is in contact with at least one of the channel and the imager, and a contact surface of the channel in contact with the light guide or a contact surface of the imager in contact with the light guide has a groove or a projection formed thereon.
US11125986B2 Zoom lens and imaging apparatus
The zoom lens consists of, in order from an object side, a positive first lens group, a negative second lens group, a third lens group, a positive fourth lens group, and a positive fifth lens group. During zooming, the second lens group, the third lens group, and the fourth lens group move. The fourth lens group includes a plurality of positive lenses and a negative lens disposed on a most-image-side. Assuming that an average value of Abbe numbers in positive lenses within the fourth lens group is vdp and an Abbe number of a negative lens disposed on a most-image-side of the fourth lens group is vdn, the zoom lens satisfies a conditional expression: 0
US11125985B2 Zoom lens and imaging apparatus
The zoom lens consists of, in order from an object side, a positive first lens group, a negative second lens group, a third lens group, a positive fourth lens group, and a positive fifth lens group. During zooming, the second lens group, the third lens group, and the fourth lens group move. The second lens group has a negative lens and a cemented lens successively in order from a most object side to an image side. The cemented lens of the second lens group has a first negative lens and a first positive lens successively in order from an object side to an image side. A predetermined conditional expression for the first positive lens is satisfied.
US11125984B2 Zooming optical system, optical apparatus and method for manufacturing zooming optical system
A compact zooming optical system, an optical apparatus and a method for manufacturing the zooming optical system having a vibration reduction function, a high zooming ratio, a wide-angle view and superb optical performance are provided, the system including, in order from an object side: a first lens group G1 having positive refractive power; a second lens group G2 having negative refractive power; a third lens group G3 having positive refractive power; and a fourth lens group G4 having negative refractive power; upon zooming from a wide-angle end state to a telephoto end state, a distance between the first lens group G1 and the second lens group G2, a distance between the second lens group G2 and the third lens group G3 and a distance between the third lens group G3 and the fourth lens group G4 being respectively varied; the third lens group G3 having, in order from the object side, a first segment group G31 having positive refractive power and a second segment group G32; the second segment group G32 being moved to have a component in a direction perpendicular to the optical axis; and predetermined conditional expressions being satisfied.
US11125983B2 Zoom lens and imaging apparatus
The zoom lens consists of, in order from an object side: a positive first lens group that does not move during zooming; a middle group that consists of two or more movable lens groups moving during zooming; and a subsequent group that has a lens group including a stop at a position closest to the object side. The middle group has at least two negative movable lens groups. The subsequent group includes at least one positive LA lens that satisfies predetermined conditional expressions relating to the refractive index, the Abbe number, and the partial dispersion ratio.
US11125981B2 Lens assembly and optical device comprising same
In a lens assembly structure comprising a plurality of lens assemblies, according to the present invention, at least one part of assemblies among the plurality of lens assemblies comprises: a first lens group having a positive refractive power or a negative refractive power; a second lens group having a positive refractive power; and a bending structure for bending an optical path of the first lens group such that the optical path corresponds to an optical axis direction of the second lens group, wherein the bending structure is disposed on the optical path of the first lens group and an optical path of the second lens group, optical axes of the first lens groups disposed in each of the at least one part of lens assemblies meet at one point, and optical axes of the second lens groups disposed in each of the at least one part of lens assemblies may form a triangle.
US11125980B2 Miniature telephoto lens assembly
An optical lens assembly includes five lens elements and provides a TTL/EFL<1.0. In an embodiment, the focal length of the first lens element f1
US11125979B2 Optical photographing lens assembly comprising a component of variable refractive powers, image capturing unit and electronic device
An optical photographing lens assembly includes a focus tunable component and an imaging lens system. The imaging lens system includes, in order from an object side to an image side, a first lens group and a second lens group. The first lens group includes, in order from the object side to the image side, an object-side first lens element and an object-side second lens element. The second lens group includes, in order from the image side to the object side, an image-side first lens element and an image-side second lens element. At least one lens surface of at least one lens element in the imaging lens system is aspheric and has at least one inflection point. The imaging lens system has a total of at least four lens elements.
US11125975B2 Miniature telephoto lens module and a camera utilizing such a lens module
The presently disclosed subject matter includes a mobile electronic comprising an integrated camera, comprising a Wide camera unit comprising a Wide lens unit, and a Telephoto camera unit comprising a telephoto lens unit, the telephoto lens unit and the wide lens unit having respectively TTL/EFL ratios smaller and larger than 1 and defining separate telephoto and wide optical paths.
US11125973B2 Optical imaging system comprising four lenses of ++++ refractive powers
An optical imaging system includes a first lens having positive refractive power, a second lens having positive refractive power, a third lens having positive refractive power, and a fourth lens having positive refractive power, and an F No. of the optical imaging system is equal to or less than 1.0. The optical imaging system is capable of achieving miniaturization while capturing an image at low illumination.
US11125972B2 Optical imaging lens
An optical imaging lens may include a first, a second, a third and a fourth lens elements positioned in an order from an object side to an image side. Through designing concave and/or convex surfaces of the four lens elements, the optical imaging lens may provide improved imaging quality and optical characteristics, increased field of view and increased aperture while the optical imaging lens may satisfy (G34+T4)/AAG≤2.200 and V1+V2+V3+V4≥110.000, wherein an air gap between the third lens element and the fourth lens element along the optical axis is represented by G34, a thickness of the fourth lens element along the optical axis is represented by T4, a sum of the three air gaps from the first lens element to the fourth lens element along the optical axis is represented by AAG and Abbe numbers of the first to the fourth lens elements are represented by V1, V2, V3 and V4.
US11125971B2 Vehicle lens, camera module and vehicle camera
The embodiments of the disclosure provide a vehicle lens, an imaging device, a camera module and a vehicle camera. From an object side to an image side, the vehicle lens sequentially includes a first group with a negative refractive power, a stop, a second group with a positive refractive power, and a third group with a positive refractive power. The first group includes a first lens and a second lens. The second group includes at least a third lens. The third group includes a fourth lens, a fifth lens, and a sixth lens, wherein the fourth lens has a positive refractive power, an convex object side surface and an convex image side surface, the fifth lens has a negative refractive power and a concave object side surface, the sixth lens has a positive refractive power. The third group includes at least one aspheric lens.
US11125962B2 Rollable optical fiber ribbon with colour line marking
The present disclosure provides a rollable optical fiber ribbon. The rollable optical fiber ribbon includes a plurality of optical fibers positioned along a longitudinal axis of the rollable optical fiber ribbon. In addition, the rollable optical fiber ribbon includes a matrix material covering the plurality of optical fibers to provide flexibility to the rollable optical fiber ribbon. Further, the rollable optical fiber ribbon includes at least one colour line marking on the rollable optical fiber ribbon along the longitudinal axis of the rollable optical fiber ribbon.
US11125961B2 Optical fiber distribution system
An optical fiber distribution system may include a housing that includes an end cap unit, a main cabinet unit, and a fiber termination unit. The main cabinet unit may have a door that opens to provide access to the interior of the main cabinet unit, which may include a plurality of cassettes in a stacked arrangement within the main cabinet unit. The cassettes may be rotatably coupled to a cassette support so that, when the door is open, the cassettes may be individually rotated at least partially out of the main cabinet unit to provide access to the cassettes for maintenance. The fiber distribution system may be mountable to a strand so that the system hangs in a suspended state, and a plurality of the main cabinet units may be coupled to one another in a cascading fashion to provide increased cassette capacity.
US11125960B2 Port sealing device for an optical cable termination box
A port sealing device includes a body configured to switch between an open configuration and a closed configuration. The body defines a cable pass-through channel extending along an axial direction when the body is in the closed configuration. The port sealing device includes sealing arrays arranged in the cable pass-through channel, where each of the sealing arrays is arranged in the cable pass-through channel along an annular direction around the axial direction. Each of the sealing arrays is spaced apart from an adjacent one of the sealing arrays along the axial direction. Each of the sealing arrays includes sealing elements mutually spaced apart along the annular direction, where the sealing elements of one of the sealing arrays is arranged in the cable pass-through channel with a pattern different from the pattern of the sealing elements of an adjacent one of the sealing arrays. The port sealing device is configured to receive an optical cable when passing through a peripheral wall of a termination box.
US11125958B2 Optical pluggable module for a communication system
A communication system includes a host circuit board and an interposer assembly coupled to the host circuit board having an interposer substrate including an host circuit board contacts at a lower surface and module contacts at an upper surface. The communication system includes an optical pluggable module having a mating interface along a bottom of the optical pluggable module facing the interposer assembly. The optical pluggable module includes a module substrate and optical engines coupled to the module substrate with optical fiber cables extending from the optical engines to the cable end. The module substrate has module substrate contacts at a lower surface of the module substrate being electrically connected to corresponding module contacts of the interposer assembly at the upper surface of the interposer substrate.
US11125955B1 Multi-fiber push-on adapter for a cryogenic laser transmitter
A cryogenic laser transmitter includes a multi-fiber push-on (MPO) fiber adapter. The MPO fiber adapter includes an adapter housing and a laser mount. The adapter housing contains a plurality of laser diodes, each laser diode configured to generate a laser emission based on an input signal of a focal plane array. The laser mount is configured to mate with an MPO connector and direct each laser emission through to a corresponding fiber core of the MPO connector.
US11125951B2 Fiber optic connector, fiber optic connector and cable assembly, and methods for manufacturing
A fiber optic cable and connector assembly including a fiber optic connector mounted at the end of a fiber optic cable. The fiber optic connector includes a ferrule assembly including a stub fiber supported within a ferrule. The stub fiber is fusion spliced to an optical fiber of the fiber optic cable at a location within the fiber optic connector.
US11125950B2 Optical connector, and optical connector connection structure
A return loss in an optical connector connection structure according to a lens scheme is reduced. An optical connector (10) according to this disclosure, includes: a plurality of optical fibers (18) arranged in an array; and a lens array plate (14) that includes a first principal surface (40) with a plurality of lenses (44) corresponding to the respective optical fibers being formed on this surface, and a second principal surface (41) joined to end faces (180) of the optical fibers so as to be opposed to the first principal surface and optically coupled to the optical fibers to which the respective lenses correspond, wherein at least one of the end faces of the optical fibers and the second principal surface is inclined from a plane (182) perpendicular to optical axes (181) of the optical fibers.
US11125948B2 Methods and system for microelectromechanical packaging
Hybrid optical integration places very strict manufacturing tolerances and performance requirements upon the multiple elements to exploit passive alignment techniques as well as having additional processing requirements. Alternatively, active alignment and soldering/fixing where feasible is also complex and time consuming with 3, 4, or 6-axis control of each element. However, microelectromechanical (MEMS) systems can sense, control, and activate mechanical processes on the micro scale. Beneficially, therefore the inventors combine silicon MEMS based micro-actuators with silicon CMOS control and drive circuits in order to provide alignment of elements within a silicon optical circuit either with respect to each other or with other optical elements hybridly integrated such as compound semiconductor elements. Such inventive MEMS based circuits may be either maintained as active during deployment or powered off once the alignment has been “locked” through an attachment/retention/latching process.
US11125946B2 Electro-optical device with ring resonator
A ring resonator electro-optical device includes a first silicon nitride waveguide and a second annular silicon waveguide that comprises a first section running under a second section of the first waveguide. The second waveguide also includes an annular silicon strip having a cross-section increasing in the first section from a minimum cross-section located under the second section.
US11125944B2 Polarizer with multiple evanescently coupled waveguides
Disclosed are embodiments of an on-chip polarizer and of methods of forming the polarizer. The polarizer includes first and second waveguides with different shapes at different design levels above a substrate. The first waveguide has a main body between an input end and an output end. The second waveguide is spiral in shape with an inner end and with an outer end that is evanescently coupled to the main body of the first waveguide. Light signals, including first light signals with a first type polarization and second light signals with a second type polarity, are received at the input end of the first waveguide. The first waveguide passes the first light signals to the output end and passes at least some second light signals out the main body and into the outer end of the second waveguide. The second waveguide attenuates the received second light signals.
US11125942B2 Optical waveguide element
An optical waveguide element includes: a cladding portion made of silica-based glass; and a plurality of optical waveguides positioned in the cladding portion and made of silica-based glass in which ZrO2 crystal particles are dispersed. The optical waveguide element is a planar lightwave circuit. The plurality of optical waveguides configure an arrayed waveguide grating element.
US11125940B2 Method of fabrication polymer waveguide
A method of fabricating a waveguide device is disclosed. The method includes providing a substrate having an elector-interconnection region and a waveguide region and forming a patterned dielectric layer and a patterned redistribution layer (RDL) over the substrate in the electro-interconnection region. The method also includes bonding the patterned RDL to a vertical-cavity surface-emitting laser (VCSEL) through a bonding stack. A reflecting-mirror trench is formed in the substrate in the waveguide region, and a reflecting layer is formed over a reflecting-mirror region inside the waveguide region. The method further includes forming and patterning a bottom cladding layer in a wave-tunnel region inside the waveguide region and forming and patterning a core layer and a top cladding layer in the waveguide region.
US11125939B1 Waveguide filtering biochemical sensor
A waveguide filter sensing unit is provided. The waveguide sensing unit includes an input waveguide for receiving an optical signal and an interference waveguide region for filtering the optical signal to remove noise therein. The waveguide sensing unit further includes a cladding layer wrapping around the input waveguide and the interference waveguide region; and an optical signal detector converting the filtered optical signal into an electrical signal. The width of the input waveguide is smaller than that of the interference waveguide region, and the refractive index of the cladding layer is smaller than that of the input waveguide and the interference waveguide region.
US11125938B2 Low bend loss optical fiber with a chlorine doped core and offset trench
An optical fiber includes (i) a chlorine doped silica based core having a core alpha (Coreα)≥4, a radius r1, and a maximum refractive index delta Δ1max % and (ii) a cladding surrounding the core. The cladding surrounding the core includes a) a first inner cladding region adjacent to and in contact with the core and having a refractive index delta Δ2, a radius r2, and a minimum refractive index delta Δ2min such that Δ2min<Δ1max, b) a second inner cladding adjacent to and in contact with the first inner cladding having a refractive index Δ3, a radius r3, and a minimum refractive index delta Δ3min such that Δ3min<Δ2, and c) an outer cladding region surrounding the second inner cladding region and having a refractive index Δ5, a radius rmax, and a minimum refractive index delta Δ3min such that Δ3min<Δ2. The optical fiber has a mode field diameter MFD at 1310 of ≥9 microns, a cable cutoff of ≤1260 nm, a zero dispersion wavelength of 1300 nm≤zero dispersion wavelength≤1324 nm, and a macrobending loss at 1550 nm for a 20 mm mandrel of less than 0.75 dB/turn.
US11125937B2 Optical fibers having a varying clad index and methods of forming same
An optical fiber with low attenuation and methods of making same are disclosed. The optical fiber has a core, an inner cladding surround the core, and an outer cladding surrounding the inner cladding. The outer cladding is chlorine-doped such that the relative refractive index varies as a function of radius. The radially varying relative refractive index profile of the outer cladding reduces excess stress in the core and inner cladding, which helps lower fiber attenuation while also reducing macrobend and microbend loss. A process of fabricating the optical fiber includes doping an overclad soot layer of a soot preform with chlorine and then removing a portion of the chlorine dopant from an outermost region of the overclad soot layer. The soot preform with the modified chlorine dopant profile is then sintered to form a glass preform, which can then be used for drawing the optical fiber.
US11125935B2 Optical structure for imparting a distributed phase shift to an optical signal, electro-optic modulator incorporating such structure for reduced size, low signal loss, and high extinction ratio, and related system and method
An embodiment of an optical structure includes a core having first and second ends and a first side with a first grating profile having a first phase shift distributed between the first and second ends, and a cladding disposed around the core. Such an optical structure can be used in an electro-optic modulator (EOM), and can render the EOM smaller in size than currently available EOMs.
US11125934B2 Optical member and light guide system
There is provided an optical member and a light guide system each of which is capable of further thinning, and is achieved to emit light having high brightness and excellent in color reproducibility and uniformity. An optical member of the present invention includes: a light guide plate having a first main surface and a second main surface; a wavelength conversion layer, which is arranged near one end portion of the first main surface of the light guide plate, and is configured to convert a wavelength of light in an ultraviolet to blue region entering the wavelength conversion layer from an opposite side to the light guide plate, to thereby guide the light to the light guide plate; and a first reflective plate arranged on a side surface of the light guide plate on a side where the wavelength conversion layer is arranged.
US11125932B2 Light guide plate and manufacturing method thereof, backlight module and display device
A light guide plate and a manufacturing method thereof, a backlight module, and a display device are provided. The light guide plate includes a light incident surface, a light reflection surface, and a light-emitting surface; the light reflection surface includes a first prism structure array, the first prism structure array includes first prisms arranged in sequence in a first direction, and the first direction is perpendicular to the light incident surface; the first prism structure array is configured to enable light emitted from the light incident surface to be emitted toward the light-emitting surface; and the light-emitting surface includes a second cylindrical structure array, the second cylindrical structure array includes second cylindrical structures arranged side by side in a second direction, the second direction is perpendicular to the first direction, and a first plane including the first direction and the second direction is perpendicular to the light incident surface.
US11125930B2 Lighting device
A lighting device includes a plurality of first lighting units emitting a first light. Each of the first lighting units includes a light source, a light adjusting structure and a light converting structure. The first light is provided by the light source, adjusted by the light adjusting structure, and converted by the light converting structure. The first light has a sub peak between 400 nm and 500 nm and a main peak between 590 nm and 780 nm, and a normal intensity of the sub peak is greater than a tilt intensity of the sub peak.
US11125925B2 Optical element
To provide a volume-type optical element in which a self-cloning photonic crystal is used. An optical element is provided with half-wave plates of photonic crystals formed on the xy plane and laminated in the z-axis direction in a three-dimensional space x, y, z. The groove direction of the photonic crystals is a curved line, and the angle in relation to the y-axis direction changes continuously in the range of 0°-180°. Light entering the optical element in the axial direction is emitted from the optical element upon being divided and converted into clockwise circularly polarized light in the direction facing the x-axis by a given angle from the z-axis and anticlockwise circularly polarized light in the direction facing the −x-axis by a given angle from the z-axis. Laminating or placing a quarter-wave plate comprising a photonic crystal on one or both surfaces makes it possible to divide light entering from the z-axis direction of the optical element into two orthogonal linearly polarized lights.
US11125924B2 One-side-protected polarizing film, pressure-sensitive-adhesive-layer-attached polarizing film, image display device, and method for continuously producing same
The present invention is a one-side-protected polarizing film having a polarizer and a protective film provided on only one surface of the polarizer, wherein the polarizer contains a polyvinyl alcohol-based resin, has a thickness of 10 μm or less, and is configured so that optical properties represented by a single-body transmittance T and a polarization degree P satisfy the following relationship: P>−(100.929T−42.4−1)×100 (provided that T<42.3) or P≥99.9 (provided that T≥42.3), a transparent layer is provided on another surface of the polarizer, and a dynamic friction coefficient of the surface on which the protective film is provided is 0.2 or less. In this one-side-protected polarizing film, it is possible to resist the occurrence of through cracks and nano-slits even when the polarizer has specific optical properties and a thickness of 10 μm or less.
US11125918B2 Resin composition for a polarizer protective film, a polarizer protective film, a polarizing plate including the same, and a preparation method of a polarizing plate
The present invention relates to a resin composition for a polarizer protective film, a polarizer protective film, a polarizing plate including the same, and a preparation method of a polarizing plate, and, more specifically, to a resin composition for a polarizer protective film and a polarizer protective film exhibiting high hardness and excellent properties, a polarizing plate including the same, and a preparation method of a polarizing plate. According to the polarizing plate of the present invention, it can be usefully utilized in various fields because of its excellent hardness, flexibility, and optical properties.
US11125915B2 Weather forecasting systems and methods tracking cumulus clouds over terrain
A weather forecasting system has memory for storing satellite image data and numerical weather prediction (NWP) model data, which indicates predicted atmospheric conditions for a geographic region. At least one processor is programmed to identify a cumulus cloud within the satellite image data and to define a zone of influence around the cumulus cloud. The zone of influence represents a boundary for the NWP model data to be used by the processor for predicting whether the cumulus cloud will produce a weather event (e.g., precipitation, convective storm, etc.) in the future.
US11125914B2 Three-dimensional ground model generation and automated earthwork target model generation system based on parameter input
An earthwork target model generation system comprises a processor. The processor of the earthwork target model generation system stores a three-dimensional topography shape model and drill boring data in the target model generation system, generates a three-dimensional ground model using the three-dimensional topography shape model and the drill boring data, generates three-dimensional normal surface information in consideration of a design condition for each rock quality using the three-dimensional ground model, and sets the design condition.
US11125912B2 Geologic feature splitting
A method includes receiving information that defines a three-dimensional subterranean structure; splitting the three-dimensional subterranean structure into portions; generating convex hulls for the portions; and generating a discrete fracture network based at least in part on the convex hulls.
US11125910B2 Underground infrastructure sensing using unmanned aerial vehicle (UAV)
One aspect provides a method, including: obtaining sensor data from an unmanned aerial vehicle (UAV); the sensor data comprising data obtained by one or more sensors of the UAV; analyzing, using a processor, the sensor data to detect underground water associated with a pipe; and identifying, with the processor, an underground feature based on the analyzing. Other aspects are described and claimed.
US11125909B2 Enhanced seismic surveying
Embodiments of the present invention help in the processing and interpretation of seismic survey data, by correlating or otherwise comparing or associating seismic data obtained from a seismic survey with flow information obtained from a well or borehole in the surveyed area. In particular, embodiments of the present invention allow for flow data representing a flow profile along a well that is being monitored by a distributed acoustic sensor to be determined, such that regions of higher flow in the well can be determined. For example, in the production zone the well will be perforated to allow oil to enter the well, but it has not previously been possible to determine accurately where in the production zone the oil is entering the well. However, by determining a flow rate profile along the well using the DAS then this provides information as to where in the perforated production zone oil is entering the well, and hence the location of oil bearing sands. This location can then be combined or otherwise correlated, used, or associated with petroleum reservoir location information obtained from the seismic survey, to improve the confidence and/or accuracy in the determined petroleum reservoir location.
US11125906B2 Millimeter wave imaging-based omni-directional security detection system
A disclosed system includes a support frame including a plurality of surfaces, a millimeter-wave transmission link that generates a millimeter-wave transmission signal, a plurality of millimeter-wave array antennas, a millimeter-wave reception link, and an image processing device. The millimeter-wave array antennas are disposed on different surfaces of the support frame, and transmit millimeter-wave transmission signals from different angles to a to-be-detected object and receive echo signals reflected from the to-be-detected object. By providing the millimeter-wave array antennas on each of the plurality of surfaces of the support frame, and transmitting millimeter-wave transmission signals from different angles to a to-be-detected object and receiving echo signals reflected from different angles of the to-be-detected object, a three-dimensional image of the to-be-detected object can be established, thereby achieving omni-directional detection of the to-be-detected object. The system can detect human and objects at the same time, and is convenient, quick and highly accurate.
US11125902B2 Antenna shields for co-located antennas
A logging tool includes a mandrel having a tool axis, a first loop antenna including first windings wrapped about the mandrel, a second loop antenna co-located with the first loop antenna and including second windings wrapped about the mandrel, and a shield secured to the mandrel. The first loop antenna is in a first orientation and the first windings are wrapped at a first angle. The second loop antenna is in a second orientation opposite the first orientation and the second windings are wrapped at a second angle. The shield includes first slots overlapping and along the first loop antenna and second slots overlapping and along the second loop antenna. The first slots define a first trace angle with respect to the tool axis and different from the first angle. The second slots defines a second trace angle with respect to the tool axis and different from the first angle.
US11125900B2 Estimating an earth response
Estimating an earth response can include deconvolving a multi-dimensional source wavefield from near-continuously recorded seismic data recorded at a receiver position. The deconvolving can include spreading the near-continuously recorded seismic data across a plurality of possible source emission angles. The result of the deconvolution can be the earth response estimate.
US11125899B2 Reservoir materiality bounds from seismic inversion
A method including: obtaining geophysical data for a subsurface region; generating, with a computer, at least two subsurface property models of the subsurface region for at least two subsurface properties by performing an inversion that minimizes a misfit between the geophysical data and forward simulated data subject to one or more constraints, the inversion including generating updates to the at least two subsurface property models for at least two different scenarios that both fit the geophysical data with a same likelihood but have different values for model materiality, with the model materiality being posed as an equality constraint in the inversion, wherein the model materiality is a functional of model parameters that characterize hydrocarbon potential of the subsurface region; analyzing a geophysical data misfit curve or geophysical data misfit likelihood curve, over a predetermined range of values of the model materiality to identify the at least two subsurface property models that correspond to a high-side and low-side, respectively, for each of the at least two subsurface properties, with the high-side and low-side quantifying uncertainties in the subsurface properties; and prospecting for hydrocarbons in the subsurface region with the at least two models that correspond to the high-side and the low-side for each of the at least two subsurface properties.
US11125893B2 Analyzing method using a detector of alpha particles
A method is for analyzing, using a detector of alpha particles, a sample comprising at least one radionuclide emitter of a plurality of alpha particles. The detector comprises a detection medium and a plurality of measurement cells suitable for measuring at least one incident signal generated by an interaction of the alpha particle with said detection medium. The detector is designed to provide an autoradiographic image of said sample. The method comprises a step for determining (E1) an initial energy of each alpha particle. The step comprises repeating three sub-steps: determining (D1) a position of a first interaction of an alpha particle with the detection medium, determining (D2) an energy deposited by the particle in the interior of the detector and determining (D3) the initial energy of the alpha particle. The method then comprises constructing an energy spectrum for one zone of the autoradiographic image.
US11125891B2 Method for calculating location information and electronic device therefor
The present invention relates to a data processing method and apparatus. The invention provides an electronic device including: a communication module; a first location calculating module; a second location calculating module; and a first processor electrically connected to at least one of the first location calculating module and/or the second location calculating module. The first processor may be configured to: identify property information of at least one application that is driven by the first processor and requests location information; determine a location accuracy level on the basis of the identified property information of the at least one application; and select one of the first location calculating module and/or the second location calculating module in order to calculate the location of the electronic device by using a signal obtained through the communication module, according to the determined location accuracy level.
US11125890B2 Advanced navigation satellite system positioning method and system using seeding information
The invention relates to a method carried out by a navigation satellite system (NSS) receiver or a processing entity receiving data therefrom, for estimating parameters useful to determine a position. The NSS receiver observes NSS signals from NSS satellites over multiple epochs. A filter, called “precise estimator”, is operated, which uses state variables, makes use of NSS signals observed by the NSS receiver, and computes its state variable values based on observations that are not derived from NSS signals observed by the NSS receiver. Seeding information is obtained, and a constrained solution, called “seeding- and ambiguity-constrained solution”, is computed by constraining the ambiguities of the precise estimator by the seeding information, by resolving the resulting ambiguities, and by constraining at least one of the other state variables of the precise estimator by the resolved ambiguities. A corresponding system is also disclosed.
US11125889B2 Method of reducing inter-channel biases in GLONASS GNSS receivers
The present invention discloses methods of accuracy improving for code measurements in GLONASS GNSS receivers. One component of error budget in code measurements of GLONASS receivers is caused by a difference in signal delays arising in the receiver analog Front End and antenna filter on different channel frequencies specific to GLONASS satellites. Methods to compensate for differences in delays for different GLONASS channel frequencies have been proposed using data collected from a GLONASS signals simulator.
US11125887B2 Time synchronization system and transmission apparatus
A system capable of achieving time synchronization among a plurality of apparatuses provided at positions where they are unable to receive a GNSS signal is provided. A time synchronization system includes a reference time obtaining unit configured to obtain, based on a radio signal from a global navigation satellite system, a first timing signal and time information corresponding to timing indicated by the first timing signal, a modulator, connected to a line branched into a plurality of branches, configured to generate a modulated signal containing corresponding time information in synchronization with the first timing signal and to send the modulated signal over the line, at least one demodulator, connected to any branch of the line, configured to demodulate the modulated signal propagating over the line, and at least one transmitter configured to transmit a first radio signal compatible with the radio signal from the global navigation satellite system.
US11125882B1 Laser pulse sampling and detecting circuit, system, and method
A laser pulse sampling and detecting circuit includes: a laser driver which is driven by a triggering signal for generating laser pulse signal; a photoelectric converter for converting the laser pulse signal into current pulse signal; an amplifier for amplifying and converting the current pulse signal into voltage pulse signal; an ADC which is driven by a sampling clock signal for sampling the voltage pulse signal and performing analog-to-digital conversion on the voltage pulse signal, so as to obtain output signal of the ADC; a detector for detecting the output signal of the ADC, so as to obtain peak power and FWHM of the laser pulse signal; and a clock generator for generating the sampling clock signal. Phase of the sampling clock signal consecutively changes with respect to the triggering signal.
US11125878B2 Photonic apparatus using a phase alignment waveguide
System, methods, and other embodiments described herein relate to a photonic apparatus. The photonic apparatus including a phase alignment waveguide including waveguide inputs and waveguide outputs. The waveguide inputs being operably connected with a light source to provide a light wave into the phase alignment waveguide and the waveguide outputs providing a plurality of light waves from the optical waveguide. The phase alignment waveguide modulates the light wave to generate the plurality of light waves with different phases. The photonic apparatus includes a transmit switch operably connected with the waveguide inputs to selectively connect at least one of the waveguide inputs with the light source to provide the light wave into the phase alignment waveguide. The photonic apparatus includes control circuitry operably connected with the transmit switch, the control circuitry dynamically activating the at least one of the waveguide inputs according to an electronic control signal.
US11125870B2 Moving-target detection system and moving-target detection method
In order to enhance the performance with which a moving target is detected by a single sensor and with a degree of freedom in a transmission waveform, a moving-target detection system 1 has a transmission waveform setting means 101 for setting a transmission waveform St(t), a transmission means 102 for transmitting a wave having the set transmission waveform St(t), a reception means 103 for receiving a wave including a reflected wave from a target, a Doppler shift estimation means 104 for estimating a Doppler shift that occurs due to movement of the target from the transmission waveform St(t) and a reception waveform Sr(t) including the reflected wave, a transmission waveform deformation means 105 for generating a deformed transmission waveform in which the transmission waveform St(t) is deformed in accordance with the estimated Doppler shift, and a target sensing means 106 for sensing the target using the deformed transmission waveform.
US11125869B2 Estimating angle of human target using mmWave radar
A method of estimating an angle of arrival of a radar signal reflected on a human target includes: receiving the reflected radar signal with first and second antennas of a millimeter-wave radar; transforming the reflected radar signal received to generate first and second range spectrum, respectively; generating a first and second range-Doppler maps based on the first and second range spectrum, respectively; determining or estimating a Doppler velocity based on the first range-Doppler map or the second range-Doppler map; compensating the first and second range-Doppler maps by selecting a peak in the first or second range-Doppler maps based on the determined Doppler velocity; identifying an index of the first macro-compensated range-Doppler map corresponding to an identified target; estimating a phase difference based on the first and second macro-compensated range-Doppler maps and the identified index; and estimating the angle of arrival based on the phase difference.
US11125868B2 Method and device for processing an echo signal received from an acoustic sensor
A method and device for processing an echo signal received from an acoustic sensor. The echo signal is detected over a measurement time interval. A minimum value is ascertained, which describes a minimum amplitude of the echo signal within the measurement interval. An amplitude value is ascertained, which describes an amplitude of the echo signal within a measurement window. The measurement window is a predefined time interval within the measurement interval. A difference is ascertained between the minimum value and the amplitude value. A determination is made whether the echo signal comprises an interference signal of the first type or an interference signal of the second type, based on the ascertained difference.
US11125867B2 Adaptive weighting for adaptive ultrasound imaging
Systems and methods are disclosed for performing ultrasound imaging. Channel domain data can be received from an ultrasound transducer to form one or more channel domain data sets. A first ultrasound processing operation can be applied to the channel domain data to generate a first subset of one or more images from the one or more channel domain data sets. A second ultrasound processing operation can be applied to the channel domain data to generate a second subset of one or more images from the one or more channel domain data sets. Image characteristics of the first subset of one or more images and the second subset of one or more images can be regionally analyzed to identify regional image characteristics of the first and second subsets of one or more images. The first subset of one or more images can be blended with the second subset of one or more images based on the regional image characteristics to generate one or more composite images.
US11125864B2 Multi-beam LiDAR systems and methods for detection using the same
The present disclosure provides a multi-beam LiDAR system. The multi-beam LiDAR system includes a transmitter having an array of laser emitters. Each laser emitter is configured to emit a laser beam. The multi-beam LiDAR system also includes a receiver having an array of photodetectors. Each photodetector is configured to receive at least one return beam that is reflected by an object from one of the laser beams. The laser emitter array includes a plurality of laser emitter boards perpendicular to a horizontal plane. Each laser emitter board has a plurality of laser emitters. The plurality of laser emitters in the laser emitter array are staggered along a vertical direction. The photodetector array includes a plurality of columns of photodetectors. One of the laser emitter boards corresponds to one column of photodetectors.
US11125863B2 Correction device, correction method, and distance measuring device
A correction device including a photon number counting unit that counts a photon number on the basis of an output signal output from a light receiving unit, a correction value acquiring unit that acquires a correction value corresponding to the photon number, and a correction unit that performs correction based on the correction value.
US11125860B2 Triangulation applied as a safety scanner
An optical safety scanner system comprises a first illumination source for detecting presence and distances of people or other objects within a hazardous industrial area based on triangulation, and a second illumination source that verifies accurate and reliable detection by the first illumination source. The first illumination source can project LED or laser light for triangulation of objects, and the second illumination source can project a wide beam of light for detection of other intrusive objects that may be blocking the scanner system's camera and preventing accurate triangulation of people or vehicles. If the image frame generated based on the second light identifies presence of an object that is not detected by the triangulation analysis of the laser light, the safety scanner system assumes that an object is obstructing the safety scanner system's camera, and performs a suitable safety action.
US11125855B2 Method and system using TR assembly to obtain intermediate-frequency controllable signal
A disclosed method includes: dividing an signal into a first signal and a second signal; performing frequency multiplication and amplification on the first signal to obtain an intermediate signal of corresponding power and frequency, and using the second signal as a local oscillation signal. The method further includes dividing the intermediate signal into a first intermediate signal and a second intermediate signal, and using the first intermediate signal as a reference signal; performing frequency mixing on the second intermediate signal and the local oscillation signal to obtain a mixed signal, which is a high-frequency millimeter wave signal; transmitting the mixed signal by a transmitting antenna; and performing frequency mixing on the signal received by a receiving antenna and the reference signal to obtain an intermediate-frequency controllable signal having a frequency consistent with that of the output signal of the signal source.
US11125837B2 Magnetic field sensor offset and gain adjustment
A magnetic field sensor includes at least one magnetic field sensing element configured to generate a magnetic field signal indicative of a magnetic field associated with a target, an analog-to-digital converter configured to convert the magnetic field signal into a digital magnetic field signal, and a controller responsive to the digital magnetic field signal and configured to adjust an offset of the digital magnetic field signal during a first operational phase and to increase a gain of the digital magnetic field signal during a second operational phase following the first operational phase. The first and second operational phases occur during a running mode of sensor operation.
US11125836B2 Magnetic sensor manufacturing
A magnetic sensor comprising a first shield and a second shield and a sensor stack between the first and the second shield, the sensor stack having a plurality of layers wherein at least one layer is annealed using in-situ rapid thermal annealing. In one implementation of the magnetic sensor a seed layer is annealed using in-situ rapid thermal annealing. Alternatively, one of a barrier layer, an antiferromagnetic (AFM) layer, and a cap layer is annealed using in-situ rapid thermal annealing.
US11125835B2 AMR-type integrated magnetoresistive sensor for detecting magnetic fields perpendicular to the chip
An AMR-type integrated magnetoresistive sensor sensitive to perpendicular magnetic fields is formed on a body of semiconductor material covered by an insulating region. The insulating region houses a set/reset coil and a magnetoresistor arranged on the set/reset coil. The magnetoresistor is formed by a magnetoresistive strip of an elongated shape parallel to the preferential magnetization direction. A concentrator of ferromagnetic material is arranged on top of the insulating region as the last element of the sensor and is formed by a plurality of distinct ferromagnetic regions aligned parallel to the preferential magnetization direction.
US11125828B2 Determining the age of an electrochemical energy storage unit
Various embodiments include a method for determining the age of an electrochemical energy storage unit comprising: referring to a first open-circuit voltage curve of the electrochemical energy storage unit dependent upon the state of charge of the electrochemical energy storage unit as a reference; ascertaining a second open-circuit voltage curve of the electrochemical energy storage unit dependent upon the state of charge of the electrochemical energy storage unit; and determining the age of the electrochemical energy storage unit by comparing the first and second open-circuit voltage curves.
US11125822B2 Method for evaluating an electric battery state of health
A method for evaluating a state of health (SOH) of an electric battery of an electric vehicle, said method comprising a step of: performing on said electric battery, under given conditions, a test, called proxy test, said proxy test including a partial charge and/or discharge action of the battery, comparing the results of the proxy test with data stored in a dataset, and estimating the SOH in function of the comparison result.
US11125816B2 Method of testing memory device employing limited number of test pins and memory device utilizing same
A method is used to test a memory device including a package substrate, a controller die and a memory die. The package substrate includes an isolation pin, a test mode select pin, a test clock pin and a test data pin. The method includes setting the isolation pin to an isolation state to isolate the memory die from the controller die, and when the isolation pin is set to the isolation state, setting the memory die to receive control via the test mode select pin, the test clock pin and the test data pin.
US11125815B2 Electro-optic waveform analysis process
A reconfigurable optic probe is used to measure signals from a device under test. The reconfigurable optic probe is positioned at a target probe location within a cell of the device under test. The cell including a target net to be measured and non-target nets. A test pattern is applied to the cell and a laser probe (LP) waveform is obtained in response. A target net waveform is extracted from the LP waveform by: i) configuring the reconfigurable optic probe to produce a ring-shaped beam having a relatively low-intensity region central to the ring-shaped beam; (ii) re-applying the test pattern to the cell at the target probe location with the relatively low-intensity region applied to the target net and obtaining a cross-talk LP waveform in response; (iii) normalizing the cross-talk LP waveform; and (iv) determining a target net waveform by subtracting the normalized cross-talk LP waveform from the LP waveform.
US11125812B2 Circuit aging detection sensor based on voltage comparison
The invention discloses a circuit aging detection sensor based on voltage comparison. A control circuit generates an aging voltage signal, a standard voltage signal and a reference voltage signal. The aging voltage signal passes through a first voltage-controlled oscillator to generate an aging frequency signal. The standard voltage signal passes through a second voltage-controlled oscillator to generate a standard frequency signal. The standard frequency signal and the aging frequency signal pass through an aging detection circuit to generate a frequency difference signal. A level signal generated by a serial data detector passes through a beat-frequency oscillator to generate a reset signal. A counter quantizes aging information, which is converted by a digital-analog converter into a quantized voltage signal. The quantized voltage signal is compared with the reference voltage signal by a voltage comparator, to generate a hopping signal at a voltage superposition node, and an aging signal is output.
US11125811B2 Semiconductor device and method of operating the same
Provided are a semiconductor device and a method of operating the same. A semiconductor includes a test circuit which comprises: a test transistor to be tested for time-dependent dielectric breakdown (TDDB) characteristics using a stress voltage; an input switch disposed between a voltage application node to which the stress voltage is applied and an input node which transmits the stress voltage to the test transistor; and a protection switch disposed between the input node and a ground node.
US11125810B2 Blind-mate PIM testing adapter connector and fixture
A fixture for testing coaxial connectors for PIM includes: (a) an adapter connector comprising an inner contact; an outer body that circumferentially surrounds and that is spaced from the inner contact, the outer body including an inner ring and an outer ring with a gap therebetween; and a resilient member in electrical contact with the outer body; and (b) a foundation including a fixed sleeve and a biasing member, the biasing member exerting an axial force on the sleeve and the outer body, the biasing member permitting axial and radial adjustment of the outer body and inner contact relative to the sleeve. The gap between the inner and outer rings of the outer body is configured to receive an outer ring of an outer body of a coaxial connector to be tested. The inner ring of the test fixture is located to be radially outward of an inner ring of the outer body of the coaxial connector to be tested. The resilient member is positioned to apply radial pressure to the inner ring of the outer body of coaxial connector to be tested.
US11125806B2 Metrology apparatus and method for determining a characteristic of one or more structures on a substrate
Disclosed is a method for obtaining a computationally determined interference electric field describing scattering of radiation by a pair of structures comprising a first structure and a second structure on a substrate. The method comprises determining a first electric field relating to first radiation scattered by the first structure; determining a second electric field relating to second radiation scattered by the second structure; and computationally determining the interference of the first electric field and second electric field, to obtain a computationally determined interference electric field.
US11125805B2 Device for measuring surface characteristics of a material
A device is provided for electrically measuring surface characteristics of a sample. The device comprises at least one group of three electrodes: a first and second electrode spaced apart from each other and configured to be placed onto the surface of the sample, and a third electrode between the first two but isolated from these two electrodes by a one or more first insulators, wherein a second insulator further isolates the central electrode from the sample when the device is placed thereon. The three electrodes and the insulators are attached to a single or to multiple holders with conductors incorporated therein for allowing the coupling of the electrodes to power sources or measurement tools. The placement of the device onto a semiconductor sample creates a transistor with the sample surface acting as the channel. The device thereby allows the determination of the transistor characteristics of the sample in a straightforward way.
US11125801B2 Method and apparatus for monitoring the loss factor of capacitor bushings
A method monitors capacitor bushings for an AC mains. The mains has first-third phases, associated with first-third mains lines, capacitor bushings, and mains voltages. Each capacitor bushing has a conductor, surrounded by foil, connecting its mains line. The method includes: at a first instant, for each phase: a first reference voltage phasor is determined; and a foil voltage present between the respective foil and ground potential is detected and a corresponding first foil voltage phasor is determined; at a second instant, for each of the phases: a second reference voltage phasor is determined; the foil voltage is detected and a second foil voltage phasor is determined; for each capacitor bushing: a loss factor change is calculated based on the respective reference voltages and foil phasors and those of the adjacent capacitive bushing; and a monitoring signal is generated based on a comparison of the loss factor and a tolerance value.
US11125798B2 Power distribution network monitoring system and power distribution network monitoring device
A power distribution network monitoring system detects abnormalities that occur in a power distribution network using measuring instruments installed in the power distribution network. The power distribution network monitoring system includes a plurality of measuring instruments that are installed at predetermined positions on power lines on an upstream side of the downmost-stream power demander, among the power lines constituting the power distribution network and configured to perform electrical measurement of the power lines; and an abnormality detector configured to determine whether or not data related to the measurement result measured by the measuring instrument has been received a predetermined number of times within a predetermined length of time, and detect the abnormality.
US11125797B2 Signal generator and a measurement system including signal generator
A measurement system according to an embodiment of the present invention comprises: an analyzer; a first expansion module for transmitting a first electromagnetic wave signal to a first antenna under control of the analyzer; a second expansion module for receiving a second electromagnetic wave signal through a second antenna; a first signal generator for generating a first local oscillation signal under control of the analyzer, and detecting a reference characteristic of the first electromagnetic wave signal and a first test characteristic of the first antenna by using the first local oscillation signal; and a second signal generator for generating a second local oscillation signal under control of the analyzer, and detecting a second test characteristic of the second antenna by using the second local oscillation signal, wherein the first signal generator comprises a controller for converting instructions transmitted from the analyzer into internal instructions, and a local oscillation signal generator for generating the first local oscillation signal according to the internal instructions.
US11125795B2 Capacitive sensor
The capacitive sensor can have a sensing body having two flat conductor elements positioned parallel to one another and held spaced apart from one another, and having a thickness normal to the flat conductor elements, the sensing body having at least one aperture formed across its thickness. The capacitive sensor can be used to measure an air gap between a stator and rotor of a rotary electric machine, and the presence of the apertures can facilitate ventilation and/or improve linearization process of capacitive sensor through redistribution of its current vs distance signal along the measuring range, thus potentially increasing signal to noise ratio where it is the challenging to do so.
US11125794B2 Method and system for radio frequency (RF) spectral imager on an integrated circuit
Methods and systems in accordance with the present invention provide an RF spectrum analyzer on a computer chip, such as an integrated circuit. They may provide RF spectrum analyzer functions on a much smaller scale, which is easier to implement, transport and install in other equipment. They present a single chip solution that is smaller, lighter and more compact than conventional systems. Additionally, they may be put in hand held (or smaller) devices.
US11125793B2 Demand monitoring device, demand monitoring system, demand monitoring method, and demand monitoring program
A demand monitoring device which monitors an amount of electric power received by a consumer includes: a prediction unit predicting, every demand period, received electric power in the object demand period on the basis of at least one of demand electric power, generated electric power, and received electric power at a time previous to the demand period, a known schedule of the consumer in the demand period, and weather information; a creation unit creating a graph showing an amount of electric power received by the consumer until a current time, a predicted value for an amount of received electric power from the current time onward, the predicted value being predicted by the prediction unit, and a target electric power amount based on contract electric power of the consumer; and a display control unit displaying the graph created by the creation unit, on a screen of a display device.
US11125792B2 Power outage detection and reporting
Systems and methods are disclosed for detecting and reporting node power outages in a connected network. A node in the network detects that a power outage has occurred at the node and the node generates a last gasp packet using a packet format containing fewer data units than a regular packet format used by the network for communication. The node broadcasts the last gasp packet to its neighboring nodes. After receiving the last gasp packet, a neighboring node estimates the time of the power outage and converts the last gasp packet into an outage alarm message using the regular packet format. The neighboring node transmits the outage alarm message to a headend system to report the power outage at the node.
US11125790B2 Method for operating a power consumption metering system and power consumption metering system
In an embodiment a method for operating a power consumption metering system includes measuring, by a sensor deployed at a monitored site, power consumption values over time to obtain a high speed value pattern of a power consumption with a resolution of more than 1000 values per second, measuring, by the sensor, low speed power consumption values over time to obtain a low speed value pattern of the power consumption with a resolution of less than 100 values per second, identifying a status of a power consumer of the monitored site dependent on the high speed value pattern and counting an operation time of the power consumer dependent on the low speed value pattern and on the identified status.
US11125787B2 Semiconductor device and semiconductor system comprising the same
A semiconductor device is provided and includes: a voltage sensing circuit configured to output first and second sensing voltages based on a target voltage applied thereto; and a comparing circuit configured to generate a monitoring output signal based on levels of the first and second sensing voltages, wherein the voltage sensing circuit includes: a first transistor including a gate to receive a reference bias voltage, a source connected to an input node, and a drain connected to one end of a first resistive element; a second transistor provided in a current mirror structure with the first transistor, and including a drain connected to a third resistive element; and a second resistive element connected to another end of the first resistive element, the first sensing voltage being provided to both ends of the second resistive element, and the second sensing voltage being provided to both ends of the third resistive element.
US11125785B2 Sensor for detecting temperatures
A sensor is provided with a magnetic detection element that can output an output voltage within a predetermined voltage range according to a magnetic field intensity, an output voltage fixing part that can fix a voltage value of the output voltage to a voltage value outside the voltage range, and a drive voltage output part that can output a drive voltage for driving the output voltage fixing part. The drive voltage fixing part outputs the drive voltage to the output voltage fixing part when the ambient temperature of the drive voltage output part exceeds a predetermined threshold, and when triggered by input of the drive voltage, the output voltage fixing part fixes the voltage value of the output voltage to a voltage value outside the voltage range.
US11125784B2 Correcting for a gain error resulting from the position of a pole of zero in a transfer function of a system
The response of a Rogowski coil based current measuring circuit is often proportional to frequency. To correct for this a low pass or integrating function is applied to the response to linearize it. The low pass filter is made from real resistors and capacitors, and tolerances in their values significantly affect the estimate of current. This disclosure relates to a way of addressing such problems. This allows consumers of electricity to have confidence in the accuracy of, for example, their electricity meter.
US11125783B2 Wireless Rogowski coil system
A Rogowski coil in a sensor unit has voltage induced by a conductor surrounded by the Rogowski coil. The voltage is integrated to represent current which is converted to digital data representing current in the conductor and sent wirelessly to a multimeter. The sensor unit may receive control signals from the multimeter and a remote control apparatus. A plurality of sensor units may be networked and controlled by the remote control apparatus.
US11125782B2 Line post sensor
A high voltage line post sensor for a high voltage power distribution system having a high voltage power transmission line for transmitting electrical power at a high voltage includes a voltage line sensor. The voltage line sensor includes a high voltage high resistance circuit including a first high voltage high resistance resistor coupled to the high voltage power transmission line and a second high voltage high resistance resistor coupled to the high voltage power transmission line in parallel to the first resistor; and a low voltage low resistance circuit coupled in series between the high voltage high resistance circuit and a reference voltage. The line post sensor also includes a body surrounding and encasing the high voltage high resistance circuit and the low voltage low resistance circuit.
US11125778B2 Probe head and conductive probe thereof
A probe head and a conductive probe thereof are provided. The conductive probe includes a first long lateral surface and an opposite second long lateral surface. The first long lateral surface and the second long lateral surface define a central axis there-between. The conductive probe includes a middle segment, an upper connecting segment and a lower connecting segment respectively extending from the middle segment in two opposite directions, and an upper contacting segment and a lower contacting segment respectively extending from the upper and the lower connecting segments in two opposite directions. The upper connecting segment includes an extension extending from the first long lateral surface in a direction away from the central axis. The upper contacting segment includes a protrusion extending from the first long lateral surface in a direction away from the central axis, and the extension and the protrusion are spaced apart from each other.
US11125776B2 Short circuit inspection method for all-solid-state battery assembly, restraint jig used therefor, kit for short circuit inspection, and method for manufacturing all-solid-state battery
According to one aspect of the present invention, a short circuit inspection method for an all solid battery assembly is provided which includes: a step of preparing an all-solid-state battery assembly; a step of preparing a restraint jig including a pair of restraint plates sandwiching the all-solid-state battery assembly in the thickness direction, and a restraint member including a bolt and a nut, wherein where a smallest thermal expansion coefficient among the thermal expansion coefficient of the positive electrode current collector and the thermal expansion coefficient of the negative electrode current collector of the all-solid-state battery assembly is denoted by α1, the thermal expansion coefficients of the bolt and the nut are each equal to or greater than α1; a step of restraining the all-solid-state battery assembly; a step of increasing the resistance of the all-solid-state battery assembly by cooling; a step of applying a voltage to the all-solid-state battery assembly and measuring a current; and a step of determining whether or not a short circuit has occurred in the all-solid-state battery assembly on the basis of the measured current value.
US11125774B2 Systems and methods for manufacturing nano-electro-mechanical-system probes
Systems and methods for manufacturing multiple integrated tip probes for scanning probe microscopy. According to an embodiment is a microscope probe configured to analyze a sample, the microscope probe including: a movable probe tip including a terminal probe end; a first actuator configured to displace the movable probe tip along a first axis; and a detection component configured to detect motion of the movable probe tip in response to an applied signal; where the moveable probe tip comprises a metal layer affixed to a supporting layer, at least a portion of the metal layer at the terminal probe end extending past the supporting layer.
US11125768B2 Angle based speed sensor device
A sensor device is provided with a magnetic field sensitive element being positioned in a magnetic field of a magnet. The magnetic field sensitive element is configured to sense an orientation angle of the magnetic field in the range between 0° and 360° and generate a sensing signal. The electronic circuitry is configured to receive and process the sensing signal from the magnetic field sensitive element to generate an angle signal indicating the orientation angle of the magnetic field.
US11125766B2 Automated diagnostic analyzers having rear accessible track systems and related methods
Example apparatus and methods related to automated diagnostic analyzers having rear accessible track systems are described herein. An example apparatus disclosed herein includes an analyzer to perform a diagnostic test. The analyzer has a first side and a second side opposite the first side. The example apparatus includes a loading bay disposed on the first side of the analyzer to receive a first carrier and a pipetting mechanism coupled to the analyzer adjacent the second side. The example apparatus also includes a first carrier shuttle to transport the first carrier from a first location adjacent the loading bay to a second location adjacent the pipetting mechanism and a track disposed adjacent the second side of the analyzer to transfer a second carrier to a third location adjacent the pipetting mechanism.
US11125764B1 Specimen integrity monitoring device for automated blood sample processing systems
Systems, methods, devices, and apparatus for detecting sample defects in blood samples processed in automated processing systems are described herein. One aspect describes an automated blood sample processing apparatus having a pre-analytic specimen integrity monitoring device. Another aspect describes devices, systems, and methods for identifying blood components and properties in blood samples. Further aspects relate to systems and methods for setting reference ranges for sample defects and interference in blood samples. Additionally, devices, systems, and methods for identifying defective samples are described.
US11125761B2 Methods and devices for rapid assessment of severity of injury
Methods and devices for rapid assessment of the severity of injury not due to a natural disease based upon measurement of neutrophil gelatinase-associated lipocalin (NGAL) are provided.
US11125759B2 Compositions and methods to detect non-coeliac gluten sensitivity
Disclosed are compositions and methods to detect proteins associated with non-coeliac gluten sensitivity (NCGS). Such markers may be useful to allow individuals susceptible to NCGS to manage their food intake to avoid symptoms and further progression of disease.
US11125753B2 Labeling using an optical thickness measurement of a biosensor
A system detects an analyte suspected of being present in a sample. The reader reads an optical tag on a substrate, which is configured to immobilize the tag on a substrate surface. The optical tag is bound to a probe and includes a plurality of pores that create an effective index of refraction. The plurality of pores and a thickness of the tag are selected for a reflectance property. The substrate is configured to contact a sample suspected of comprising an analyte. The probe is capable of binding specifically to the analyte. The reader is configured to expose the tag to light to generate a sample spectral signature that is a function of the effective index of refraction, the thickness of the optical tag, and whether the analyte is coupled to the probe. The sample spectral signature is compared to a reference to detect the analyte in the sample.
US11125746B2 Two-sided flow-through immunoassay
A two-sided flow-through immunoassay testing device is provided. The device comprises a well having therein a plurality of orifices, the plurality of orifices serving to channel biologic material deposited into the well onto different immunoassay pods, wherein the immunoassay pods may contain immunoassay test layers stacked to create an immunoassay test. The device further includes a results window. Inside the device, and between the window and the pods, there are open sections below each pod to allow a user to view the results of the tests as presented on the reaction layers of the pods through the window.
US11125745B2 Magnetic electrochemical sensing
Target analyte detection devices include a housing having a potentiostat and a microcontroller coupled to the potentiostat. The device also includes a substrate having a plurality of electrodes on a first surface of the substrate. A first set of electrodes of the plurality of electrodes defines a first sample detection region. The substrate is removably attachable to the housing such that the first set of electrodes is coupled to the potentiostat upon attaching the substrate to the housing. The device also includes a magnet assembly couplable to a second surface of the substrate. The magnet assembly includes a magnet positioned in the magnet assembly such that a magnetic field from the magnet extends through the substrate and the first set of electrodes into an area above the first sample detection region upon coupling the magnet assembly to the substrate.
US11125742B2 Non-specific reaction inhibitor, method for inhibiting non-specific reaction, and kit
Provided is a non-specific reaction inhibitor for achieving the accurate detection and quantitation of a trace component (a target substance) contained in a sample, in an immunoassay, by simply and effectively inhibiting a non-specific reaction associated with the measurement.The non-specific reaction inhibitor comprises a substance of the formula I: wherein R1 and R2 together form a double bond between carbons, to which they are respectively bonded directly, or R1 is a hydrogen atom and R2 is a group formed by removing H from an SH-group-containing compound, B is a support, and L is a spacer arm portion.
US11125740B2 Method for measuring immunostimulatory response of immune cell, method for determining ability to form immune synapse in immune cell, and cell analyzer
Disclosed is a method for measuring an immunostimulatory response of an immune cell, including (i) bringing a measurement target immune cell into contact with an immunostimulator, (ii) forming a contact surface with a substance different from the measurement target immune cell on the measurement target immune cell, (iii) bringing the measurement target immune cell into contact with a capturing body that binds to a surface antigen on the contact surface and is capable of generating an optical signal, (iv) detecting the optical signal generated from the capturing body, and (v) determining whether or not the measurement target immune cell from which the contact surface has been eliminated before detecting the optical signal has an immunostimulatory response, based on the detected optical signal.
US11125738B2 Blood sample analysis systems and methods
A system includes an optical measurement unit that measures an optical property of a whole blood sample deposited on a surface of a substrate, an ion source that causes ions derived from the whole blood sample, including ions formed from an analyte of interest present in the whole blood sample, to be emitted from the substrate, a mass analyzer that receives the ions emitted from the substrate and measures an abundance of at least one ion species corresponding to the analyte of interest, and at least one computing device that determines, based on the measured optical property, a hematocrit of the whole blood sample, and determines, based on the determined hematocrit of the whole blood sample and the measured abundance of the at least one ion species, a concentration of the analyte of interest per unit volume of blood plasma.
US11125737B2 Microcapillary sensor array
A microcapillary sensor array includes a sensor body that is elongated along a longitudinal axis. The sensor body has a first end, a second end spaced from the first end along the longitudinal axis, an outer surface, and an inner surface. The inner surface defines a hollow capillary that extends from the first end toward the second end along the longitudinal axis. The microcapillary sensor array includes a sensing element that extends through the sensor body from the outer surface to the hollow capillary and a conductive element in contact with the sensing element. The conductive element detects a response signal generated by a reaction between the sensing element and a fluid as the fluid flows through the hollow capillary contacting the sensing element.
US11125730B2 Flow passage unit
A flow passage unit has a column for used in a liquid chromatograph and a support body that supports the column. The column has: a porous stationary phase; a porous pressure adjusting part disposed at least at the flow-in end of the stationary phase, a liquid entering the flow-in end, the pressure adjusting part being harder than the stationary phase; and a covering part that covers the stationary phase and pressure adjusting part. The support body has a first plate and a second plate that are mutually joined, the support body forming a column holding part and a liquid flow passage, the column holding part holding the column between the first plate and the second plate, the liquid flow passage communicating with the column holding part. Pressure applied from the first plate and second plate to the pressure adjusting part is higher than pressure applied to the stationary phase.
US11125727B2 Ultrasound sensor and detection apparatus
A sensor or receiver array includes first and second pyroelectrically active electrodes formed of polyvinylidene difluoride and separated by a spacer layer that acts to electrically separate the pyroelectric layers while keeping them close enough such that they see effectively the same vibration or background acoustic excitation while maintaining sufficient separation to ensure that they generate significant differences in their pyroelectric responses. The structure provides two distinct signals (at separate timestamps), the difference between which provides a more accurate signal. An ultrasound detection system includes the tri-laminar sensor, disposed within a detection zone in which a test element can be positioned. The apparatus includes a processing unit, which comprises a detector unit coupled to the first and second pyroelectric elements and configured to derive a differential signal from the first and second pyroelectric elements. A processor is coupled to the detector unit and is configured to generate an electrical output waveform on the basis of the data extracted from first and second pyroelectric elements.
US11125725B2 Methods and devices for inspection of pipelines
Systems and methods for inspection of pipelines are disclosed herein. In one embodiment, an electromagnetic acoustic transducer (EMAT) transceiver (TRX) for inspecting a pipe includes a multichannel EMAT transmitter (TX) having multiple collocated transmitter coils. The EMAT TX can generate forward-propagating ultrasound waves and backward-propagating ultrasound waves. The forward-propagating ultrasound waves have higher amplitude than the backward-propagating ultrasound waves. The EMAT TRX also includes a multichannel EMAT receiver (RX) having multiple receiver coils that can receive the ultrasound waves transmitted by the EMAT TX through the pipe.
US11125724B2 System and method for inspecting fasteners
A fastener probe assembly includes a disc configured to rotate about a first axis of a fastener, an ultrasound probe coupled to the disc, and an encoder configured to determine an orientation of the ultrasound probe relative to the first axis of the fastener during an inspection of the fastener. The ultrasound probe is configured to interface with an axial end of the fastener, to emit ultrasound signals into the axial end of the fastener, and to receive ultrasound signals from the fastener.
US11125722B2 Method and apparatus for evaluating damage to magnetic linear body
A magnetic detector includes permanent magnets that magnetize a wire rope W in the longitudinal direction, and a search coil that detects a change in the cross sectional area of the wire rope W magnetized by the permanent magnets. The magnetic detector is provided so as to surround a part of the wire rope W. Prior to inspection, the magnetic detector is moved back and forth at least three times across an inspection range of the wire rope W. After the magnetic detector is moved back and forth, the change in the cross sectional area, that is, damage to the wire rope W is inspected by using signals outputted from the search coil.
US11125717B2 Electrochemical sensor for lead detection
A sensor for detecting lead in an aqueous solution includes a copper working electrode, a counter electrode, a power supply for applying underpotential deposition of lead onto the copper electrode from the aqueous solution, a measuring device for providing measurement of a hydrogen evolution reaction (HER) current on the Pbupd-modified electrode, and a means for correlating the degree of suppression of the HER current to Pbupd coverage to determine the lead coverage and lead concentration of the solution.
US11125715B2 Gas sensor
A sensor element of a gas sensor includes a solid electrolyte body which has oxygen-ion conductivity, a measuring electrode that is exposed to a measured gas, a reference gas electrode that is exposed to a reference gas, and a porous protection layer. The measuring electrode is mounted on an outer surface of the solid electrolyte body. The reference electrode is mounted on an inner surface of the solid electrolyte body. The protection layer covers a surface of the measuring electrode. A plurality of open portions are formed to penetrate through the measuring electrode. A part of the protection layer is joined to the solid electrolyte body, via the plurality of open portions.
US11125708B2 Silver alloy-based sputter target
The present invention relates to a sputtering target, comprising a silver alloy comprising a first element, selected from indium, tin, antimony and bismuth, in an amount of 0.01 to 2 wt. %, based on the total weight of the silver alloy, and 0.01 to 2 wt. % titanium, based on the total weight of the silver alloy, and having an average grain size of no more than 55 μm.
US11125702B2 Radiation imaging apparatus, image processing apparatus, and image processing method
An image processing apparatus that processes an image obtained from an imaging sensor having a plurality of pixels arranged in a matrix pattern, the pixels including a first pixel group for obtaining a pixel value corresponding to a radiation dose and a second pixel group for obtaining an offset value even with irradiation with radiation, performs offset correction of a radiation image obtained from the plurality of pixels by an imaging operation with irradiation with radiation based on a dark image obtained from the plurality of pixels by an imaging operation without irradiation with radiation, calculates a statistic value of pixel values obtained from the second pixel group of the corrected radiation image, and corrects pixel values obtained from the first pixel group, which have been offset-corrected, based on a temporal variation in the statistic value.
US11125693B2 Surface enhanced infrared absorption stage
A surface enhanced infrared absorption stage may include a substrate, a static island extending from the substrate and a movable nano finger extending from the substrate. The static island may have a plasmonically active island cap and a dimension parallel to the substrate of at least one micrometer. The movable nano finger may be aligned with the dimension. The movable nano finger may have a plasmonically active finger cap closable to less than or equal to 5 nm of the island cap.
US11125688B2 Use of turbidimeter for measurement of solid catalyst system component in a reactor feed
A method of monitoring a solid component of a reactor feed stream in a polymer production system, comprising (a) measuring a turbidity of the reactor feed stream, wherein the reactor feed stream comprises a solid component of a polymerization catalyst system, and (b) translating the turbidity of the reactor feed stream into a concentration of the solid component in the reactor feed stream. A method of monitoring a solid component of a reactor feed stream in a polymer production system, comprising (a) measuring a turbidity of a precontactor feed stream, wherein the precontactor feed stream comprises a solid component of a polymerization catalyst system, and (b) translating the turbidity of the precontactor feed stream into a concentration of the solid component in a precontactor effluent stream, wherein the precontactor effluent stream comprises the reactor feed stream.
US11125685B2 Apparatus and method for analyzing a sample
An apparatus and method for Crystal Anisotropy Terahertz Microscopy (“CATM”) is provided. The apparatus includes an emitter configured to emit a THz pulse and a detector configured to detect the THz pulse after the pulse is transmitted through a sample disposed on a sample surface of the detector. A pulsed radiation generator generates a probe beam to interrogate the detector. The detector may include an electro-optical (“EO”) crystal configured to change in birefringence according to the THz pulse. The sample surface of the detector may have a dielectric coating which is transmissive to THz and reflective to the probe beam. The sample is disposed on the dielectric coating.
US11125684B2 Plasmon waveguide, biosensor chip and system
A plasmonic waveguide (10), a biosensor chip (100) and a system, wherein the plasmonic waveguide (10) is applied to the biosensor chip (100), and comprises a base (11) and a plasmonic structure (12) provided on the upper surface of the base (11); the plasmonic structure (12) comprises a plurality of plasmons (121) periodically arranged, the plasmons (121) being metal split rings, and the annular openings of the plasmons (121) being used for fixing antibody probes (122). The plasmon waveguide (10) is provided in the biosensor chip (100), the target biomolecules in the detection liquid flowing into a microfluidic channel (31) can be captured by means of the antibody probes (122), and the plasmonic waveguide (10) is used to enhance the signal strength of terahertz waves emitted to the biosensor chip (100), thereby enhancing the signal strength of the reflected terahertz waves detected by a terahertz analyzer (300), improving the detection sensitivity, the signal-to-noise ratio and the reliability.
US11125680B1 Methods for determining the activity of an activated chemically-treated solid oxide in olefin polymerizations
Methods for determining the catalytic activity of an activated chemically-treated solid oxide using a color measurement technique are described, and these methods are integrated into transition metal-based catalyst preparation processes and systems, as well as into olefin polymerization processes and related polymerization reactor systems.
US11125676B2 Method for determining the static friction coefficient for a shoe sole
A method for determining the static friction coefficient of a shoe sole (2) using a test bed (1) comprising a measuring surface (3) with known friction features; a bearing member (4) producing a bearing force Fz on the sole (2); and a traction member (5) capable of generating a movement between the sole (2) and the measuring surface (3); said method comprising the following steps: positioning at least one portion of a sole (2) to be tested on the measuring surface (3); applying a bearing force Fz on the sole (2); gradually causing a movement to be applied to the traction member (5); recording the values of Fx and Fz; and determining the static friction coefficient Mu.
US11125672B2 Method of quantitative measurement of particle content using hydrated state imaging
The method is for quantitative measurement of particle content using hydrated state imaging such as CryoTEM. A sample of virus-like particles (VLPs) or virus particles is provided. Preferably, the sample is rapidly frozen into a cryogenic liquid at a cryogenic temperature. While at the cryogenic temperature, the particle content of each VLP in the frozen sample is observed in the CryoTEM. An amount of the particle content of the VLPs is determined to assess whether the VLPs are empty or not.
US11125668B2 Resonant sensors for measuring fluid properties capable of operating at high temperatures and pressures
A resonant sensor 1908 is used to determine fluid properties, the resonant sensor 1908 comprising a resonator 108 defining a lengthwise axis and having a central vibrational node (140), and a pair of opposed lengthwise end-portions (125); a support structure including a frame (115) and a set of flexible supports (110) extending from the frame to the central vibrational node and thereby supporting the resonator at the lengthwise midpoint; a driving and sensing assembly, adapted to drive the resonator to resonant motion and to sense resultant motion of the resonator and producing a motion sensed signal, responsive thereto; and a control and signal processing network adapted to control the driving and sensing assembly to drive the lengthwise end-portions in rotation about the lengthwise axis, in opposed rotational directions, and responsive to the motion sensed signal to determine at least one fluid property of a fluid under test in response to the motion sensed signal.
US11125667B2 Embeddable seepage module capable of being embedded into interface ring shear apparatus considering soil erosion
An embeddable seepage module capable of being embedded into an interface ring shear apparatus is disclosed, wherein: the seepage module includes an annular cylinder, a seepage pressure regulation system, a top plate and a bottom plate; the interface ring shear apparatus includes an upper shear box and a lower shear box; the annular cylinder, the top plate, the bottom plate, the upper shear box and the lower shear box form an internal pressure cavity and an external pressure cavity; the internal pressure cavity is able to realize the precise double control of the soil seepage pressure and water flow through the seepage pressure regulation system; the external pressure cavity is able to collect fine soil particles under pressure seepage. In the case of soil seepage-shear coupling, the seepage module is assembled firstly for seepage, and after completing the seepage, the external pressure cavity is removed for ring shear tests.
US11125663B1 Cryogenic systems and methods
Cryogenic analysis systems are provided that can include: at least one sample stage operatively aligned with at least one cooling source; at least one thermal link operationally coupled between the sample stage and the cooling source; and at least one link support between the cooling source and the sample stage, the link support engaging the thermal link. Methods for cooling a sample within a cryogenic analysis system are provided with at least some of the methods including: thermally connecting a cooling source to a sample stage supporting a sample via a thermal link; and supporting the thermal link between the cooling source and the sample stage.
US11125661B2 Devices and methods for biological assay sample preparation and delivery
Devices and methods for preparing and delivering biological assay samples are provided herein. Components of such devices include a sample receiving module within which a biological assay sample can be prepared and a cap, which when operatively coupled with the sample receiving module, pressurizes the module. These devices can be employed for subsequently delivering a biological assay sample.
US11125654B2 Abnormality cause identifying system for device including rotating member
An abnormality cause identifying system for a device including a rotating member includes: acceleration sensors, a pickup sensor, and a temperature sensor, which observe a state of a rotating member and acquire a measurement data piece; a measurement data piece converting portion configured to convert the measurement data piece into two or more new-format conversion data pieces that are different from each other; and an abnormality cause identifying portion configured to identify an abnormality cause of the device by analyzing the conversion data pieces created by the measurement data piece converting portion.
US11125651B2 Movable platform with a deformable main body for the testing of collisions or near-collision situations
The present invention relates to a platform for testing collisions or near-collision situations between a collision body, in particular a vehicle, and a test object. The platform has a base body, which has a bottom surface and an attachment surface formed opposite to the bottom surface, wherein an attachment device is formed on the attachment surface for attaching the test object. Furthermore, the platform has at least one roller element, which is arranged at the bottom surface, wherein the roller element is configured such that the base body is displaceable along a ground by the roller element. The base body is formed of an elastically deformable material having a thickness of less than 2500 kg/m3.
US11125649B2 Drive train test stand having a modular design for electric motor vehicle drives
A modular drive train test stand (1) for electric motor vehicle drives (9). The drive train test stand (1) has at least a motor module (2). The drive train test stand (1) is characterized in that the electric motor (3) of the motor module (2) has a housing with a yoke (4) for supporting the electric motor (3).
US11125644B2 Mechanical seal testing
A mechanical seal testing system includes a mounting ring and a testing table. The mounting ring includes a first side configured to couple to a mechanical seal, the mechanical seal configured to couple to an oil pump, and a second side configured to couple to a stuffing box, the stuffing box configured to couple to a water pump. The testing table includes a surface configured to collect fluid leaked by the mechanical seal or the stuffing box. The mounting ring is coupled to the surface of the testing table.
US11125642B2 Multi-scale real-time acoustic emission monitoring and analysis method for mechanical seal
A real-time monitoring and analysis method for a mechanical seal. In the method, an acoustic emission signal generated by a friction pair at a mechanical seal end surface is measured; a specific acoustic source generate signals on a plurality of specific frequency bands on an acoustic scale. In a seal operating process motion causes the acoustic emission signal to change on a dynamic time scale equivalent to a period of rotation. In a long-term seal service process, cumulative performance changes occur on a service time scale due to running-in, wear, and/or aging of elastic elements; for this feature, the long-term change process of the acoustic emission signal needs to be considered. Analysis is performed, on multiple scales, in combination with auxiliary information and with determined physical characterization quantities passed to scales of longer time, thereby determining the real-time working state of the seal and providing a performance change expectation of the seal. In an embodiment, the acoustic scale transfers frictional power consumption, maximum contact depth and leakage rate to the dynamic scale, and the dynamic scale transfers a wear rate to the service scale, while part of the auxiliary information of the acoustic scale analysis may come from the results of the service scale analysis.
US11125630B2 Thermometric measurement by meshing of probes, particularly in turbine engines
The invention relates to a temperature measurement device comprising at least three probes, a computer, the computer being configured to estimate a temperature on the basis of voltage measurements at the output of the probes, characterised in that the probes are connected together in a plurality of meshes mounted in series, with at least one mesh comprising at least two probes mounted in parallel and at least one other mesh comprising a probe or a plurality of probes mounted in parallel.
US11125628B2 Semiconductor device and semiconductor system
An object of the present invention is to provide a technique of duplexing monitor circuits in which a common cause failure can be eliminated. A semiconductor device has: a first monitor circuit monitoring that temperature or voltage of the semiconductor device is within a normal operation range; and a second monitor circuit monitoring normal operation of the first monitor circuit. The first and second monitor circuits generate information of temperature or voltage on the basis of different principles.
US11125624B2 Infrared imaging device
An infra-red imaging device comprising: a cryostat (4), an infra-red detector (6) arranged inside the cryostat (4) to receive an optical signal coming from outside the imaging device, a linear polarizer configured to polarize the optical signal along a variable direction of polarization, before the optical signal reaches the infra-red detector (6), the linear polarizer comprising: a first polarizing element (22) arranged outside the cryostat (4) and movable in rotation with respect to the cryostat (4), and a second polarizing element (24) arranged inside the cryostat (4) between the first polarizing element (22) and the infra-red detector (6) and fixed with respect to the cryostat (4).
US11125621B2 Method and system for polarimetry using static geometric polarization manipulation
Embodiments of a system and a method for polarimetry using static geometric manipulation of the state of polarization are disclosed. According to one embodiment, a spectropolarimeter comprises a retarder having a geometrically changing fast axis. The fast axis changes along a polarimetric dimension. The spectropolarimeter has a polarization analyzer and a spectrographic optical platform. The spectrographic optical platform has a slit in a spatial dimension same as the polarimetric dimension of the retarder; a collimator; a dispersing element for dispersing spectral components of light received from the collimator along a spectral dimension that is perpendicular to the spatial dimension of the slit; a focusing optic; and a two-dimensional detector array. Using a quarter wave retarder full Stokes polarimetry can be provided though a half wave retarder can also be used.
US11125617B1 Optical measurements with dynamic range and high speed
A system for providing optical measurements and detection in optical spectrum analyzers (OSAs) with high dynamic range and high speed is disclosed. The system may include a slit to allow inward passage of an optical beam. The system may also include an optical portion to receive the optical beam. In some examples, the optical portion may include at least one optical splitter to split the optical beam into at least two optical paths. The system may also include an electrical portion to receive the optical beams split into the at least two optical paths. In some examples, the electrical portion may include at least one photodetector to receive each of the split optical beam. The electrical portion may also include at least one amplifier communicatively coupled to each of the at least one photodetector to amplify the split optical beam. The electrical portion may further include at least one analog-to-digital converter (ADC) communicatively coupled to each of the at least one amplifier to convert the split optical beams into digital signals.
US11125616B2 Photodetector device comprising each of a plurality of passive quenching elements connected in series to at least one avalanche photodiode and a capacitative element connected in parallel to the passive quenching element
A photodetector device includes an avalanche photodiode array substrate formed from compound semiconductor. A plurality of avalanche photodiodes arranged to operate in a Geiger mode are two-dimensionally arranged on the avalanche photodiode array substrate. A circuit substrate includes a plurality of output units which are connected to each other in parallel to form at least one channel. Each of the output units includes a passive quenching element and a capacitative element. The passive quenching element is connected in series to at least one of the plurality of avalanche photodiodes. The capacitative element is connected in series to at least one of the avalanche photodiodes and is connected in parallel to the passive quenching element.
US11125615B2 Data output device
A data output device is provided. The data output device includes a converter circuit configured to generate a conversion signal based on an output signal; a boosting circuit configured to generate a boosting signal based on the output signal; and an output circuit configured to generate the output signal based on an input signal and a feedback signal, the feedback signal being based on the conversion signal and the boosting signal.
US11125609B2 Photodetector and electronic apparatus
A photodetector includes a semiconductor substrate; a light receiving part for signal detection and an infrared light receiving part which are formed in the semiconductor substrate and are covered at least by first color filters having a common color; and second color filters which overlap with the first color filters on the infrared light receiving part and are configured to block light in a wavelength range transmitting through the first color filters.
US11125605B2 System and method for estimating implement load weights for a work vehicle
A method for estimating load weights for an implement of a work vehicle may include controlling movement of a boom of the work vehicle such that the boom is moved across a plurality of overlapping measurement regions defined along an angular travel range of the boom, wherein each measurement region is overlapped by at least one adjacent measurement region of the overlapping measurement regions across the angular travel range. The method may also include receiving load-related data associated with a load weight for the implement as the boom is moved across the overlapping measurement regions and determining a region load weight for at least one measurement region of the overlapping measurement regions based on the load-related data. In addition, the method may include calculating a final load weight for the implement based on the region load weight(s).
US11125604B2 Combination weighing device including a movable and detachable discharge chute
A combination weighing apparatus includes a combination weighing unit configured to store articles supplied from outside into each of a plurality of weighing hoppers, to select a combination of measured values from a plurality of measured values of the articles corresponding to each of the weighing hoppers such that a total value results in a target measured value, and to cause the hoppers corresponding to the combination to discharge the articles, in which a discharge chute that receives the articles discharged from the combination weighing unit and that supplies the articles to a processing device for a subsequent process is provided, and the discharge chute is provided to be movable between a first position where the discharge chute receives the articles discharged from the combination weighing unit and a second position where the discharge chute is made to be detachable from a frame supporting the combination weighing unit.
US11125603B2 Fault detection system and method for liquid level sensing device
A method and system are described for detecting a fault of a fluid level sensing device associated with an aircraft engine, the fluid level sensing device arranged to measure a variance in a fluid level. The method comprises triggering a timer, while the timer is running, receiving a measurement indicative of the fluid level from the fluid level sensing device, resetting the timer when at least one timer-reset condition has been met, and outputting a fault signal when the timer reaches a timer threshold.
US11125600B2 Method and device for detecting a fluid contacting
The invention relates to a device (100) having multiple capacitively working channels, wherein the device (100) comprises a advancable sensor (3.1, 3.2) and a fluid container per channel. The device (100) also comprises a generator (G) for providing a periodic input signal (s,in(t)). In addition, the device (100) comprises one compensation circuit (CT.1, CT.2) per channel, which can be supplied with the periodic input signal (Sin(t)) and which is designed to provide an input signal (Sin1(t), Sin2(t)) at a first output (A.1, A.2) for applying to the sensor (3.1, 3.2) of the channel, wherein the compensation circuit (CT.1, CT.2) comprises a further output (6.1, 6.2) which is designed to provide a signal (s1(t), s2(t)) that can be evaluated to detect a phase boundary.
US11125599B2 Dynamic fuel tankering
Disclosed herein are methods and systems for dynamically calculating a total fuel uplift quantity for an aircraft scheduled to fly a flight route. In one aspect, a method comprises: (a) polling a plurality of sources to receive data indicative of: (i) real-time weather conditions in remaining flight sectors in the flight route, and (ii) delay information in the remaining sectors; (b) calculating for the remaining sectors a respective fuel consumption factor; (c) based on (i) respective fuel quotations in the remaining sectors, (ii) the real-time weather conditions, and (iii) the delay information, generating a linear model for calculating a respective fuel uplift quantity at arrival stations in the remaining sectors; (d) calculating using the linear model the respective fuel uplift quantity at the arrival stations; and (e) periodically performing operations (a)-(d) to update a calculation of the respective fuel uplift quantities to account for changing factors.
US11125598B1 Three-dimensional (3D) imaging systems and methods for determining vehicle storage areas and vehicle door statuses
Three-dimensional (3D) imaging systems and methods are disclosed for determining vehicle storage areas and vehicle door statuses. A 3D-depth camera captures 3D image data of one or more vehicle storage areas. A 3D data analytics application (app) analyzes a first 3D image dataset of the 3D image data to determine a first depth measurement corresponding to a first vehicle storage area. The 3D data analytics app further analyzes a second 3D image dataset of the 3D image data to determine a second depth measurement. The 3D data analytics app detects a depth-change event based on the second depth measurement differing from the first depth measurement by more than a predefined depth-change threshold value. The 3D analytics app assigns, based on the depth-change event, an open door status to a new second vehicle storage area and a closed door status to the previous first vehicle storage area.
US11125597B2 Volumetric measurement device, system and method
An acoustic volume sensing device is disclosed. The device includes a housing comprising a reference volume chamber and a variable volume chamber, the reference volume chamber and the variable volume chamber connected by a resonant port, a first MEMS microphone located in acoustic relation to the variable volume chamber, a second MEMS microphone located in acoustic relation to the reference volume chamber, a MEMS speaker located in acoustic relation to the reference volume chamber, and a circuit board in electric connection with the first and second MEMS microphones and the MEMS speaker.
US11125595B2 Flow rate measurement device and embedded gas meter
The flow rate measurement device according to one aspect of the present invention comprises a heating unit for heating a fluid; temperature sensing units that are provided flanking the heating unit in the direction of fluid flow, and that sense the temperature of the heated fluid; a flow rate calculation unit that calculates the flow rate of the fluid on the basis of a sensing signals outputted from the temperature sensing units; angle calculation unit for calculating the tilt angle of the temperature sensing units with respect to a specific reference plane; a storage unit that stores the relation between the flow rate, the tilt angle, and a flow rate correction value; and a flow rate correction unit that corrects the flow rate by using the flow rate correction value stored in the storage unit.
US11125594B2 In-line ultrasonic attenuation end treatment for use with an ultrasonic gas flow meter
An end treatment for use with an ultrasonic gas flow meter includes an attenuation section having a pipe extending in a longitudinal direction and containing alternating sets of laterally spaced and vertically oriented first and second solid wall plates located between an inlet end and an outlet end of the pipe. One plate includes a first end connected to an inside wall of the pipe and another plate includes a second end that extends past a longitudinal centerline of the pipe to define a gap between the end of the plate and a respective opposing inside wall of the pipe. As the gas traverses the plates by flowing through the gaps, the ultrasonic waves are prevented from reflecting back to the flow meter.
US11125593B2 Anomaly detection and neural network algorithms for PST hydrocyclone condition monitoring
A system includes a learning network having a signal processor configured to: receive learned signaling containing information about representative samples of conditions related to operating states of a hydrocyclone and characterized as learned samples of each condition when the learning network is trained, and raw signaling containing information about raw samples containing information about the current operation of the hydrocyclone; and determine corresponding signaling containing information about an operating state of the current operation of the hydrocyclone based upon a comparison of the learned signaling and the raw signaling.
US11125588B2 Measuring device, transmitter housing and method for producing a measuring device
A measuring device with at least one sensor and at least one transmitter housing, wherein the transmitter housing has at least one terminal space and an electronics space adjacent to the terminal space and connected via a partition wall, wherein at least a first electronic device for the connection of supply and/or I/O lines is arranged in the terminal space and wherein at least a second electronic device is arranged in the electronics space with electronics for controlling the sensor, wherein the first electronic device and the second electronic device are electrically conductively connected to one another via a contacting unit, wherein the contacting unit is removably inserted into a recess of the partition wall. The A measuring device that is simple to produce and whose components can be particularly easily replaced is achieved by the contacting unit being firmly connected to the first electronic device.
US11125586B2 Sensor arrangement and method for operating a sensor arrangement
A sensor arrangement has a current mirror structure that is configured to provide respective base currents at each of a plurality of output current paths based on an input current. For each of the output current paths, a respective adjustment current source is provided that is digitally controllable and is connected to the respective output current path for adjusting the base current of said output current path. For each of the output current paths, a current biased sensor element is coupled in said output current path. The sensor arrangement further has a selection element for selectively connecting one of the output current paths to an evaluation block based on a selection signal. The evaluation block is configured to generate a sensing value corresponding to a resulting current in the connected output current path, to compare the sensing value with an average value, and to update the average value based on the sensing value. A digital control is adapted for generating the selection signal and for digitally adjusting the respective adjustment current source of the connected output current path based on the comparison result.
US11125584B2 End of shaft inductive angular position sensor with a metal-ferrite complementary coupler
In accordance with one embodiment of the present disclosure, an inductive sensor assembly is provided. The inductive sensor assembly includes a sensor assembly and a shaft. The sensor assembly include a transmitter coil and a two-part receiver coil. The shaft includes a first end. The first end includes a first planar surface and a second planar surface. The second planer surface extends from the first planar surface. A target is formed from the first planar surface and the second planar surface. When the target is moved about a shaft axis, the first planar and second planar surfaces modify an inductive coupling between the transmitter coil and the two-part receiver coil.
US11125581B2 Method and system for calibrating components of an inertial measurement unit (IMU) using scene-captured data
A method and a system for calibrating an inertial measurement unit (IMU) via images of a calibration target are provided herein. The method may include: measuring parameters via an IMU; capturing a plurality of calibration images of a scene that contains at least one calibration target, wherein the calibration images are taken from different locations and/or orientations, wherein each of the calibration images shares a common calibration target with at least one other calibration image; calculating, based on the at least one common calibration target, a position and orientation of the sensing device relative to the calibration target, for each location of the capturing of the calibration images; and calibrating the IMU by comparing relative motion between two of the calibration images based on the calculated relative position and orientation, to measurements of the parameters taken by the IMU in time ranges corresponding to the at least two calibration images.
US11125577B2 System and method for parking management
A system, computer readable medium, and a method for parking management are provided. The method receives, via communication circuitry, an input from an electronic device. The input includes at least destination information of a user of a vehicle. The method identifies a parking space for the vehicle based on the input and generates navigational directions to the identified parking space. Further, the method provides the navigational directions to at least one output device.
US11125575B2 Method and apparatus for estimating a location of a vehicle
A method, apparatus and computer program product are provided to estimate the location of a vehicle based at least in part upon two or more road signs that are depicted by one or more images captured by one or more image capture devices onboard the vehicle. By relying at least in part upon the two or more road signs, the location of the vehicle may be refined or otherwise estimated with enhanced accuracy, such as in instances in which there is an inability to maintain a line-of-sight with the satellites of a satellite positioning system or otherwise in instances in which the location estimated based upon reliance on satellite or radio signals is considered insufficient. As a result, the vehicle may be navigated in a more informed and reliable manner and the relationship of the vehicle to other vehicles may be determined with greater confidence.
US11125570B2 Method and apparatus for improved toll-booth vehicle handling
A system comprising a processor configured to advise a vehicle occupant of an advisable route through a tollbooth determined based on tollbooth traffic, responsive to identifying a vehicle as being within a threshold distance of a tollbooth. The processor is also configured to offer an option for toll prepayment responsive to the advisable route corresponding to a prepaid toll lane.
US11125567B2 Methods and systems for mapping and localization for a vehicle
Systems and methods are provided for localizing a vehicle. In one embodiment, a method includes: receiving, by a processor, radar data from a radar of the vehicle; creating, by the processor, a local map based on the radar data; retrieving, by the processor, a map of an environment from a datastore based on a predicted vehicle pose; correlating, by the processor, the local map and the retrieved map; determining, by the processor, a localized vehicle pose based on the correlating; and controlling, by the processor, the vehicle based on the localized vehicle pose.
US11125566B2 Method and apparatus for determining a vehicle ego-position
A system includes a processor configured to receive image data gathered by a vehicle camera, relating to a fixed environmental feature. The processor is also configured to determine a vehicle position relative to the fixed environmental feature and determine a vehicle lane-level location on a digital map, based on the vehicle position relative to the fixed environmental feature.
US11125565B1 Systems and methods for position-based building guidance
The present disclosure relates to system that includes a database including data associated with one or more building features of a building. The system includes a processor of a computing device. The processor is configured to determine an absolute position of the computing device within the building. The processor is configured to identify at least one of the building features located within a threshold distance of the absolute position of the computing device based on a query of the database. Additionally, the processor is configured to generate an alert configured to cause the computing device to display information associated with the at least one of the building features or output an audible signal associated with the at least one of the building features.
US11125561B2 Steering assist
A steering assist system for an unmanned aerial vehicle (UAV) receives physical space data for a flight area, and creates a virtual world model to represent the flight area by mapping the physical space data with a physics engine. The steering assist system creates a virtual UAV model to represent the UAV in the virtual world model. The steering assist system determines capability parameters for the UAV, and receives flight data for the UAV. The steering assist system determines a predicted trajectory for the virtual UAV model within the virtual world model, based on the capability parameters and flight data for the UAV. The steering assist system determines a navigation suggestion for the UAV based on the predicted trajectory and capability parameters for the UAV, and displays the navigation suggestion.
US11125560B2 Robust method for tuning of gyroscope demodulation phase
An optimal demodulation phase for extracting an in-phase component of a MEMS gyroscope output signal is determined through a test procedure. During the test procedure, multiple different rotation rate patterns such as different directions of rotation and different rotation rates are applied to the MEMS gyroscope while the MEMS gyroscope output signal is demodulated based on demodulation phases near a predicted quadrature phase for the MEMS gyroscope. The measured gyroscope outputs are used to calculate an optimal demodulation phase for the MEM gyroscope.
US11125555B2 Method for detecting a blocking of a rotor of a motor driving an actuator member
A method of detecting blocking of a rotor of a motor driving an actuator member with movement in translation between a first abutment and a second abutment, the method comprising the steps of, during an angular movement of the rotor, estimating at least a position (X) of the actuator member relative to the two abutments, a travel direction of the actuator member relative to the two abutments, and also a travel speed (V) of the actuator member; and on the basis at least of the estimated position of the actuator member, of the estimated travel direction of the actuator member, and of the estimated travel speed of the actuator member, detecting blocking of the rotor.
US11125550B2 Method and device for optically measuring the surface of a measurement object
A method of optically measuring a surface of a measurement object is disclosed. The method includes generating image light having an image pattern, projecting the generated image light onto the measurement object, and recording influenced light having an influenced image pattern. The image light is generated by an image generation device and the influenced light is captured by a capturing device. The influenced light is light that is reflected, scattered, diffracted, and/or transmitted by the measurement object based on interaction of the image light with the measurement object. The method further includes applying a correcting function to the image light. The correction function alters the image light such that the influenced image pattern recorded by the capturing device shows temporally and/or locally an at least approximately constant and/or homogenous and/or linear brightness. A device having an image generation device, image capture device, and correcting device is also disclosed.
US11125549B2 Optical intensity method to measure the thickness of coatings deposited on substrates
Methods and apparatus for measuring a thickness of a coating on an moving object are provided. Light is directed toward the object at a predetermined location on the object such that a portion of the light interacts with the object. A 1D and/or 2D maximum intensities for at least one wavelength channel is captured that is produced by the portion of the light interacting with the object. A measured average intensity of the wavelength channel and/or intensities and their arithmetic derivatives of multi wavelength channel geometries is converted into 1D (averaged) and/or 2D thickness values. Based on these values an acceptability of the coating is evaluated and thickness calculated.
US11125548B2 Position-measuring device
A position-measuring device includes a carrier body and scanning units movable relative thereto. At least three surfaces of the carrier body each carry a first and second measuring graduation, each having a series of graduation lines. Each of the measuring graduations is associated with a scanning unit for scanning the respective measuring graduation at a scanning location such that, for each surface, two scanning units are disposed for scanning the respective measuring graduations. In each case, these two scanning units are disposed in such a way, and the graduation lines of the two measuring graduations are inclined with respect to each other in such a way, that two normal planes extending respectively in the direction of the respective graduation lines through the respective scanning locations of the two scanning units have a common axis of intersection, whereby the three resulting axes of intersection extend through a common point.
US11125547B2 Sensor, sensor module, wearable terminal, and electronic device
A sensor includes an elastic base material including a first surface and a second surface, a first sensor which detects a change in a capacitance caused by expansion/contraction of the first surface, and a second sensor which detects a change in a capacitance caused by expansion/contraction of the second surface. The first sensor faces the second sensor with the base material therebetween.
US11125546B2 Fuse system
According to a first aspect of the present invention, there is provided a fuse system for a projectile for a ranged weapon, the fuse system comprising: a pressure sensor system for sensing an air pressure of an environment in which the fuse system is present; a control system arranged to receive a signal from the pressure sensor system, and to at least initiate arming of the fuse system conditional on the received signal.
US11125545B2 Pyrotechnic delay element device
The present invention is a pyrotechnic time delay system that is improved over prior-art designs. Specifically, the system described herein comprises at least one delay element. The delay element or delay dements each have an input charge, a delay composition, and an output charge. Both the input charge and the output charge are igniter compositions and are comprised of the same components despite having different functional goals. The input charge and output charge compositions preferably contain titanium, manganese dioxide, and polytetrafluoroethylene. The delay composition may be modified from current formulations to include manganese and manganese dioxide, or tungsten and manganese dioxide. The system disclosed herein may be comprised of one delay element, or it may be modular wherein multiple delay elements are connected in series.
US11125544B2 Bullet cartridge and case testing device
An ammunition inspection assembly that includes a cartridge tester having a main body portion with a bore extending axially therethrough, a bullet pusher, and a case pusher. The bore includes an inner surface, a front opening and a rear opening and is configured to receive a bullet cartridge therein.
US11125543B1 Closed, self-contained ballistic apogee detection module and method
A closed, self-contained ballistic apogee detection module for use in a projectile, such as a rocket, mortar round, or artillery round, fuses data from multiple built-in sensors, such as an accelerometer, a magnetometer, and a gyroscope, and processes the data using a microprocessor through a custom quaternion extended Kalman filter to provide accurate state and orientation information about the projectile so as to accurately predict apogee. The module outputs a signal indicating apogee detection or prediction which they projectile uses to initiate fuze arming, targeting control, airbody transformation, maneuvering, flow effector deployment or activation, payload exposure or deployment, and/or other mission activity. Because the system and method of the invention does not rely on external environmental data to detect apogee, it need not use a pressure sensor and can be completely sealed in and closed without requiring access to air from outside the projectile for barometric readings.
US11125539B2 Ruggedized holder
A ruggedized holder has a base unit that accepts a roll of target media. The base unit includes a first side plate and a second side plate that opposes the first side plate. Moreover, a lower deflector plate having a front facing surface extends between the first side plate and the second side plate. Also, the base unit includes an upper deflector plate that extends between the first side plate and the second side plate above the lower deflector plate. The first side plate, the second side plate, the lower deflector plate and the upper deflector plate define an enclosure that protects the roll of target media. In addition, a stand can couple to the base unit.
US11125538B2 Shooting range facility for recreational or sporting purposes with a tilting target support, method for configuring such a facility
A shooting range facility that is for recreational or sporting purposes includes a target support plate, which can be tilted according to several different possible inclinations with respect to a reference plane, and at least one target representation intended to be displayed in a plane of the target support plate. Each target representation has several different displayable deformations, respectively associated with the several different possible inclinations, these different deformations being designed so that the orthogonal projections thereof in the reference plane are all identical when they are respectively displayed in the plane of the target support plate according to the inclinations with which they are respectively associated.
US11125533B1 Quick aim reticle
A rifle scope has an eyepiece and a reticle, and wherein the reticle when viewed through the eyepiece displays a horizontal center line that is at the vertical center of the display, and wherein below the horizontal center line there is a set aiming lines, each marked by a first indicium on a first horizontal side of the aiming line, indicating an angle measured in minutes of angle, from the horizontal center line. Finally, a subset of the aiming lines is marked with a second indicium, on a second horizontal side, opposed to the first horizontal side, of the aiming line, and wherein each the second indicium indicates distance in inches from the brisket to the top of the shoulders of a type of deer.
US11125528B2 Multipurpose bleed-off port for a paintball marker
The present disclosure is directed to an apparatus and method of directing a portion of a pressurize gas flow through a port in the breech after is leaves a bolt in a projectile launching device, such as a paintball marker, to perform additional functions in parallel with launching the projectile from the launching device. For example, the additional function can be a mechanism to prevent, or free, any potential bottlenecks of projectiles at that location when using a gravity fed hopper, for example. An agitating device is at least partially disposed in the outlet of a hopper. A bolt, having key groove or gas port, is configured to bleed air to a port in the breech that is used to fire a loaded projectile, the air is provided from a pressurized air source. An actuator moves the agitating device when air is bled through the key groove and the port.
US11125526B2 Bow release device and method
A bow release apparatus includes a wrist strap, a body comprising a bow string keeper and a trigger system for releasing a bow string held in the keeper, and at least one elastic band interconnecting the body and the wrist strap. A method of using the bow release apparatus includes fixing the bow string of a bow to the bow string keeper while the bow is drawn by an archer to cause the body to slide along his/her hand to contact the trigger with the stationary trigger finger to actuate the trigger, or hold his/her trigger finger adjacent the trigger of the trigger system to voluntarily actuate the trigger of the trigger system after the bow is drawn to release an arrow from the bow voluntarily.
US11125525B2 Modular quick-change shooting platform feet
Provided is a foot attachment adapter for a firearm support device having at least one leg. The adapter includes a body configured to attach to a leg of a firearm support device and a socket. A foot having has an attachment portion that is configured to be detachably received by the socket. A temporarily deformable elastomeric member is positioned at least partially in the socket to allow insertion of the foot portion and to releasably hold the attachment portion in the socket.
US11125524B2 Suppressor for firearm and method of making baffle cup therefor
A firearm suppressor includes a muzzle mount; blast, intermediate and distal baffle cups; a distal end cap; and a shroud. The muzzle mount, baffle cups, and end cap thread together at threaded interfaces. Each baffle cup has an externally threaded proximal segment threadably received in the proximally adjacent component. The distal baffle cup has an externally threaded distal segment received in the end cap. The components are shaped and arranged to form sealed interfaces upstream of the threaded interfaces along the flow path of gas through the suppressor. The baffle cups include baffle walls defining chambers sized and arranged to limit first round pop. The baffle walls define vent passages extending along axes oriented at skew angles with respect to the axes of the baffle cups. A distal baffle cup includes an annular recess for reducing the weight of the suppressor adjacent the distal end.
US11125523B2 3-D printable multi-baffled firearm suppressor
Methods and systems are provided for a sound suppressor adapted to be operable with all manners of firearm, including autoloading firearms. In one example, a sound suppressor comprises a unitary single-piece body configured with centrally aligned baffle chambers circumferentially surrounded by exhaust gas chambers.
US11125521B2 Weapon usage monitoring system for initiating notifications and commands based on dashboard actions
Systems and methods are provided for monitoring a state of ammunition supply among a plurality of firearms within a deployment location, where each firearm includes one or more sensors that record sensor information used to produce a signal. A response infrastructure may be configured for deployment to the deployment location, and a server device running application software that uses the signals received from each of the firearms may detect an ammunition level of a firearm within the deployment location and cause the deployment of the response infrastructure to the deployment location, where the response infrastructure supports a resupply of at least one firearm in the deployment location.
US11125515B2 Low-mass bolt carrier
The present convention comprises a new structure for bolt carriers intended for use in the AR-15 weapon platform. This improved low-mass bolt carrier boasts significantly lower mass than the state of the art while maintaining greater strength than other low-mass bolt carriers using different structures. The geometric cutouts along the lateral faces of the bolt carrier form truss-like structures that increase the ratio of the bolt carrier's strength to its mass and enable high-performance tuning of the weapon, notably with less recoil.
US11125513B2 Formable interface and shielding structures
A formable structure comprises a first material having a first level of viscosity and a second material having a second level of viscosity, wherein the second material is formed to hold at least a portion of the first material in a particular position or a particular shape. The first material can be configured to function as a thermal interface between two or more hardware components. The second material can be configured to have a higher viscosity than the first material. In one illustrative example, the second material can include a light-activated resin that is configured to harden when exposed to one or more treatments. By the use of the first material and second material, the techniques disclosed herein are adaptable to gaps having a wide range of sizes, which is difficult to do with traditional thermal interface materials. The second material can also function as an EMI shield.
US11125512B2 Coolant and a method to control the pH and resistivity of coolant used in a heat exchanger
Implementations described herein generally relate to substrate processing equipment and more particularly to methods and compositions for temperature control of substrate processing equipment. In one implementation, a method of cooling a processing chamber component is provided. The method comprises introducing an inert purge gas into a supply reservoir containing a coolant and flowing the treated coolant to a processing chamber component to cool the processing chamber component. The coolant initially comprises deionized water and a water-soluble base.
US11125509B2 Heat storage system, heat storage container, heat storage device using heat storage container and warm-up device using heat storage device
A heat storage system using a heat storage container having a tubular body, an adsorbent that is accommodated in the tubular body, generates heat by adsorption of an adsorbate and absorbs heat by desorption of the adsorbate, and a flow channel that penetrates the tubular body in a longitudinal direction, the heat storage system comprising a diffusion layer for transporting the adsorbate in liquid phase from the flow channel to the adsorbent, wherein the adsorbate is transported to the flow channel, the adsorbate is transported to the diffusion layer, a part of the adsorbate transported to the diffusion layer is adsorbed on the adsorbent, the adsorbent releases heat, and the remaining adsorbate is vaporized by the heat to become heat transport fluid.
US11125508B2 Thin heat pipe structure
A thin heat pipe structure includes a main body having a chamber. The chamber has a wick structure and a working fluid provided therein, and internally defines an evaporating section and at least one condensing section. The condensing section is extended towards at least one or two ends of the evaporating section. The wick structure is provided with at least one groove. The groove is extended through the wick structure along a thickness direction of the main body to connect to two opposite wall surfaces of the chamber, and also extended along a length direction of the main body to communicate with the condensing section and the evaporating section. With these arrangements, the thin heat pipe structure has an extremely small overall thickness and is flexible.
US11125506B2 Vertical tube heat exchanger and method for exchanging heat
A tube heat exchanger extending in a vertical direction, comprising: a first chamber including a lower portion provided with at least one intake inlet for a diphasic fluid including a liquid and a first vapor containing a mist; an upper portion; and a first recovery member passed through by the first vapor and recovering the mist in liquid form, the first vapor next arriving in the upper portion, a central chamber forming liquid films running over the tubes and vaporizing at least partially to produce a second vapor, the tubes being traveled inwardly by a fluid hotter than the diphasic fluid, and a second chamber receiving the first vapor and the second vapor to form a third vapor, and including an outlet for the non-vaporized liquid and an outlet for the third vapor, the first chamber and the second chamber together forming a volume surrounding the central chamber around the vertical direction.
US11125496B2 Process and device for the cryogenic separation of synthesis gas
The invention relates to a process and device for the cryogenic separation of a methane-containing feed gas predominantly consisting of hydrogen and carbon monoxide, that is partially condensed in this case by cooling, in order to obtain a hydrogen-containing first liquid phase predominantly consisting of carbon monoxide and methane, from which first liquid phase, in an H2 separation column that is heated via a circulation heater, a second liquid phase is generated by separating off hydrogen, from which second liquid phase, in a CO/CH4 separation column, a carbon monoxide-rich gas phase is obtained having a purity that permits release thereof as carbon monoxide product. It is characteristic in this case that a low-methane material stream is withdrawn from the H2 separation column and is then applied to the CO/CH4 separation column as reflux.
US11125494B2 Method for starting and operating a plant for the liquefaction of a gaseous product
A method for starting and operating a plant for the liquefaction of a gaseous product comprising the steps of electrically connecting a variable frequency drive to a motor of a first machine string; increasing the speed of the motor of the first machine string up until a first predefined threshold; electrically disconnecting the variable frequency drive from the motor of the first machine string; electrically connecting the variable frequency drive to a motor of a second machine string; the first predefined threshold is function of said frequency of the power supply grid. The variable frequency drive can be switched during operation of the plant among the strings according to process requirements.
US11125489B1 Cooling system with defrost and temperature rise indicator
A defrost or thaw measuring device has a dumbbell or hourglass-shaped rotatable compartment with a cavity, the cavity being partly filled with at least two phase change materials having different melting points. The measuring device may determine the time period of thawing at two or more temperature intervals in the refrigeration space.
US11125486B2 Adjustable ice crusher
An adjustable ice crusher includes a first plate having a crushing surface and a second plate having a crushing surface. The crushing surface of the second plate is angled relative to the crushing surface of the first plate such that a crushing zone is defined between the crushing surfaces of the first and second plates. A motor is coupled to the second plate such that the second plate is rotatable with the motor. The first and second plates are configured to crush ice in the crushing zone during operation of the motor. The first plate is rotatable relative to the second plate such that an angle defined between the crushing surface of the first plate and the crushing surface of the second plate is adjustable in order to vary a size of crushed ice chips from the crushing zone.
US11125484B2 Flexing tray ice-maker with AC drive
An ice-maker provides a reversible AC motor whose direction is changed at a first and second stop positioning the tray in a filling position and an ice cubes discharging position, respectively. A bail arm may introduce an additional stop preventing discharge of ice when an ice bin is full. User controls may allow the user to set a water fill time based on local water pressure conditions. An ice tray incorporating an ice sensor may releasably connect to the ice-making machine for ready replacement.
US11125474B2 Self-ice making / self heating hybrid food and beverage storage chest
A refrigerated food storage box has been disclosed. This refrigerated food storage box has an inner box comprising a set of inner walls and an inner base, together enclosing a food storage compartment. There is also an outer box comprising a set of outer walls and an outer base, wherein each outer wall is located at a predetermined distance from a corresponding inner wall and the outer base is located at the predetermined distance from the inner base, thereby creating a thermal cavity between the inner box and the outer box. There is at least one plate-type heat exchanger located within the thermal cavity, wherein each plate-type heat exchanger having a hollow cavity therein. Note that the hollow cavity capable of receiving temperature controlled air from a refrigeration unit, thereby capable of altering the temperature inside the food storage compartment.
US11125473B2 Air conditioner
There is provided an air conditioner capable of displaying sufficient cooling ability in each indoor unit by allowing a sufficient amount of refrigerant to flow into indoor units where cooling ability cannot be displayed. By executing refrigerant amount balance control, since degrees of opening of indoor expansion valves are narrowed in indoor units whose refrigerant superheating degrees are smaller than an average refrigerant superheating degree, amounts of refrigerant flowing into the indoor expansion valves are decreased. In the indoor unit where the refrigerant superheating degree is higher than the average refrigerant superheating degree, since refrigerant pressure on a downstream side of the indoor expansion valve is also decreased due to the degrees of opening of the indoor expansion valves being narrowed, the difference in pressure between the upstream side and the downstream side of the indoor expansion valve increases and an amount of refrigerant flowing into the indoor unit is increased.
US11125470B2 Self-propelled robot
A self-propelled robot that self-travels on a structure having a flat surface to perform a cleaning operation, the self-propelled robot includes a robot main body (2), a controller (30) that controls movement of the moving unit in a forward direction and a rearward direction, an operation unit (12a) that is controlled by the controller, and a pair of detection units that are first and second detection units, each of which functioning to detect if there is the flat surface of the structure beneath the detection unit. Wherein, seen from a top view of the robot, the first detection unit and the second detection unit (31a, 31b, 31c, 31d) are both arranged at the front end of the robot.
US11125468B2 Water heater system and control method therefor
The invention discloses a water heater system and a control method thereof. The water heater system comprises a heating unit capable of heating water; a tank capable of communicating with the heating unit, the tank provided with at least one inlet and outlet, the inlet being capable of supplying at least one of gas and water into the tank; a pressurizing source capable of pressurizing the tank, the pressurizing source being capable of providing a pressure at which the gas and water in the tank are mixed. The invention provides a water heater system which can be applied to any existing water heater, including an electric water heater, a gas water heater, a solar water heater, an air energy water heater, and the like, which is capable of generating microbubble water for use by a user, the microbubble water has strong cleaning performance, thereby greatly improving the user experience.
US11125464B2 Method and system for vented rollout switch
A furnace includes a gas burner exposed to a heat-exchange tube. An inducer is fluidly coupled to the heat-exchange tube and configured to induce draft air through the heat-exchange tube. A regulator is fluidly coupled to the gas burner. A rollout shield is disposed adjacent to the gas burner. A rollout switch is disposed in the rollout shield. The rollout switch is electrically coupled to the regulator. At least one vent is formed through the rollout shield adjacent to the rollout switch. The vent provides a path for a rollout flame to the rollout switch. The at least one vent is disposed on at least two sides of the rollout switch.
US11125463B2 Air sweeping blade, air sweeping mechanism and air conditioner
Provided are an air sweeping blade, an air sweeping mechanism and an air conditioner. The air sweeping blade includes a blade body (11). A connecting rod shaft (13) rotationally connected with a connecting rod (20) is provided on the blade body (11), and the connecting rod shaft (13) extends to an edge of the blade body (11) along an axis of the connecting rod shaft and is fixedly connected with the blade body (11). By means of the structure, on one hand, the reliability of connection between the connecting rod shaft (13) and the blade body (11) is improved, and the condition of breakage caused by pulling during assembly is avoided; and on the other hand, the rigidity of the blade body (11) is improved, and the blade body (11) is prevented from distorting.
US11125460B2 Control system, scene control execution method, and recording medium
A device control system includes: a touch panel that receives an execution instruction for scene control that operates at least part of a plurality of devices disposed in a facility in order to approximate an inside of the facility to a predetermined indoor environment; a controller that performs the scene control when the execution instruction for the scene control is received by the touch panel; and a communicator and an obtainer that obtain at least one of information indicating an environment condition in the facility or outside the facility, prediction information of the environment condition in the facility or outside the facility, and information about timing. The controller changes a content of the scene control according to the information obtained by the communicator and the obtainer.
US11125457B1 Refrigerant leak sensor and mitigation device and methods
A system for detecting and mitigating a refrigerant leak includes a temperature control device configured to transmit control signals to a component controller and a blower configured to circulate air. The system includes a leak mitigation controller electrically coupled to the temperature control device and the component controller. The leak mitigation controller directs incoming power to the temperature control device. The leak mitigation controller includes a sensor configured to measure a refrigerant concentration and a relay configured to selectively: (i) connect the temperature control device to the incoming power or (ii) connect the blower to the incoming power. The leak mitigation controller is configured to measure the refrigerant concentration with the sensor and, in response to the measured refrigerant concentration exceeding a threshold, actuate the relay to connect the blower to the incoming power.
US11125456B2 Light communication (LIFI)
Systems and methods are disclosed with one or more light emitting diodes (LEDs) with at least one optical transmitter and receiver optically coupled to an optical network over 1 Mbps using at least one LED with a first mode to using broadband optical transmission; and a controller coupled to the LEDs, the controller communicating with the optical network using the optical transmitter and receiver.
US11125452B2 Submersible-type humidifier that adding water from upper portion
The invention relates to a submersible-type humidifier that adding water from upper portion, comprising a lower water tank and a top cover connected thereto, the lower water tank and the top cover are detachably connected, an electric appliance chamber is arranged in inner chamber of the top cover, an air blower and a display control panel are arranged inside the electric appliance chamber, an energy gathering atomization pipe is provided on bottom of the top cover, an ventilation portion is provided on outer side of the energy gathering atomization pipe, air blower is connected to the ventilation portion, inner chamber of the energy gathering atomization pipe is respectively connected with the ventilation portion and mist outlet of the top cover, an atomization component is provided on bottom of the energy gathering atomization pipe, the atomization component and the air blower are respectively electrically connected to the display control panel.
US11125441B2 Heating device
Systems and methods for radiative heat transfer are disclosed. In an exemplary embodiment, an infrared heater comprises infrared heating elements and a controller. The infrared heating elements correspond to respective heating zones. The controller causes the infrared heating elements to turn on at different time in succession such that respective heating zones are radiatively heated at different times. In some instances, the respective heating zones correspond to different heating zones of a user, and the user feels a heating wave effect as the infrared heating elements are turned on and off at different times.
US11125433B2 System and method for combustion tuning
A method for combustion tuning, comprises collecting exhaust parameters indicating combustion status of a boiler by a sensor array; determining whether the exhaust parameters of the boiler match a preset optimization target; and optimizing combustion, if the exhaust parameters do not match the preset optimization target by selecting a model from a model repository based on a current boiler condition, wherein the model corresponds to a relationship between model input variables and the exhaust parameters; determining at least one optimized model input variable of the boiler for realizing the optimization target, based on the selected model; and adjusting actuators of the boiler according to the optimized model input variable.
US11125432B2 Solid particle fuel burner
A burner for solid particle fuels such as shavings or pellets. The invention includes a helical piston to deliver fuel particles up an inclined tube into a cup having an oxygen delivery tube for combustion. The helical piston is axially extendable and retractable to first advance material up the tube without rotation, and then retract with rotation so as to screw itself into the next charge of material to be advanced. Combustion heat may be used to drive a Stirling engine or other mechanism for converting heat into other useful energy or power, such as using the burner as a component of a combined heat and power (CHP) system.
US11125431B2 Flare spill protection
An offshore spill protection system includes a flare boom configured to connect to an offshore drilling rig. The flare boom is configured to flare at least a portion of hydrocarbons flowed from the offshore drilling rig to the flare boom. A liquid hydrocarbon capture system includes a plate configured to be spatially positioned relative to the flare boom. The plate is sized to collect at least unflared hydrocarbons in a liquid state that flow through the flare boom.
US11125430B1 LED light and a production method thereof
An LED light including a light shell, a light head, electronic components, and a light source component electrically interconnected with the electronic components; the light shell includes a shell body and a mounting section; the mounting section is inserted into the light head; the light column is fitted into the mounting section by interference fit by pressing the light column into the mounting section in order achieve good sealing effect between the light column and the light shell. The water-proof effect for the light source component and the electronic components is good. Also, a production method of the LED light is provided.
US11125429B2 Folded sheet metal heat sink
A finned heat sink, folded from a single piece of plate material, includes a base part and a plurality of fins. The base part includes a plurality of fin extensions and at least one support element. The support element includes bridging parts bridging the inter-fin distances, wherein the bridging parts comprise length reducing parts to thereby reduce those inter-fin distances.
US11125428B2 LED lamp for vehicles
A LED lamp for use in a lamp housing of a vehicle comprises a bulb body and a base. The bulb body comprises one or more light-emitting diodes. The base comprises a mounting portion and a heatsink portion. The mounting portion comprises a collar configured to attachably accept one end of the bulb body, and one or more mounting tabs configured to engage with the lamp housing to secure the LED lamp in place within the lamp housing. The mounting portion is integrally formed with the heatsink portion, and the bulb body is configured to be rotatable within the collar about a longitudinal axis of the LED lamp.
US11125427B2 Systems and methods for using a hybrid lighting and inventory system for motion detection
Systems and methods for detecting a presence of a person, robot or object in a given area using a hybrid Lighting and Inventory (“LI”) system. The methods comprise: maintaining a data store of identifiers for first tags that are readable by an internal circuit of at least one light provider; tracking (a) changes in which of said first tags are read by the at least one light provider's internal circuit during consecutive tag read processes and (b) changes in power levels of tag read signals received at the at least one light provider during the consecutive tag read processes; and using tracked information (a) and (b) to detect the presence of the person, robot or object in the given area.
US11125425B2 Fan out structure for light-emitting diode (LED) device and lighting system
LED lighting systems and vehicle headlamp systems are described. An LED lighting system includes a silicon backplane having a top surface, a bottom surface, and side surfaces and a substrate surrounding the side surfaces of the silicon backplane, the substrate having a top surface, a bottom surface and side surfaces. First redistribution layers are provided on the top surface of the silicon backplane and the top surface of the substrate. Second redistribution layers are provided on the bottom surface of the silicon backplane and the bottom surface of the substrate. At least one via extends through the substrate between the first redistribution layers and the second redistribution layers and is filled with a metal material.
US11125413B2 Diffuser plate, designing method of diffuser plate, manufacturing method of diffuser plate, display device, projection device, and lighting device
There is provided a method to manufacture a diffuser plate with better productivity and exhibiting an excellent diffusion property and having excellent durability with respect to light having large coherence, the microlens array diffuser plate including: a microlens group positioned on a surface of a transparent substrate. The diffuser plate includes two or more unit cells that are continuously set in array, the unit cell includes a plurality of microlenses positioned on the surface of the transparent substrate, and ridge lines between the microlenses adjacent to each other are nonparallel to each other, and are nonparallel to the transparent substrate.
US11125411B1 Flexible cover for linear lighting channels
A flexible cover for a linear lighting channel is described, as are enclosures and luminaires using this kind of flexible cover. The flexible cover has sufficient flexibility to be bent or coiled to a bend radius of 6 inches (15.2 cm) or smaller, and can thus be coiled for shipping and uncoiled for installation. Typically, the cover is made of a polymer that is at least translucent. Covers may be made in various shapes, including lens and prism shapes, and channels may be made with sidewalls that make complementary shapes in order to engage with and retain the covers.
US11125409B2 Image tilt correction system of automotive beam pattern
The present invention pertains to a lens arrangement system used in automobile optical modules and more particularly pertains to an image tilt correction system of automotive optical module beam patterns. A system arrangement that includes a generated light beam for illumination and a reflector for directing the light beam from a light source directed towards the outside of the optical module. Additionally provided is a lens that distributes the light beam from the reflector and where lens features include a light input side and a light output side where lens sides include a plurality of light distribution facets or lens optic patterns that are arranged to effectively produce a corrective light beam that is symmetrical and centered.
US11125407B1 Vehicle lamp assembly
A vehicle lamp assembly includes a housing that defines an opening. A light source is operably coupled with the housing. The light source is configured to emit light. A lens is coupled to the housing proximate the opening. The lens includes a first side that has an A-surface of the lens. A second side has a B-surface of the lens. A first optic defines an interior surface of the first side of the lens. The A-surface is free of the first optic. A second optic is defined on the second side. The first optic and the second optic are aligned to collimate and disperse the light.
US11125405B2 Light source for plant cultivation and plant cultivation device
A plant cultivation light source includes a first light source emitting a first light in a first wavelength band and a second light source emitting a first light in a second wavelength band different from the first wavelength band. The second wavelength band includes an ultraviolet light wavelength band, and the second light source is driven independently of the first light source to determine whether to emit the second light while the first light source emits the first light.
US11125400B2 Outdoor light fixtures
A light fixture device having at least one sealed LED lighting cartridge and a sealed casing with a lens region along one boundary thereof. The device includes one or more power supply elements extending from or accessible from the casing which are connectible with a power source. A housing of the device has at least one first housing structure defining at least two opposed cartridge-receiving zones. Each of the zones has a corresponding light output region cartridge-receiving and is configured to receive at least one sealed LED lighting cartridge with the lens region aligned with the corresponding light output region. A central interior cavity is provided to accommodate the power supply elements between, at least in part, the cartridge-receiving zones. At least one second housing structure to sealingly engage with the housing structure and sealingly close the central interior cavity.
US11125396B2 Light module and lighting device having same
A lighting module disclosed in an embodiment comprises: a substrate; a light-emitting element arranged on the substrate; and a resin member arranged on the substrate and the light-emitting element. The resin member comprises a plurality of side surfaces and an exit surface on the upper portion thereof. The plurality of side surfaces of the resin member comprise a first side surface adjacent to the light emitting device, a second side surface facing the first side surface, and third and fourth side surfaces arranged between the first and second side surfaces so as to face each other. The exit surface of the resin member comprises a light extraction structure having a large length in a first direction and having a concavo-convex pattern in a second direction that is perpendicular to the first direction. The light emitting device comprises an exit area corresponding to a part of the second side surface in the first direction. The thickness of the second side surface, in connection with the resin member, may be smaller than the thickness of the first side surface.
US11125394B2 LED lamp with lamp shell and passive heat dissipating element
An LED lamp includes: a lamp shell including a lamp head and a lamp neck, the lamp head connects to the lamp neck; a passive heat dissipating element having a heat sink connected to the lamp shell, wherein the heat sink comprises fins, a total height of the lamp neck and the lamp head is greater than a height of the heat sink; a power source disposed in the lamp shell; and a light emitting surface connected to the heat sink of the passive heat dissipating element and comprising LED chips electrically connected to the power source. The light emitting surface and the heat sink are connected to form a heat transferring path from the LED chips to the passive heat dissipating element; wherein a lateral outline of the LED lamp detours around an axis of the LED lamp 360 degrees turning around to form a contour of the LED lamp, the outline includes an outline of the lamp neck and an outline of the heat sink, the outline of the lamp neck has a slope A which is a constant, the outline of the heat sink has a slope B which is a constant, and an absolute value of the slope A is greater than that of the slope B.
US11125391B2 Process and method for transporting liquid hydrocarbon and CO2 for producing hydrogen with CO2 capture
Systems and methods related to loading and unloading stations for simultaneous unloading of a first fluid from at least one storage tank in a vessel and loading of a second fluid into a storage tank of the same vessel are provided. In at least one aspect, a loading and unloading station includes a first connector for fluid connection to a storage tank of the vessel for unloading the first fluid, and a source of the second fluid. The station also includes a second connector for fluidly connecting the source of the second fluid with a storage tank of the vessel for loading the second fluid. The station further includes a first thermal linkage between the first fluid being unloaded and the second fluid being loaded that facilitates heat transfer between the first fluid and the second fluid at the loading and unloading station.
US11125381B2 Support with self-locking function
A support with a self-locking function includes a first supporting rod, a second supporting rod, a connecting portion and an elastic member. The first supporting rod is provided with at least one first locking hook and two rotating portions. The rotating portion has a spiral surface and is provided with a groove. The second supporting rod is provided with at least one second locking hook and a rotating portion. The rotating portion is provided with a stopper. The elastic member is sleeved on the connecting portion. The stopper is capable of sliding along the spiral step when the second supporting rod rotates relative to the first supporting rod, and is elastically pushed by the elastic member to insert into the groove. The first locking hook and the second locking hook are fastened in a snap-fit with each other, thereby realizing self-locking of the support without requiring manual locking.
US11125379B2 Foldable mounting bracket for patio and deck accessories
A unique foldable mounting bracket assembly for mounting and securing both vertically and horizontally disposed accessories for decks and patios. Both an upper and lower mounting bracket assembly are required when supporting a vertically disposed cylindrical post. These brackets are mounted to the vertical post and when used in conjunction with the railing of a deck the brackets can be mounted below the top railing horizontal support cross member and above the lower support cross member. When mounting in conjunction with a horizontally disposed accessory, only a single bracket is required; which can be mounted below the top railing horizontal support cross member. The bracket can be mounted such that the horizontally disposed accessory can be stored and not be removed. The mounting bracket assembly can support both vertically and horizontally disposed patio and deck accessories simultaneously. This unique foldable mounting bracket when not in use stows flush against the vertical support post not protruding out of the envelope of the standard 2″×4″ railing horizontal members.
US11125378B2 Aseptic high temperature heat exchanger inspection system
An inspection system for a heat exchanger having a vision system to obtain an image of an inner surface of the at least one tube.
US11125373B2 Structural connection between in-line pipes and tubes
A structural connection between in-line circular or rectangular pipes. The connection is maintained within the outer dimensions of the pipe or tubes, eliminates the need for numerous large welds, and provides for a large center hole that enables items to pass through the connection inside the pipes.
US11125372B2 Coupling, and method for transferring fluids
The invention relates to a coupling 10 for transferring fluids, having a valve 30, the valve tappet 32 of which is coupled in terms of movement with a valve sleeve 31, which is pre-tensioned by spring force in the flow direction D of the fluid, and having a locking mechanism 40 for releasably locking the coupling 10 to a tank nipple 50, and a securing mechanism 60 for releasably blocking the closed valve 30, wherein the locking mechanism 40 and the securing mechanism 60 are coupled in terms of movement via a sliding sleeve 70 which is pre-tensioned by spring force against the flow direction D of the fluid, so that in a first control position A of the sliding sleeve 70, the locking mechanism 40 is unlocked and the valve 30 is closed, and in a second control position B of the sliding sleeve 70, the securing mechanism 60 unlocks the valve sleeve 31, so that the valve 30 is unblocked and at least partially opened, and the valve sleeve 31 can be moved subject to pressure against the flow direction D of the fluid, wherein the securing mechanism 60 locks the sliding sleeve and completely opens the valve 30.
US11125371B2 Coupling device for media-conducting lines
A coupling device for connecting media-conducting lines has a one-part or multi-part first coupling section and a one-part or multi-part second coupling section. At least one locking element is fastened with at least one connecting section to the first coupling section and is provided with one or more locking arc sections extending in a circumferential direction between the first and second coupling sections. The second coupling section has a locking section extending circumferentially at least partially about a circumference of the second coupling section. At least one of the one or more locking arc sections interacts with the locking section.
US11125366B2 Hose end fitting
A hose end fitting includes: a body with a continuous channel extending through the body from a first end of the body to a second end of the body, a circumferential groove being arranged around the first end of the body, the first end of the body arranged for receiving an end of a hose, and a coupling device being arranged on the second end of the body; a retaining ring having a radially inwardly extending circumferential rib and a circumferential groove arranged in an outer circumferential surface of the ring; and a socket crimpable on to the retaining ring, the socket having on one end an inwardly extending flange for engagement with the circumferential groove on the retaining ring. The retaining ring has a slit extending in an axial direction allowing for the retaining ring to bend open and accordingly expand, such that the ring is slidable.
US11125365B2 Magnetic joint
A magnetic joint includes a first member and a second member. The first member includes a first plurality of magnets spaced annularly apart from each other. The second member includes a second plurality of magnets spaced annularly apart from each other. The first member is rotatably coupled to the second member. The first member is configured to be coupled to a first component and the second member is configured to be coupled to a second component. The first plurality of magnets and the second plurality of magnets are configured to cooperatively define a plurality of rotational positions between the first component and the second component.
US11125360B2 Mechanical processing of high aspect ratio metallic tubing and related technology
Tubes for use in ultrahigh pressure devices, and associated systems and methods of manufacture are disclosed herein. In one embodiment, a metal tube includes an elongate bore having a circular transverse cross-sectional shape. The metal tube also includes an elongate wall extending around the bore and having an annular transverse cross-sectional shape with an inner surface closest to the bore, an outer surface furthest from the bore, and a wall thickness extending from the inner surface to the outer surface. An inner portion of the wall is under swage-autofrettage-induced overall compressive stress.
US11125357B2 Pipe clamp
A pipe clamp includes a linearly extending base portion. The base portion has a channel in which a pipe is positioned when inserted into the pipe clamp. The pipe clamp further includes two walled portions that extend from longitudinal edges of the base portion. The pipe clamp may further include a curved flexible support member that includes a fixed end and a moveable end. The fixed end is rigidly attached to an inner surface of one of the walled portions. Further, the flexible member is such that it extends in a curved manner, initially extending away from the inner surface of the walled portion and then curving inwards toward the walled portion into a recess.
US11125353B2 Pneumatic lost motion/binary device system and method
Some embodiments include an assembly with an inlet housing enclosing an outlet housing that includes an inlet. The outlet housing includes an outlet port and a channel or aperture coupled to an outlet and apertures coupled to atmosphere. A moveable or flexible member is positioned in the inlet housing coupled to the outlet housing, and can deform, flex and/or move based on a flow and/or pressure of fluid from the inlet. Based on the flow and/or pressure of fluid from the inlet, the moveable or flexible member can reversibly move from a first position to a second position and/or from a second position to a first position. The first position is characterized by the moveable or flexible member being coupled to, proximate to, sealed to the aperture, and the second position is characterized by the moveable or flexible member being moved away from the aperture.
US11125352B1 Magnetically actuated fluid control valve
A magnetically actuated fluid control valve has an internal flooding chamber, an internal piston chamber and a fluid inlet and outlet. The fluid inlet and outlet are in fluid communication with the flooding chamber. A piston is movable within the piston chamber and the flooding chamber. The piston is movable to a closed position wherein fluid cannot flow through the valve, and an open position wherein fluid can flow through the valve. The valve body and piston are fitted with electromechanical and permanent magnets, respectively. Selective electrical excitation of the electromechanical magnets on the valve body cause them to attract or repel the permanent magnets on the piston, causing the piston to move to either the open or closed position.
US11125346B2 Prevention of gas migration through downhole control lines
A gas migration prevention module can include a housing, control line connections configured to connect the housing between control line sections, spaced apart pistons sealingly received in the housing, and a fluid volume defined between the pistons. A control line system can include an upper control line section, a lower control line section in fluid communication with a downhole tool, and a gas migration prevention module connected between the upper and lower control line sections, the lower control line section providing fluid communication between the gas migration prevention module and the downhole tool, and the gas migration prevention module comprising spaced apart pistons and a fluid volume defined between the pistons, the fluid volume being in fluid communication with an exterior of the gas migration prevention module.
US11125345B2 Flow control device
A flow control device for a heat exchange system. The device includes a housing, a valve core and a transmission element. The housing is formed with an accommodating portion, a first port and a second port, the valve core being at least partially accommodated in the accommodating portion. The housing includes fixing elements and an outer housing, the fixing elements being located on a circumferential inner side of the outer housing, the outer housing and the fixing elements are arranged in a relatively sealing manner, and the valve core and the fixing elements are arranged in a relatively sealing manner. The valve core at least has a first flowing passage. The transmission element drives the valve core to open or close at least one of the first and second ports, thereby improving an internal sealing performance of the product.
US11125342B2 Spool valve
A spool valve includes: a cylindrical tubular sleeve that extends in an axial direction and comprises a first port and a second port separated from each other in the axial direction, and a cylindrical columnar spool that extends in the axial direction and comprises a diameter reduced portion. The cylindrical columnar spool moves in the axial direction through the sleeve and opens and closes the first port to cause the first port to or not to communicate with the second port, and the first port has a first through hole having a first width in a circumferential direction of the sleeve, and a second through hole having a second width different from the first width in the circumferential direction.
US11125338B2 Ring for a floating ring seal
A ring for a floating ring seal having an active face. The active face has an inner zone with a surface and an outer zone with a surface. The outer zone surrounds the inner zone coaxially. Each of the two surfaces has a structure produced with a laser.
US11125337B1 Housing for magnetic fluid sealing device and agitation kettle/reaction kettle
A housing for a magnetic fluid sealing device and an agitation kettle/reaction kettle are disclosed. The housing includes: a first end cover, a casing and an elastic member. The first end cover is spaced apart from a first portion of the casing in radially inward and outward directions of the casing. At least one of the casing, a positioning platform and the first end cover is provided with a mounting groove, and the elastic member is arranged in the mounting groove. A first sealing ring is provided between the casing and the first end cover.
US11125335B2 Sliding component
In an exemplary embodiment, a sliding component includes a pair of sliding parts sliding relatively to each other. One sliding part is a stationary-side seal ring 7, and the other sliding part is a rotating-side seal ring 4, wherein the seal rings have sliding faces S formed radially for sealing a liquid or a misty fluid as a sealed fluid against leakage. At least one of the sliding faces S is provided with: spiral grooves 11 which have upstream ends 11a connected to a leakage side, and downstream ends 11b not connected to a circumferential edge on a sealed-fluid side, and are disposed at an angle from upstream to downstream; and discharge grooves 10 disposed at an angle such that their upstream ends 10a are located on the leakage side and their downstream ends 10b are located on the sealed-fluid side.
US11125332B2 Sealing plug assembly
The disclosure provides a sealing plug assembly including a plug body, a guide ring, a first sealing ring and an elastic component. The plug body has an annular outer surface having a plug side and an exposed side opposite each other and a first annular recess located at the annular outer surface and located between the plug side and the exposed side. The guide ring is sleeved on the plug body and located in the first annular recess. The guide ring has a first inclined surface. The first sealing ring is sleeved on the plug body and located in the first annular recess. The first sealing ring is located farther away from the exposed side of the annular outer surface than the guide ring. The first sealing ring has a second inclined surface matching the first inclined surface. The elastic component is sleeved on the first sealing ring.
US11125331B2 Liner lock flange for a piston pump
A piston pump includes a frame, a housing configured to be coupled to the frame via a fastener, an annular liner defining a chamber configured to receive a piston of the piston pump, and an annular liner lock flange circumferentially surrounding the annular liner. The annular liner lock flange includes a radially-extending portion configured to be positioned within a respective counterbore of the frame and a respective counterbore of the housing while the housing is coupled to the frame via the fastener to block relative movement between the liner lock flange, the frame, and the housing.
US11125328B1 Electric actuator for use on a hydraulic drive device
An electric actuator assembly for controlling the output of a variable output drive device such as a hydraulic transaxle or pump having an output shaft connected to a swash plate for rotation thereof to control the output of the drive device. The output shaft is engaged to and driven by a control shaft of an electric actuator. The assembly includes a clamping coupler to connect and align the output shaft and the control shaft, thereby permitting use of the electric actuator with multiple drive device designs without the need to modify the control shaft of the drive device.
US11125324B2 Shift range control device
A shift range control device includes an angle detector, a valley position learner, and a validity determiner. The angle detector detects a rotation angle of an output shaft of a shift actuator. The valley position learner learns the rotation angle of the output shaft when a locker is positioned at a valley bottom of a recess as a valley position based on a detection angle of the angle detector. The validity determiner determines validity of a learning value of the valley position learner.
US11125322B2 Flow valve control method and apparatus, and storage medium
A flow valve control method, apparatus, and storage medium are provided. The method comprises: conducting a median current value teach-in of a flow valve starting from an initial median current value of the flow valve; and correcting a flow-current curve of the flow valve based on a deviation value obtained by the teach-in. Each teach-in process comprises: controlling current output to a flow valve, so that the flow valve successively goes through: when there is a flow passing through, an output flow enables a shifting mechanism to return to position, and when there is a flow passing through again, an output flow again enables the shifting mechanism to return to position; recording a current value the twice when there is a flow passing through the flow valve as a maximum median current value; and acquiring a deviation value of the maximum median current value from the initial median current value.
US11125318B2 Power transmission system including a lubrication oil recovery device and turbomachine provided with such a power transmission system
The invention concerns a power transmission system of a turbomachine, comprising: a speed reducer (12) comprising a sun gear (15) rotationally secured to a power shaft (5) with a longitudinal axis, an outer ring gear (18) rotating a rotor shaft along the longitudinal axis, and a planet carrier (17), and a device (40) for recovering oil ejected by centrifugal effect and comprising an annular gutter (41) for recovering the ejected oil, the gutter being attached to a fixed annular housing (26) and having a recovery chamber (42) and a first wall portion (43) disposed at least partially facing oil ejection means (30) of the speed reducer for directing the oil to the recovery chamber. According to the invention, the recovery chamber is provided with an inlet opening (45) directed radially outwardly and defined in a plane radially lower than a plane where an outlet port (33) of the ejection means is defined.
US11125314B2 Demister for a gearing system and method
A demister for a gearing system includes a main body shaped as a disk having an inner annular rim coupled to an outer annular rim through a first wall and a second wall opposite from the first wall. A central opening is defined by the inner annular rim and extends between and through the first wall and the second wall. The main body is configured to be rotated about a central longitudinal axis to create centrifugal forces that separate oil mist particles from air. At least one fluid passage extends radially between and through the inner annular rim and the outer annular rim. The fluid passage(s) includes a fluid inlet opening in the outer annular rim and a fluid outlet opening in the inner annular rim. The fluid inlet opening is configured to accept incoming air. The fluid outlet opening is configured to discharge filtered air.
US11125313B2 Transmission box, method of closing same and running vehicle equipped with such a box
A transmission housing (2) of the type including two housing elements (9) that can be positioned to press against each other and that in the assembled-together state define: a cavity (13); a shaft (6) projecting at least in part from the housing (2); a motion transmission mechanism (30) for transmitting motion to said shaft (6), the motion transmission mechanism (30) being housed at least in part inside the cavity (13) of the housing (2); and sealing means (15) arranged in the zone where the housing elements (9) are pressed together and referred to as a join plane (10), the sealing means (15) surrounding said cavity (13).The housing (2) comprises means (17) for connecting the housing elements (9) together by snap-fastening in order to hold the housing elements (9) pressed against each other and the sealing means (15) comprise adhesive connection means (16) for connecting said housing elements (9) together.
US11125311B2 Torque converter and method of assembly
A torque converter includes a cover having a first surface and an annular plate axially spaced from the cover and having a second surface facing the first surface. A disc of the torque converter is disposed between the cover and the plate and has opposing first and second faces adjacent to the first and second surfaces, respectfully. Each of the faces defines a projection joined to one of the first and second surfaces by at least one capacitive discharge weld.
US11125305B2 Tensioner
A tensioner comprising a base, a shaft extending from the base, a pivot arm pivotally engaged with the shaft, a torsion spring disposed between the pivot arm the base, a base portion cooperatively engagable with a pivot arm portion upon an axial movement of the pivot arm to a first position, a removable member engaged with the shaft to retain the pivot arm in the first position, the first position limiting the pivot arm to a first range of movement, and the pivot arm axially moveable to a second position upon removal of the removable member, the second position limiting the pivot arm to a second range of movement.
US11125298B2 Shock absorber
A position-sensitive shock absorber 1 comprising an internal fluid space 3, a piston 5 and fluid system 7. The piston divides the internal fluid space into a compression side 3a and a rebound side 3b. The fluid system fluidly connects the compression side to the rebound side. The fluid system comprises a chain 9 of three or more external fluid spaces 9a, 9b, 9c, 9d external to the internal fluid space, space flow-control-arrangements 27i, 27ii, 27iii, and passage arrangements 25a, 25b, 25c, 25d mutually spaced along the internal fluid space. Each of the space flow-control-arrangements is configured to mutually fluidly connect a respective adjacent two of the external fluid spaces. Each of the external fluid spaces has a respective one of the passage arrangements. Each of the passage arrangements comprises one or more passages opening to the internal fluid space. The piston is movable along the internal fluid space to at least one of pass (at least one of the passages) and at least restrict flow through at least one of the passages.
US11125296B2 Vibration damper
A vibration damper for damping vibrations of a motor vehicle part including a retaining device attachable to the motor vehicle part, a damping mass, capable of vibrating with respect to the retaining device, and a spring device coupling the damping mass capable of vibrating to the retaining device. The damping mass may have at least one anti-loss device and/or path limiting device that may interact with the retaining device to limit a deflection of the damping mass with respect to the retaining device.
US11125295B2 Damping device
According to an embodiment, a damping device includes a base member including a first base and a second base, a weight member, a pair of first base-side coil springs provided between the first base and the weight member, and a pair of second base-side coil springs provided between the second base and the weight member. Each of the first base-side coil springs includes a first effective turn portion, a first fixed pin portion supported in the first base, and a first movable pin portion supported in the weight member. Each of the second base-side coil springs includes a second effective turn portion, a second fixed pin portion supported in the second base, and a second movable pin portion supported in the weight member.
US11125291B2 Parking brake apparatus for vehicle
Provided is a parking brake apparatus for a vehicle that allows an improvement in the ease of assembly during manufacturing. A parking brake apparatus for a work vehicle having wet brake mechanisms for restricting rotation of right and left axles and is able to simultaneously apply or release brakes via brake arms for the right and left transaxles. The parking brake apparatus includes a parking brake pedal for artificially providing a parking instruction, an electric actuator having a displacement portion that is displaced in response to the parking instruction, and a link mechanism connecting the displacement portion and the brake arms. The link mechanism includes auxiliary brake rods connected at first end portions to the brake arms, an equalizer connected to second end portions of the auxiliary brake rods, and a single principal brake rod connected at a first end portion to a substantially central portion of the equalizer and connected at a second end portion to the displacement portion.
US11125286B2 Disc brake for a commercial vehicle and brake pad set
A disc brake includes a brake caliper that engages over a brake disc and is designed as a sliding caliper. The disc brake has two brake pads which are located in the brake caliper, can be moved in opposite directions and each of which has a pad backing plate with a friction lining secured thereon. An action-side or application-side brake pad of the two brake pads can be pressed against the brake disc by a brake application device with the aid of at least one brake plunger. The brake also includes at least one restoring device, by which the brake caliper can be returned after a displacement and release of the brakes caused by a braking action. The restoring device has a spreading device which engages on the brake pads lying opposite one another and which acts with an identical force in opposition to the respective application direction. The spreading device includes spring-loaded spreading elements, each engaging on its respective pad backing plate. The spreading device is located in the central opening and the spreading elements engage directly or indirectly, outside the friction linings, on at least two contact regions of the brake pads, the regions facing each other at a distance from the center. Each contact region has a contact surface and a support surface, on which surfaces the spreading elements are movably located.
US11125284B2 Brake dust cover
A brake dust cover includes an annular plate in which a cutout for avoidance of a brake caliper is provided in a first predetermined angle region, and a cover portion that overhangs to one side in an axial direction of the annular plate and covers an outer peripheral surface of a brake disc rotor is included at an outer periphery of a second predetermined angle region. The annular plate includes a small diameter region disposed in a third predetermined angle region other than the second predetermined angle region. In the annular plate, an outer diameter of the third predetermined angle region is smaller than an outer diameter of the second predetermined angle region. The annular plate does not include, in the small diameter region, a portion that overhangs to one side in the axial direction of the annular plate and covers the outer peripheral surface of the brake disc rotor.
US11125282B2 Torque limiter assembly
A torque limiting assembly is disclosed comprising: an input shaft; an output shaft; and spring having a first end coupled to the input shaft and a second end coupled with the output shaft. In a low torque mode, when the input shaft is rotated the spring is compressed by a low amount and transmits a force to drive rotation of the output shaft, whereas in a high torque mode the spring is compressed by a high amount such that the input shaft rotates relative to the output shaft. This relative rotation moves or urges an engagement member so as to either: disconnect the input shaft from the output shaft; or engage a housing to prevent or inhibit rotation of the input shaft relative to the housing.
US11125280B2 Hydrodynamic friction clutch
A hydrodynamic friction clutch may include a rotatably mounted shaft, a drive disc non-rotatably fixed on the shaft, and an output body rotatably fixed on the shaft. The drive disc may include a radially extending annular transmission region for receiving a viscous fluid and via which the drive disc may be couplable to the output body for transmitting a torque, and an annular segment-shaped storage chamber for receiving the viscous fluid. The transmission region may be fluidically connected to the storage chamber via an inlet path and a drainage path. In the inlet path, a closable valve opening for controlling the quantity of the viscous fluid in the transmission region may be provided. The inlet path may include an annular segment-shaped communication passage, which may fluidically connect the storage chamber to the valve opening. The drainage path may fluidically connect to the inlet path at the valve opening.
US11125279B2 Self-reinforcing friction clutch having leaf springs
A friction clutch includes an axis of rotation, a disk spring, a plurality of leaf springs, a clutch cover and a pressure plate. The disk spring is for engaging the friction clutch. The disk spring includes tongues. The plurality of leaf springs is axially fixed to the tongues. The pressure plate is axially displaceable relative to the clutch cover and attached to the clutch cover in a torsion-resistant manner by the plurality of leaf springs.
US11125278B2 Dual clutch unit with electric drive
A dual clutch unit for variable torque distribution to two output shafts comprises: a clutch input part rotatably drivable about an axis; a first disk pack for transmitting torque from the clutch input part to a first clutch output part, wherein the first disk pack is axially loadable by a first pressure plate and is axially supported against the clutch input part via a first intermediate plate; a second disk pack for transmitting torque from the clutch input part to a second clutch output part, wherein the second disk pack is axially loadable by a second pressure plate and is axially supported against the clutch input part via a second intermediate plate; wherein the first intermediate plate and the second intermediate plate are axially arranged between the first disk pack and the second disk pack and are axially engaged with each other such that they are axially supported independently of each other against the clutch input part.
US11125276B2 Output shaft component with elastic body
The present disclosure provides an output shaft component and a power output mechanism. The output shaft component includes a housing connected to the driven member, an adapter shaft connected to an output shaft of the power output mechanism, and an elastic body mounted in the housing. The adapter shaft is rotatably mounted in the housing. The elastic body includes an inner ring, an outer ring located outside the inner ring, and an elastic portion connected between the inner ring and the outer ring. The adapter shaft is sheathed in the inner ring, the inner ring is synchronously rotatably connected to the adapter shaft, and the outer ring is fixed on the housing.
US11125275B2 Bearing assembly for a fan of an HVAC system
The present disclosure relates to a heating, ventilation, and/or air conditioning (HVAC) unit including a condenser coil and a condenser fan assembly. The condenser fan assembly includes a first fan and a second fan, where the first fan and the second fan are each configured to operate to pull air through the condenser coil. The HVAC unit also includes a motor of the first fan including a housing and a shaft, where the motor is configured to operate to rotate the shaft in a first direction. The HVAC unit further includes a unidirectional bearing that is coupled to the shaft and a mounting assembly of the condenser fan assembly, where the unidirectional bearing is configured to block rotation of the shaft in a second direction that is opposite the first direction.
US11125263B2 Cap with sealant flow path
A cap for forming a sealed cavity around an end of a fastener is disclosed. The cap has a cap body with an annular base terminating at a base rim which surrounds an opening into a central cavity. The cap also has an annular skirt providing an annular pocket between the skirt and the base. An inlet hole is provided in the skirt which is in fluid communication with the annular pocket. A protuberance protrudes in the annular pocket and faces the inlet hole to promote a flow of sealant injected through the inlet hole to flow annularly around the annular pocket.
US11125259B2 Automated self-aligning mechanical fastener
Corresponding threaded mechanical fasteners are automatically aligned with an alignment guide. The alignment guide includes a tapered cavity defined in a housing. As the threaded mechanical fasteners are moved towards one another to mate, the tapered cavity in the alignment guide causes the threaded mechanical fasteners to align with each other. The mechanical fasteners can connect a modular rechargeable battery to a battery receptacle in a vehicle.
US11125258B2 Detachable workpiece support
A connector includes a first connector body with an attachment hole and a second connector body provided with a shaft portion. A keyway is formed in a sidewall of the shaft portion. Moreover, the first connector body includes a pivoting member pivoting by being pressed by the shaft portion rotating inside the attachment hole and an elastic member for returning the pivoting member that has pivoted to an original position. The pivoting member is provided with an engaging portion engaging with the keyway.
US11125256B2 Adhesive sheet-shaped member for airflow and travel vehicle using the same
Provided are: an adhesive sheet-shaped member for airflow, in an optimum form that can improve fuel efficiency and travel performance as a result of more effectively suppressing a large airflow separation phenomenon that becomes air resistance; and a travel vehicle using the same. A sheet-shaped member that is: provided thinly so as to prevent, as far as possible, the thickness thereof providing air resistance; adhered to a surface in contact with an airflow provided by a material that charges negative static electricity; formed in a long sheet shape in a flow direction of airflow, compared to the width direction of the airflow, so as to be adhered along the direction of the airflow; and provided using a material that charges a negative static electricity and has a different ease of static electrical charge than the surface in contact with the airflow.
US11125255B1 Complementary fluidic valves, logic gates, and latches
A fluidic device may include inlet ports, input ports, one or more output ports, fluid channels each configured to route fluid from one of the inlet ports to one of the one or more output ports, and pistons. In some examples, each piston may include (1) a restricting gate transmission element configured to block, when the piston is in a first position, and unblock, when the piston is in a second position, one of the fluid channels, (2) a controlling gate transmission element configured to interface with a first control pressure that, when applied to the controlling gate transmission element, forces the piston towards the first position, and (3) an additional controlling gate transmission element configured to interface with a second control pressure that, when applied to the additional controlling gate transmission element, forces the piston towards the second position. Various other related devices and systems are also disclosed.
US11125253B2 Pneumatic articulating structure system with internal tile architecture
A pneumatic articulating structure includes a plurality of tiles, a flexible cover, and a plurality of resiliently flexible hinges. Each tile has a first surface and a second surface facing in opposite outward directions. An area of at least one respective first surface is greater than an area of at least one respective second surface. The cover is constructed to cover the tiles. The second surface of each one of the tiles is attached to the cover. Each tile is engaged to an adjacent tile by a respective hinge, and are proximate to the first surface. A vacuum chamber is define by at least the plurality of tiles and the flexible cover.
US11125249B2 Cooling fan apparatus
A cooling-fan-apparatus fan shroud includes: a cover wall that closes a space between a heat exchanger and a circumference of a fan; and a passing permitting frame part that is positioned between the fan and an attachment part to a vehicle at an outer side of the cover wall and that allows free passing of traveling air, wherein a reinforcement rib is provided at an opening of the passing permitting frame part, and at least part of the reinforcement rib is a deflection louver that guides the traveling air to a predetermined direction.
US11125248B2 Fan performance tuning
Fan performance can be adjusted based on real-time operating conditions. The fan can include a plurality of blades operatively connected to a rotor. The blades can extend radially outward from the rotor to a tip. A housing can substantially surround the fan. The housing can have an inner peripheral surface that defines an inner diameter. The inner peripheral surface can include a first portion and a second portion downstream of the first portion. The first portion can be adjacently upstream of the plurality of blades, and the second portion can be substantially aligned with the plurality of blades. A plurality of actuators being distributed in a circumferential direction of the housing. The actuators can be operatively positioned to cause the inner diameter of the first portion or the second portion to be altered. As a result, one or more performance characteristics of the fan can be changed.
US11125244B2 Coolant pump with application-optimised design
An electric coolant pump is used as an auxiliary water pump in a vehicle. The pump includes radial mounting of the shaft (4) is provided by means of a coolant-lubricated radial sliding bearing (41) arranged between the pump impeller (2) and the rotor (32). A dry-running electric motor (3) with a radially inner stator (31) and a radially outer rotor (32) is accommodated in a motor chamber (13) separated from the pump chamber (10). A shaft seal (5) is between the radial sliding bearing (41) and the motor chamber (13). The rotor (32) is bell-shaped with an inner surface facing the shaft seal (5) and being fixed to the shaft seal (5) to axially overlap with the shaft (4). The motor chamber (13) has an opening to the atmosphere, which is closed by a liquid-tight pressure equalization membrane (6) that is permeable to vapor.
US11125241B2 Ceiling fan
A ceiling fan includes a support unit, a stator, a rotor and a lamp. The support unit includes an axle and a magnetic disc fit around the axle. The stator is fit around the axle. The rotor has a plurality of blades rotatably mounted to the axle. The lamp includes a housing and a light emitting portion below a magnetic top face of the housing. The magnetic top face of the housing is attracted to the magnetic disc.
US11125235B2 Centrifugal compressor with diffuser with throat
A diffuser is proposed which is formed as the gap between rotationally-symmetric surfaces which face each other. Moving in the radial direction, the axial extent of the gap generally decreases to a minimum value in a throat portion of the diffuser, and then generally increases again. The distance from the rotational axis of the compressor to the throat may be approximately at least 125% of the radius of the compressor wheel. The inventors have found that a throat at this distance from the rotational axis may lead to higher efficiency at high flow rates, especially for relatively low turbo speeds. This is because the spacing between the compressor wheel and the throat permits diffusion of the gas streams leaving the compressor wheel.
US11125232B2 Scroll compressor with cover member defining rear surface adjacent space
Provided is an efficient scroll compressor capable of suppressing deformation of a fixed scroll during operation. The scroll compressor includes: a fixed scroll (30) including a fixed-side end plate (32) and a spiral fixed-side wrap (34) protruding from a front surface (32a) of the fixed-side end plate; a movable scroll (40) including a spiral movable-side wrap (44) combined with the fixed-side wrap to form a compression chamber (Sc); and a cover member (60) disposed in a high-pressure space on a rear surface (32b) side of the fixed-side end plate and attached to the fixed scroll. The fixed-side end plate includes a compression chamber adjacent portion (33) at which the front surface of the fixed-side end plate faces the compression chamber. The compression chamber adjacent portion includes a high-pressure adjacent portion (33a) disposed at a central portion of the compression chamber adjacent portion, and an intermediate- and low-pressure adjacent portion (33b). At the high-pressure adjacent portion, the front surface of the fixed-side end plate faces a high-pressure compression chamber. The intermediate- and low-pressure adjacent portion is disposed on the outer side of the high-pressure adjacent portion. The cover member defines a low- or intermediate-pressure rear surface adjacent space (S3) that faces at least a part of a rear surface of the intermediate- and low-pressure adjacent portion in the compression chamber adjacent portion of the fixed-side end plate.
US11125231B2 Compressor for refrigerating machine
A compressor includes a casing and a metallic coating. The casing includes a low-pressure casing part covering a low-pressure space and a high-pressure casing part covering a high-pressure space. The metallic coating is formed at least on a part of an outer surface of the casing. The metallic coating includes a low-pressure part coating formed in the low-pressure casing part, a high-pressure part coating formed in the high-pressure casing part, and a welded part coating formed in a welded part. At least either the average thickness of the low-pressure part coating or the average thickness of the welded part coating is greater than the average thickness of the high-pressure part coating.
US11125227B2 Pressure compensated external gear machine
Devices and systems relating to external gear machines that comprise microsurface shaping on the lateral surfaces of the gear teeth and/or bushing surfaces are provided. Such microsurface shaping may comprise a flat step to linear wedge profile, a flat step to flat step profile, or solely a linear wedge profile. The incorporation of microsurface shaping on the gear teeth and/or bushing plates contributes to improving the lubrication performance within the external gear machine and provides significant benefits, including the improvement of operating efficiency, life, and reliability of the system components. Methods for manufacturing the gear teeth and related bushings are also provided, the methods configured to optimize the overall axial balance within the system.
US11125224B2 Actuating and sensing module
An actuating and sensing module is disclosed and includes an actuating device, a first substrate, a second substrate, a valve membrane and a sensor stacked sequentially. The first substrate includes an intake channel, an exhaust channel, an inlet and an outlet. The valve membrane is disposed between the first substrate and the second substrate and includes an intake valve and an exhaust valve to insulate the intake channel and the exhaust channel, respectively. The actuating device is disposed to seal a through slot of the second substrate to form a compressing chamber. The inlet, the intake channel, the compressing chamber, the exhaust channel and the outlet are in communication with each other to define a gas flow loop. The sensor is disposed in the gas flow loop. While the actuating device drives gas from the outside, the gas is transported into the gas flow loop and sensed by the sensor.
US11125218B2 Modular horizontal pumping system with mobile platform and method of using same
A modular horizontal pumping unit, system, and method for pumping fluid at a wellsite. The modular horizontal pumping unit includes a pump assembly comprising a motor and a pump; fluid connectors to fluidly connect the pump assembly to wellsite equipment to pass fluid therebetween during a pumping operation; and a mobile platform transportable to a wellsite. The mobile platform includes a chassis and a wheel assembly. The chassis includes a frame with saddles. The frame has a torque bar extending through the frame to prevent deflection. The frame carried by the wheel assembly. The saddles are positioned about the frame to support the pump assembly in an operational position thereon during transport of the pump assembly and during the pumping operation at the wellsite.
US11125215B2 System and method for determining soiling state of a wind turbine rotor blade
Provided is a system for determining a soiling state of a wind turbine rotor blade. The system includes a pressure sensor adapted to measure a plurality of pressure values corresponding to a plurality of different heights above a trailing edge region of the wind turbine rotor blade, and a processing unit in communication with the pressure sensor and adapted to determine the soiling state of the wind turbine rotor blade by estimating an air flow velocity distribution above the trailing edge region of the wind turbine rotor blade based on the plurality of pressure values. Furthermore, a corresponding method of determining a soiling state of a wind turbine rotor blade is described.
US11125214B2 Method for anchoring a holding means in a wind turbine and adapter
A method for anchoring a sling of a rope for supporting loads, in a wind turbine, the wind turbine includes at least two components connected via a bolt-and-nut arrangement includes multiple pairs of bolts and nuts at opposing flanges, the nuts fastening to the bolts at the upper flange, wherein at least one adapter includes a cylindrical outer holding surface for receiving the sling is placed atop of at least one nut covering its edges, and the sling is fastened to the adapter is provided.
US11125208B2 Reciprocal motion wind energy harvesting device
A reciprocal motion wind energy harvesting device has a first lever arm assembly and a second lever arm assembly, which are supported by and rotate about a central shaft. The lever arm assemblies have pluralities of vanes along their length to receive wind force. The vanes are configured to be rotatable in order to produce opposing and reciprocating motion of the lever arm assemblies. The lever arm assemblies are operatively connected to a generator in order to convert the wind force received by the vanes into energy.
US11125207B2 Magnus rotors as a means of improving the performance of Savonius rotors and vehicles
A means of reducing fluid density in front of Savonius blades by installing magnus rotors to accelerate onrushing fluid away from the blade itself. Several magnus rotors are mounted on either external side of the centerline of each blade, so as the Savonius rotor is revolved by the surrounding fluid and the magnus rotors are revolved on either side of the centerline in opposite directions, then fluid pressure is reduced and the Savonius rotor's speed is increased. Also, if the magnus rotor is formed from a sheathed flexible shaft and attached to an underlying contoured surface of a vehicle, such as a racing car or a helical Savonius rotor, fluid resistance to the forward motion of the vehicle is reduced.
US11125199B2 Power functioning system for intelligent automotive component and control method using the same
The present invention describes an apparatus and method for remotely activating and deactivating an intelligent automotive component and distributing one or more corresponding signal to an control apparatus. Further, the present invention comprises the steps of distributing an remote activation or deactivation request signal, determining the one or more battery(s) capacity levels, distributing an respective intelligent automotive components state signal and distributing an corresponding component state signal.
US11125197B2 Vehicle and control method thereof
The vehicle includes an engine comprising a crankshaft, a crankshaft position sensor (CKP) configured to generate a pulse signal corresponding to a rotation of the crankshaft, a battery, a hybrid starter generator (HSG) configured to start the engine based on a power of the battery and charge the battery, and a motor controller unit (MCU) configured to determine a rotation angle of the crankshaft based on the pulse signal received from the CKP, and control the HSG based on the determined rotation angle.
US11125193B2 Absolute humidity sensor
A temperature sensor and a relative humidity sensor are placed in an environment allowing air to flow and are displaced in an upstream-downstream direction of the airflow. An absolute humidity acquisition unit acquires absolute humidity of air from outputs from the temperature sensor and the relative humidity sensor. A delay adjustment unit delays an output from one of the temperature sensor and the relative humidity sensor placed upstream and to reconcile change-behaviors of outputs from the temperature sensor and the relative humidity sensor in response to a state change in air. The absolute humidity acquisition unit acquires the absolute humidity based on the output from the other of the temperature sensor and the relative humidity sensor placed downstream and an output acquired from the one sensor placed upstream and delayed in the delay adjustment unit.
US11125191B2 Engine intake apparatus and method
Intake apparatus for an engine that includes an injector for injecting fuel into a flowstream of intake gas through the apparatus and a heater for heating intake gas passing through the apparatus. The apparatus being operable to inject fuel into the flowstream of intake gas by means of the injector such that when intake gas flows through the apparatus at a first flow rate injected fuel impinges on the heater; and when intake gas flows through the apparatus at a second flow rate greater than the first a flowpath of injected fuel is deflected by intake gas such that substantially no fuel impinges on the heater.
US11125190B2 Methods and system for an engine system
Methods and systems are provided for a cooling arrangement of an engine. In one example, a method comprises flowing coolant from a high temperature coolant circuit or a low temperature coolant circuit to a fresh air heat exchanger in response to a condensate likelihood.
US11125186B2 Aircraft comprising two contra-rotating fans to the rear of the fuselage, with spacing of the blades of the downstream fan
The invention relates to an aircraft comprising a fuselage (1), which is propelled by a turbine engine with two coaxial fans, namely an upstream fan (7) and a downstream fan (8), driven by two contra-rotating rotors (5, 6) of a power turbine (3). The two fans (7, 8) and the turbine (3) are integrated into a nacelle (14) which projects downstream from the fuselage (1) and through which air flows. According to the invention, at least one of the fans (7, 8) of the aircraft and, in particular, the downstream fan (8) comprises variable-spacing blades, and at least one stator-forming variable-spacing blade ring (25) in the aircraft is placed upstream of the upstream fan (7). The variable-spacing stator blades (25) and the variable-spacing blades of the downstream fan (8) are mutually configured to direct the air flow in a first mode in which the air flows through the nacelle (14) from upstream to downstream and in a second mode in which the air is pushed back upstream through the nacelle (14).
US11125183B1 Effective low temperature differential powered engines, systems, and methods
The invention described herein provides new devices suitable for effectively converting relatively low temperature differences into useful work (e.g., for generating electrical power), related systems, and methods of using and developing such devices/systems. The devices are characterized in, inter alia, comprising an at least partially enclosed moveable component (e.g., a piston), a closed pressurized gas system comprising sizeable void spaces, and a closed temperature modifying liquid system having portions that obtain temperature characteristics from two sources, which are alternatingly dispensed as droplets into the pressurized gas, creating a pressure/temperature difference in the gas which causes the moveable component to move back and forth along a stroke distance that does not include the void spaces, the pressure of the gas and liquid being at substantially balanced when the device is ready for operation.
US11125174B1 Systems and methods for providing simultaneous coolant stagnation and cooled exhaust gas recirculation
Systems and methods for simultaneously performing engine coolant stagnation and exhaust gas recirculation (EGR) cooler cooling in an engine include providing a coolant circuit configured to flow coolant through both a block of the engine and an EGR cooler of a cooled EGR (CEGR) system of the engine, a main pump on the coolant circuit that is driven by an electric motor or a crankshaft of the engine to pump coolant through a block of the engine, and a secondary pump on the coolant circuit that, when energized, is configured to pump coolant through the coolant circuit, and, during a cold start of the engine, de-energizing the electric motor or disconnecting the main pump from the engine crankshaft to stagnate coolant in the engine block and energizing the secondary pump to flow coolant through the EGR cooler of the CEGR system.
US11125173B2 Exhaust gas purification system for vehicle and method of controlling the same
An exhaust gas purification system for vehicle includes: a housing disposed on an exhaust pipe to receive a exhaust gas discharged from an engine and to exhaust the exhaust gas passed rearward; a front end catalyst disposed in the housing to purify the exhaust gas flowing into the housing through a front end of the housing; a rear end catalyst disposed in the housing to purify the exhaust gas passing through the front end catalyst before the exhaust gas flows out to a rear end of the housing; and a controller connected to the exhaust pipe at a front end of the housing to control a concentration of unburned fuel contained in the exhaust gas flowing into the housing.
US11125169B2 Fuel system for heat engine
A fuel metering system for a combustion section of a turbo machine is provided. The turbo machine includes a main fuel line configured to provide a flow of fuel and a zone fuel line split from the main fuel line through which at least a portion of the flow of fuel is provided. A fuel valve is disposed at the zone fuel line and is configured to obtain and receive a present fuel valve area value and a present valve position value. A first pressure sensor is disposed upstream of the fuel valve, in which the first pressure sensor is configured to obtain a first pressure value. A second pressure sensor is disposed downstream of the fuel valve, in which the second pressure sensor is configured to obtain a second pressure value. A flow meter is disposed downstream of the fuel valve. A controller is configured to perform operations, in which the operations include determining a demanded fuel valve actuator position based at least on an estimated fuel valve actuator position and a demanded fuel flow; comparing the demanded fuel flow and a present fuel flow; determining an actual fuel valve actuator position based at least on the demanded fuel valve actuator position and the compared demanded fuel flow and present fuel flow; and generating an valve effective area at the fuel valve based at least on the actual fuel valve actuator position.
US11125168B2 Dirt mitigation in a gas turbine engine
An aspect includes a dirt mitigation system for a gas turbine engine. The dirt mitigation system includes a plurality of bleeds of the gas turbine engine and a control system configured to determine a particulate ingestion estimate indicative of dirt ingested in the gas turbine engine. The control system is further configured to determine one or more operating parameters of the gas turbine engine and alter a bleed control schedule of the gas turbine engine to purge at least a portion of the dirt ingested in the gas turbine engine through one or more of the bleeds of the gas turbine engine based on the particulate ingestion estimate and the one or more operating parameters.
US11125163B2 Housing structure for a turbomachine, turbomachine and method for cooling a housing portion of a housing structure of a turbomachine
The present invention relates to a housing structure for a turbomachine, a turbomachine, and a method for cooling a housing portion of a housing structure of a turbomachine, wherein the housing structure has an outer housing wall, which is formed by at least one housing part, and an inner wall, wherein the inner wall is arranged in the radial direction inside of the housing wall and spaced apart from the housing wall and is designed to bound the main flow channel, at least partially, wherein the housing structure comprises a cooling air channel for cooling a housing portion to be cooled, and has an upstream end and a downstream end, wherein the cooling air channel extends, at least partially, between the housing wall and the inner wall.
US11125161B2 Cooling systems for gas turbine engines
An air-oil cooler for a gas turbine engine includes an air cooling structure and a lubricant channel. The lubricant channel extends between a lubricant inlet and a lubricant inlet and is bounded by the air cooling structure. The air cooling structure has an arcuate shape for circumferentially spanning a portion of a gas turbine engine core.
US11125160B2 Method and system for combination heat exchanger
The heat exchanger system includes a first heat exchanger assembly including a plurality of airfoil members circumferentially spaced in a flow stream of an annular duct. Each airfoil member including a radially inner end and a radially outer end and a first internal flowpath configured to channel a flow of cooled fluid therethrough. The heat exchanger assembly includes a second heat exchanger assembly including a plurality of fin members extending proximate the flow stream and a second internal flowpath configured to channel a flow of cooled fluid therethrough. The heat exchanger assembly includes a header system including a conduit path configured to couple the first heat exchanger assembly and the second heat exchanger assembly in flow communication. The header system includes an inlet connection configured to receive a flow of hot fluid from thermal loads and an outlet connection configured to direct cooled fluid to thermal loads.
US11125151B2 Wireless control of actuated valve in variable compression ratio piston
A telescopic piston for use with an internal combustion engine includes an inner piston; an outer piston located over the inner piston; an upper oil chamber formed between the inner piston and the outer piston; and an actuated valve having a controllable peak pressure that opens the actuated valve. A value of the peak pressure is wirelessly received at the telescopic piston.
US11125147B2 Prechamber ignition system having hydraulically actuated piston
An ignition system for an internal combustion engine includes an igniter having an igniter housing with a combustion prechamber formed therein, and a piston movable within the igniter housing to increase a pressure of an ignition charge of fuel and air within the combustion prechamber to an autoignition threshold. The ignition system includes a hydraulic actuator to apply an actuating force to the piston. Related methodology is disclosed.
US11125142B2 Valve device and cooling system
A cooling water control valve controls a flow amount of a cooling medium of an engine, and includes a housing and a valve body. The housing includes output ports. The valve body is enabled to rotate about a central axis in the housing and includes openings. The openings are located at different positions in an axial direction and configured to communicate to the output ports, respectively. The valve body changes a communication degree between the opening and the output port according to a rotational position. The cooling water control valve is placed such that an axial direction of the valve body is substantially orthogonal to an axial direction of a crankshaft of the engine.
US11125139B2 Waste heat recovery vehicle cooling optimization
An engine cooling system comprises an engine cooling circuit, comprising a first pump structured to circulate engine coolant fluid therethrough. A remote coolant radiator positioned along the engine cooling circuit downstream of the engine and outside of a vehicle cooling package area is structured to transfer heat from the engine coolant fluid to air. A coolant heat exchanger is positioned along the engine cooling circuit in parallel to the remote coolant radiator. A waste heat recovery system comprises a working fluid circuit comprising a second pump. The coolant heat exchanger is positioned along the working fluid circuit and is structured to transfer heat from the engine coolant fluid to the working fluid. An expander is structured to convert energy from the heat transferred to the working fluid from the engine cooling fluid to mechanical energy. A condenser positioned downstream of the expander is structured to cool the working fluid.
US11125135B2 Modular system for exhaust heat recovery devices, tubular adapter for a modular system, and vehicle
A modular system for exhaust heat recovery devices has heat exchangers which differ by different external dimensions, in particular different cross-sections, and identically configured exhaust gas carrying housings into each of which one of the heat exchangers can be introduced. Various tubular adapters are adapted to the external dimensions of the heat exchangers and are used to fasten the associated heat exchanger at its connection ends to the exhaust gas carrying housing. Furthermore, a tubular adapter for a corresponding modular system and a vehicle which has a corresponding exhaust heat recovery device are provided.
US11125134B2 Diffuser assemblies and catalytic reactors comprising the same
Briefly, in one aspect, a catalytic assembly described herein comprises a module comprising at least one layer of structural catalyst bodies having an inlet face for receiving a gas stream. A diffuser assembly is arranged a distance of greater than 50 mm from the inlet face, the diffuser assembly including at least one diffuser element comprising a plurality of apertures, wherein a ratio of aperture length (L) in the gas stream flow direction to aperture hydraulic diameter (Da) is less than 1.
US11125130B2 Medicinal composition of extract of seed of Emblica officinalis and method of preparing the same
A composition having an extract of seed of Emblica officinalis. Methods of preparing extract of seed of Emblica officinalis. An amla seed blend composition having various ratios of extracts of seeds of Emblica officinalis. Nutraceutical or pharmaceutical methods for decreasing the total cholesterol, decreasing triglyceride, decreasing blood glucose level, enhancing HDL-C levels, increasing the HDL-C level to total cholesterol ratio, lowering LDL-C levels, decreasing the CRP level, decreasing the intima media thickening, reducing hair fall in mammals especially human beings. The extract of seed of Emblica officinalis, or the amla seed blend composition is more effective compared to extracts prepared from fruits of Emblica officinalis.
US11125118B1 System and method to improve boiler and steam turbine start-up times
A system for reheating a power generation system including a boiler and a mixer fluidly coupled to the boiler, a turbine first section operable to receive steam from the boiler at a first temperature. The turbine supplies steam at a second temperature to the boiler or mixer. The system also includes a first flow control valve operable to control a flow of steam through the turbine, and a sensor the sensor operable to monitor at least one operating characteristic in the boiler system. The system further includes a control unit configured to receive the monitored operating characteristic and control at least the first flow control valve, to control the amount of steam directed through the turbine.
US11125110B2 Method and system to supply oil to a multi-film oil damper
A multi-film oil damper has an annular damper cavity defined within a housing between a radially outward wall, a first radially extending side wall and a second radially extending side wall. Nested damper rings are disposed within the annular damper cavity for defining squeeze film annuli therebetween. The squeeze film annuli are fluidly connected in parallel to an inlet gallery.
US11125107B2 Rotor construction for high speed motors
A rotor shaft for a high speed motor that has a coating that is secured to a shaft body. The coating and the shaft body are formed from dissimilar materials. More specifically, the coating may be an alloy material, such as, for example, a copper alloy, while the shaft body may be a steel material. According to certain embodiments, the alloy material of the coating may be secured to at least a portion of a rotor body blank in a solution treated condition via a low temperature welding procedure. Additionally, the coating may be hardened, such as for example, through the use of an age hardening process. The coating and the rotor body blank may be machined together to form the rotor shaft. According to certain embodiments, such machining may configure the rotor shaft for use with a turbo-compressor that is configured for air compression.
US11125106B2 Synchronizing ring surge bumper
A synchronizing ring assembly includes a synchronizing ring portion that has a first and a second distal end, the first and the second distal end each form an integrated surge bumper.
US11125100B2 Turbine shroud segment with side perimeter seal
A turbine shroud segment of a turbine shroud for use in a turbine of a gas turbine engine is disclosed herein. The turbine shroud segment includes a carrier segment and a blade track segment. The carrier segment includes metallic materials. The blade track segment includes ceramic matrix composite materials. A seal is arranged between the carrier segment and the blade track segment.
US11125098B2 Blade outer air seal with face seal
A blade outer air seal includes a carrier, a ceramic seal segment, and a face seal. The ceramic seal segment is supported on the carrier and has first and second axial ends, first and second circumferential sides, an inner side, and an outer side. The face seal is carried on the ceramic seal segment at the first axial end. The face seal has a radial seal wall and a tongue that extends axially from the radial seal wall.
US11125093B2 Vane with L-shaped seal
A vane includes a ceramic vane piece that defines first and second vane platforms and a hollow airfoil section that joins the first and second vane platforms. A structural platform adjacent the first platform defines a radial seal slot. A seal has a radial leg and an axial leg. The radial leg extends in the radial seal slot and the axial leg extends in an interface between the structural platform and the first vane platform.
US11125092B2 Gas turbine engine having cantilevered stators
A gas turbine engine includes a case assembly and a stator segment. The case assembly defines a first slot having a first surface and a second surface. The stator segment includes a shroud body axially extends between a first body end and a second body end. A first flange extends into the first slot. The first flange has a first flange first side, a first flange second side, a first flange first surface and a first flange second surface each circumferentially extending between the first flange first side and the first flange second side. A first portion of the first flange first surface engages the first surface. A second portion of the first flange first surface. A third portion of the first flange first surface is spaced apart from the first surface.
US11125086B2 Rotor blade and axial flow rotating machine with the same
A rotor blade includes a blade body which has an airfoil shape and a shroud 57 which is formed in an end portion of the blade body. The shroud includes a shroud cover and a seal fin which protrudes from the shroud cover toward a radial outside and extends in a direction having a direction component in a circumferential direction. A front end of the seal fin extends in the circumferential direction and a base end of the seal fin extends in a direction having a direction component in the circumferential direction. A part of the seal fin in the circumferential direction forms a shift portion. An axial center position of a base end of the shift portion is different from an axial center position of a front end of the shift portion in the axial direction.
US11125084B1 Mining method
A block cave has a draw column height of at least 450 meters, a caved volume, a single extraction level and no undercut level, a plurality of drawbells extending upwardly from the extraction level to the caved volume, and a plurality of pillars separating the drawbells and supporting the rock mass above the extraction level. Each drawbell has a drawbell height of at least 25 meters. Each drawbell has the following profile when viewed from a direction perpendicular to a drawbell drive in the extraction level: a throat section having opposed parallel side walls extending upwardly from the extraction level, a tapered section above the throat section, and an undercut section above the tapered section.
US11125083B2 Focused formation sampling method and apparatus
A focused sampling method comprising: allocating fluid flow from a guard zone through a guard line and from a sample zone through a sample line, the guard zone being positioned at least partially concentrically about the sample zone and the guard zone, and the sample zone being in fluid communication with a formation; pumping, via a common line, a combined fluid flow from the formation through to a discard line for a pre-sampling time period, the combined flow comprising the fluid flow allocated from the guard zone into the guard line and the fluid flow allocated from the sample zone into the sample line; subsequent the pre-sampling time period, discontinuing flow from the guard line into the common line, such that the combined flow comprises only the fluid flow from the sample line; and introducing the combined flow comprising the fluid flow from the sample line into a sample chamber.
US11125082B2 Systems and methods for monitoring changes in a formation while dynamically flowing fluids
Methods and systems for measuring neutron sigma of downhole reservoir as a function of time for a predetermined testing volume are disclosed. The methods and systems of the present invention analyze the testing volume while maintaining the formation in the testing volume in an unchanged and undamaged state and while dynamically flowing fluids in and out of the testing volume. The systems and methods of the present invention are especially important in determining petrophysical information about the reservoir as well as the in-situ effect of substances on enhanced oil recovery.
US11125081B2 Terminal modules for downhole formation testing tools
A method includes positioning a downhole acquisition tool in a wellbore in a geological formation. The method includes operating a pump module to gather information for a fluid outside of the downhole acquisition tool that enters the downhole acquisition tool from a first flowline, a second flowline, or both while the downhole acquisition tool is within the wellbore. Operating the pump module includes controlling a valve assembly to a first valve configuration that enables the fluid to flow into the downhole tool via the first flowline fluidly coupled to a first pump module. Operating the pump module includes controlling a valve assembly to a second valve configuration that enables the fluid to flow into the downhole tool via the second flowline fluidly coupled to a second pump module, and selectively using a turnaround module or a crossover portion disposed between the first flowline and the second flowline to permit discharging the fluid from one flowline to the other flowline by actuating a valve associated with the turnaround module when the first pump module or the second pump module is not in use.
US11125076B1 Accelerometer based casing collar locator
A method for locating a casing collar in a well is disclosed. The method includes lowering an accelerometer into the well to slide along a casing wall of the well, generating a data log by measuring an accelerometer signal from the accelerometer as the accelerometer slides along the casing wall, analyzing, by a computer processor, the data log with respect to a predetermined data feature to detect an accelerometer signal event, and determining, by the computer processor and based on the accelerometer signal event, a location of the casing collar in the well.
US11125070B2 Real time drilling monitoring
A method, system, and computer readable medium for managing drilling operations include calibrating a drilling model using collected drilling data, and executing, during a drilling operation, a simulation on the drilling model to generate a predicted measurement value for a drilling property. During the drilling operation and from a drillstring, an actual measurement value for the drilling property is obtained. Based on the actual measurement value matching the predicted measurement value, the simulation is extended to generate a simulated state of the drilling operation during the drilling operation, and a condition of the drilling operation is detected. A notification may be presented based on the condition during the drilling operation.
US11125069B1 Underground coal gasification and associated systems and methods
Methods and systems for gasifying coal are disclosed herein. In some embodiments, a representative coal gasification system can comprise (i) an injection well extending from a ground surface to an underground coal gasification (UCG) reaction region of a coal seam; (ii) a production well spaced apart from the injection well and extending from the ground surface to the UCG reaction region, and (iii) conduits each extending from the ground surface to areas of the coal seam. End portions of the conduits within the coal can be laterally peripheral to the UCG reaction region. The conduits are configured to deliver a primary fluid from the ground surface to the primary region, the injection well is configured to deliver an oxidant gas to the UCG reaction region, and the production well is configured to deliver the product gas from the UCG reaction region to the ground surface.
US11125068B2 Channel fracturing method with alternative injection of conventional and capsule-type soluble proppants
The present invention relates to a channel fracturing method with alternative injection of conventional and capsule-type soluble proppants. The method includes the following steps: injecting pad fluid into a wellbore to break a formation and form fractures in the formation; alternately injecting a sand-carrying fluid containing conventional proppant and a sand-carrying fluid containing capsule-type soluble proppant into the wellbore in sequence to support fractures in the formation and continue to fracture the formation; injecting displacement fluid into the wellbore to completely displace the sand-carrying fluids in the wellbore into the fractures. The conventional proppant of less dosage is used. The capsule-type soluble proppant is less difficult to be developed and its solubility is sensitive to the fracture closure, which is conducive to the quick flowback after fracturing. The channel fracturing technology is more mature, reliable, and cost-effective, and the concept of forming high-conductivity channel is more simple and effective.
US11125066B1 Systems and methods to operate a dual-shaft gas turbine engine for hydraulic fracturing
Systems and methods to pump fracturing fluid into a wellhead may include a gas turbine engine including a compressor turbine shaft connected to a compressor, and a power turbine output shaft connected to a power turbine. The compressor turbine shaft and the power turbine output shaft may be rotatable at different rotational speeds. The systems may also include a transmission including a transmission input shaft connected to the power turbine output shaft and a transmission output shaft connected to a hydraulic fracturing pump. The systems may also include a fracturing unit controller configured to control one or more of the rotational speeds of the compressor turbine shaft, the power turbine output shaft, or the transmission output shaft based at least in part on target signals and fluid flow signals indicative of one or more of pressure or flow rate associated with fracturing fluid pumped into the wellhead.
US11125063B2 Accelerated interval communication using openholes
Described herein are methods for accelerating the start-up in SAGD type processes wherein the volume between the injector and the producer is preheated utilizing open-holes drilled between wells. The recovery of hydrocarbons is also improved due to a viscous fluid drive in the open-holes during SAGD operations.
US11125062B2 Flow monitoring system
A flow monitoring system comprising a first temperature sensor located at a reservoir input for measuring input temperature of a fluid in an enhance oil recovery system, a second temperature sensor located at a reservoir output for measuring temperature of output fluid and a processor in communication with the first temperature sensor and the second temperature sensor wherein the first temperature sensor and the second temperature sensor are operable to measure temperature data and communicate the measured data to the processor. The flow monitoring system further comprises a first flow monitor sensor located at the reservoir input for measuring flow of input fluid and the second flow monitoring sensor located at the reservoir output for measuring output fluid flow wherein the first and second flow monitoring sensors are operable to communicate measured flow data to the processor.
US11125061B2 Simultaneous injection and fracturing interference testing
Fluids are pumped into the wellbore by pulsing the fluids at a variable, positive pressure relative to the geologic formation until a first pressure threshold in the first fracture zone is satisfied. The pumping results in a first pressure profile in the first fracture zone representing pressures in the first fracture zone over time responsive to the pumping, and a second pressure profile in the second zone representing pressures in the second zone over time responsive to the pumping. In response to determining that the first pressure threshold is satisfied, the fluids are ceased to pump into the wellbore for a duration of time. After the duration of time, the fluids are re-pumped into the wellbore by pulsing the fluids at the variable, positive pressure relative to the geologic formation until a second pressure threshold in the first fracture zone in the first fracture zone is satisfied.
US11125059B2 Downhole-type tool for artificial lift
A downhole-type tool includes a casing joint, a housing affixed to the casing joint, and an electric stator encased in the housing. The housing defines an inner bore and has an inner bore wall that is continuous with an inner wall of the casing joint. The housing is sealed against ingress of cement to the stator. The electric stator is configured to drive an electric rotor-impeller. A flow of cement can be received with an outer surface of the housing. The flow of cement can be directed into an annulus between the housing and a wall of a wellbore. The casing joint can be cemented in the wellbore.
US11125058B2 Method of wellbore operations
A method of estimating a real time production flowrate from a well by estimating a real time flowrate of a marker fluid in the well, and comparing the estimated flowrate with a baseline marker fluid flowrate; where the baseline marker fluid flowrate correlates to baseline production fluid flowrate. The baseline marker fluid flowrate is obtained by introducing an amount of a marker fluid in the well, monitoring the time over which the marker fluid travels a set distance, and estimating a flowrate of the marker fluid based on the monitored time and amount of marker fluid. The real time production flowrate is obtained by extrapolating the baseline production fluid flowrate by an amount derived from a comparison of the baseline and real time marker fluid flow rates.
US11125057B2 Downhole perforator having reduced fluid clearance
An apparatus comprises a first cluster of perforator guns positioned circumferentially around a central longitudinal axis at a first axial position, wherein the first cluster is configured in a closed position while the apparatus is being lowered to a perforator position in a wellbore. After the apparatus is lowered to the perforator position, the first cluster is to move to an expanded position such that the perforator guns are moved closer to a target that is to be perforated.
US11125054B2 Heating and anti-waxing apparatus and device for reducing viscosity under the oil well pump
A device for heating oil and for reducing viscosity of the oil in an oil well is disclosed. The device comprises a pipe structure, a sucker rod, a three-way connector, a small pump cylinder, a small plunger, and a heating mechanism. The three-way connector is located below the pipe structure and has an upper end and two lower ends. The upper end of the three-way connector is connected to a bottom end of the pipe structure, and the two lower ends of the three-way connector comprises a first lower end which is coaxial with the oil pipe and a second lower end which is non-coaxial with the pipe structure. The first lower end of the three-way connector is connected to the small pump cylinder which is coaxial with the pipe structure. The second lower end of the three-way connector comprises a bypass port and a check valve. The sucker rod extends inside the pipe structure and extends through the upper end and the first lower end of the three-way connector and extends to a bottom end of the small pump cylinder. A bottom end of the sucker rod is provided with a small plunger, and the small plunger and the small pump cylinder constitute an axial sliding sealed fit. The heating mechanism extends along the sucker rod to the bottom end of the sucker rod to provide heating to crude oil in the oil well.
US11125051B2 High strength high temperature float equipment
A downhole tool comprising a cylindrical housing, a sleeve disposed in the cylindrical housing, forming an annular space between the sleeve and the cylindrical housing, and a tool cement composition disposed in the annular space, wherein prior to setting the tool cement composition comprises a cement, sand, a silicon-containing material, a dispersant, and water, and wherein upon setting the tool cement composition provides an annular seal having a fluid leakage of less than 750 ml over 15 minutes at a pressure of 7500 psi and a temperature of 400° F.
US11125049B2 Superhard material enhanced choke cage
A choke valve for regulating a flow rate, a pressure or other parameters of a fluid flow may comprise a choke cage comprising a passage therethrough and a choke plug slidable within the passage. At least one conduit may pass through a wall of the choke cage and into the passage such that as the choke plug slides it may at least partially cover the conduit. A ring comprising a sintered superhard material may be secured within the conduit enhancing durability and wear resistance of the choke cage. A method for manufacturing such a choke cage may comprise subjecting grains of superhard material to high-pressure, high-temperature conditions sufficient to sinter at least some of the grains together, hollowing out the sintered superhard material to form a ring, and securing the ring within a conduit.
US11125045B2 Frac plug system with integrated setting tool
A frac plug system downhole tool and method of securing a frac plug system in a wellbore. A mandrel extending from a first end to a second end. A setting assembly is on the first end of the mandrel and is movable along the mandrel. An anchor is at the second end of the mandrel and is expandable to engage the wellbore. A gas generates a pressure to move the setting assembly along the mandrel to expand the anchor at the second end of the mandrel.
US11125040B2 Method and apparatus for clearing a well bore
Methods and apparatuses are provided for clearing a wellbore using a component for milling and a component for suctioning within a wellbore. Obstructions such as ball frac seats, bridge plugs, or formation material can be milled within a wellbore. As a result, larger, unrestricted, diameters can be obtained within the liner/wellbore. The cleared wellbore can allow for various remedial tools to be run into the liner/wellbore. In addition, the milled particles can be suctioned/vacuumed up and can be pumped/pushed to surface in an underbalanced fashion. In some embodiments, this can be achieved by incorporating a bottom-hole pump or a venturi component into the bottomhole assembly. The system can be deployed using a spoolable single or multi-conduit coiled tubing system and can be configured as a well intervention or work-over technology. In some embodiments, the clearing equipment can be temporary or mobile.
US11125038B2 Downhole surveying and core sample orientation systems, devices and methods
A method and system of validating orientation of a core obtained by drilling the core from a subsurface body of material, the method including: a) determining that vibration from drilling is below a nominated level, b) recording data relating to orientation of the core to be retrieved, the data recorded using a downhole core orientation data recording device, c) separating the core from the subsurface body, and d) obtaining from the core orientation data recording device an indication of the orientation of the core based on the recorded data obtained when the vibration from drilling was below the nominated level and before the core was separated from the subsurface body. A method of determining orientation of a core sample obtained by drilling from aboveground into a subsurface body includes recording data relating to a core sample being obtained by the drilling when vibration from drilling is below a threshold; providing an input to a user operated communication device; the communication device identifying a time of the user input to the communication device; retrieving the data gathering device and core sample; communicating between the communication device and the retrieved data gathering device; determining from indications provided by the retrieved data gathering device an orientation of the core sample.
US11125032B2 MPD with single set point choke
Systems and methods for conducting subterranean operations and managing a bottom hole pressure (BHP) in a wellbore include receiving a first signal at a controller indicating a drill pipe connection or disconnection is beginning and switching the controller from a first control mode to a second control mode. The bottom hole pressure (BHP) in the wellbore is determined, a BHP set point is determined by the controller, and a first pressure set point is sent to a single set point choke (SSPC). The BHP is maintained by comparing the determined BHP to the BHP set point and adjusting the first pressure set point based on the comparison. The controller receives a second signal after the drill pipe connection or disconnection is complete prompting the controller to switch back to the first control mode.
US11125031B2 Receiving pit and trench for a drilling fluid disposal system
A drilling fluid waste disposal system includes a trench having an outlet, a receiving pit in fluid communication with the outlet of the trench, a first weir in the receiving pit, and a second weir in the receiving pit. The outlet of the trench feeds a slurry to the receiving pit, such that the slurry is at least partially separated into a liquid-enriched portion and a fluid-enriched portion using the first and second weirs. The system also includes a pump configured to draw the liquid-enriched portion of the slurry from the receiving pit and configured to introduce the at least some of the liquid-enriched portion of the slurry back into the trench. The system further includes a drying apparatus in communication with the receiving pit configured to receive the solids-enriched portion of the slurry from a second position in the receiving pit.
US11125030B2 Guiding system on a hybrid lifting tower, and hybrid lifting tower
A guiding system for a hybrid lifting tower includes: one or more guiding structures configured to be positioned along the hybrid lifting tower. The guiding structures comprise main parts adapted to be attachable to the hybrid lifting tower. The main parts are adapted for passage of pipes. One of the guiding structures is connected to at least one other adjacent guiding structure and/or to a tower ending structure by at least one structural connecting member. A hybrid lifting tower including the guiding system is also disclosed.
US11125027B2 Flat pack having spacer between tubes
A flat pack (1) for operating a downhole tool or sensor includes a plurality of tubes (3a, 3b); a spacer (2) disposed between the tubes (3a, 3b); and a jacket (4) encapsulating the tubes (3a, 3b) and the spacer (2). The tubes (3a, 3b) and the spacer (2) are positioned in the jacket (4) in a side-by-side arrangement. The tubes (3a, 3b) and the spacer (2) are not twisted along the flat pack (1).
US11125025B1 Wireline cased-hole standoff
The present invention relates to a wireline cased-hole standoff (WCSO) for installation on a wireline cable of a wellbore logging tool. In embodiments, WCSO may be capable of significantly reducing wireline cable drag in a cased-hole section of a well or wellbore as well as reduce logging tensions and improve force transmission from wellbore surface to logging tool cable head during wireline logging operations. In one embodiment, WCSO comprises two cable insert halves, two opposing WCSO body halves (an upper body and a lower body), and two outer shells (an upper low-friction shell and a lower low-friction shell). Such components may be fastened together onto the wireline cable using screws, bolts, dowel pins, spigots, or any combinations thereof.
US11125023B2 Bend restrictors
An element for a bend restrictor including a first part and a second part which together provide a cavity for receipt of a flexible pipe, in use, the two parts are pivotably connected together at a first portion thereof and are releasably coupled or couplable together at a second portion thereof. Successive elements may be secured together to form a bend restrictor.
US11125021B2 Customized drilling tools
A downhole cutting tool has a body that includes a cutting end, a connection end, a longitudinal axis extending axially through the body, and a gradient composition having one or more gradients. Each gradient extends a distance in a respective direction through the body. Each gradient has changing amounts of a first material in the gradient composition along the respective direction in which the gradient extends.
US11125013B1 Screen enclosure frame
A screen enclosure frame can include a post rail having a post rail body with front, rear, right, and left sides defining a post rail cavity, a first flange extending from and perpendicularly to the right side and having a first spline groove, a second flange extending from and perpendicularly to the left side and having a second spline groove. Optionally, a frame can further include a rear bracket for securing the post rail to a floor, and optionally, can further include at least one side bracket for further securing the post rail to a floor. Also optionally, a frame can further include a track rail having a track rail body with proximate, distal, and upper sides, an upper flange extending perpendicularly from the upper side and having an upper spline groove, and a lower flange extending perpendicularly from the upper side. The upper and lower flanges can be coplanar.
US11125001B2 Hinge comprising a biasable flat spiral spring
The invention relates to a hinge (10) comprising a pivotable hinge part (12), a fixed hinge part (14) and a biasable spring element, wherein the pivotable hinge part (12) is pivotably mounted on the fixed hinge part (14) about a pivot axis (S) via a bearing (16), and wherein the biasable spring element is arranged on the bearing (16). The invention is characterized in that the spring element is designed as a flat spiral spring (18).
US11125000B2 Urging structure for lid
An urging structure for a lid includes a spring member having one spring end linked to a supply-port-forming member and the other spring end linked to a lid, and provided so as to be most elastically deformed at an intermediate position between a closed position and a maximum open position of the lid to urge the lid. The spring member is linked to the lid in such a way so as to vary a distance between the other spring end and a turning center of the lid, and the distance stays constant when the lid is in the closed position and in the intermediate position, increases in a process of moving from the intermediate position to the maximum open position, and becomes maximum when the lid is in the maximum open position.
US11124995B2 Push-lifter for vehicle
A push-lifter for a vehicle drains water entered into an inside through a drainage portion. A lower portion of a case includes a peripheral wall, a bottom wall, and an air vent portion opening at a center of the bottom wall. A cap includes a bottom portion located away from the bottom wall, and forming a first air flow channel communicating with the air vent portion between the bottom portion and the bottom wall; a side portion located away from the peripheral wall by continuing to the bottom portion, and having a cylindrical shape forming a second air flow channel communicating with the first air flow channel between the side portion and the peripheral wall; and a drainage portion located on a lower side in an attachment state of the case relative to a vehicle body side, communicating with the second air flow channel, and opening toward the bottom portion.
US11124991B2 Lock for a tamper resistant assembly
A tamper-resistant lock assembly comprising a plate having a slot for receiving a key, the slot extending through the plate from an opening in a front face thereof to an exit in an opposing rear face thereof, the opening having a first profile and the exit having a second, different profile, the key comprising a shaft having a bit extending therefrom, the bit being formed of a shape memory material and being pre-configured such that its cross-sectional shape in its temporary form matches the first profile and the bit can be inserted through the slot via the opening and, upon application of a predetermined external stimulus, returns to a permanent form in which its cross-sectional shape matches the second profile and the bit can be retracted from the slot via the exit.
US11124987B2 Tent with convenient locking mechanism for telescopic leg tube
A tent with convenient locking mechanism for telescopic leg tube includes a tent rack and support legs attached to an underside of the tent rack. The support legs include a fixed leg tube, a movable leg tube movable up and down within the fixed leg tube, and a locking mechanism defining movement of the movable leg tube. The locking mechanism includes a locking plate movably disposed on the fixed leg tube and movable forward and backward relative to the movable leg tube, and a locking member capable of locking the movable leg tube by linkage with the locking plate. Through the coaxial connection between the locking plate and the locking member, the structure is simple, the connection reliability is high, and the operation is convenient, so that the locking and unlocking may be realized only by rotating the locking plate.
US11124982B2 Pool cleaner with drive motor navigation capabilities
A pool cleaner for cleaning a pool, the pool cleaner may include a filtering element for filtering fluid; at least one sensor for sensing an actual yaw of the pool cleaner and an actual orientation of the pool cleaner; at least one steering element that is configured to move the pool cleaner along a cleaning path during a cleaning process of a certain region of a sidewall of the pool; wherein the cleaning path comprises a cleaning path segment that has a cleaning path segment yaw that is a non-vertical yaw; wherein the cleaning path comprises less than a predetermined number of turns; wherein the predetermined number of turns is associated with another cleaning path that mostly includes vertical yaw cleaning path segments; and a controller that is configured to control the at least one steering element, based on the actual yaw of the pool cleaner.
US11124979B2 Methods and means for improving the interior surfaces of pools
A liner for finishing an interior pool surface is disclosed, the liner including a water resistant material; and a predetermined decorative pattern or design, wherein the pattern or design is applied onto at least one side of the liner. The patterns and designs may be either two- or three-dimensional, and can include iridescent and/or reflective inks, reflective beads and/or pebbles and so on, and be arranged in either predetermined or randomized arrays. A customized pool skimmer face plate system is also disclosed, including at least a skimmer face plate cover; a template having a size and shape proportional to the size and shape of the face plate cover; a water-resistant material bearing a color, pattern, or design; and a wrapper created from the water-resistant material using the template that complements neighboring colors, patterns and designs surrounding the skimmer face plate installation location.
US11124976B2 Kit for spacing and leveling of tiles and methods of use
A kit for spacing and leveling tiles such as marble, granite and ceramics, applied to the edges of the parts for leveling and spacing of tiles, through an innovative construction device with a leveling base, spacer rod, crosshead and wedge-type leveler that has as the purpose of keeping the spacing and leveling of the tile pieces, correcting the differences of level, bringing advantages of greater flexibility of use without loss of application quality, agility in the laying of cladding panels, practicality and multifunctionality.
US11124969B2 Roof seaming apparatus with multiple tooling stations in a modular format
An apparatus for seaming roof assemblies having a modular provision of tooling stations is disclosed herein. Such an apparatus includes multiple tooling stations that may be added or removed on demand in order to facilitate different degrees of seaming engagements as needed. Such a device utilizes horizontal rollers to provide seaming of overlapping roof panel ends to reduce the potential for separation thereof after building erection has been undertaken, further impeding water egress therethrough and wind updraft damage, at least, as well. The modular device thus provides a manner of selecting specific numbers of horizontal rollers for seaming contact with metal roof panels, thereby allowing for different types of panels and end structures thereof, as well as reduce the propensity for jamming of such multiple rollers during utilization. The method of utilization of such a modular device is encompassed herein as well.
US11124967B2 Reroofing shingle
An exemplary roofing system for covering an existing shingle roof with an exposure height measured between bottom edges of adjacent courses is disclosed. The roofing shingle system comprising includes a plurality of reroofing shingles. The reroofing shingles have an exposure portion extending from a top edge to a bottom edge for a height that is at least the exposure height of the existing shingle roof. At least one course of reroofing shingles is installed on at least one course of the existing shingle roof, wherein the course of the existing roof is covered by the at least one course of reroofing shingles. The top edge of the reroofing shingles abuts the bottom edge of the adjacent course of existing shingles.
US11124958B1 Debris catching device for open manhole
A debris catching device suitable for an open manhole includes a basket having a diameter slightly less than that of the manhole aperture and a durable flange secured to the periphery of the basket opening. The flange has a plurality of lifting hooks secured to a top face opposite the bottom of the basket. The interior of the rubber flange is reinforced with a ring running throughout the middle circumference thereof.
US11124957B2 Primed siphonic flush toilet
A siphonic flush toilet system and method of priming the same having a toilet bowl assembly comprising at least one jet flush valve assembly and at least one rim valve; and bowl having a rim and a jet defining at least one jet channel, the at least one jet channel having an inlet port and a jet outlet port configured for discharging fluid to a sump area, wherein the sump area is in fluid communication with a trapway. The bowl has a closed jet pathway including the jet channel and extending from the jet flush valve assembly outlet to the jet channel outlet port to maintain the jet channel in a primed state with fluid from the jet flush valve assembly so as to assist in preventing air from entering the closed jet pathway. Flush valves are also disclosed having back-flow preventer mechanisms and/or at least partly flexible valve covers for use with the toilet systems and methods herein.
US11124956B2 Flush toilet
The water conduit has: a first water-guiding portion extending from a water supply portion, where the flush water is supplied to the water conduit, to a first spout port located on one of right and left sides of the bowl portion; and a second water-guiding portion extending from the water supply portion to a second spout port located on the other side. The water supply portion is located at a position on the one side. The flush water is supplied to the water supply portion in a direction from the water supply portion toward the first water-guiding portion. A collision wall is provided on a way of the first water-guiding portion such that at least a part of the supplied flush water collides with the collision wall. The at least part of the flush water having collided with the collision wall is supplied to the second water-guiding portion.
US11124952B2 Valve rod isolation apparatus and assembly
A valve rod isolation apparatus for reducing valve rod exposure to moisture and debris in a subsurface environment, wherein the valve rod is housed within an isolation sleeve that is sealed top and bottom.
US11124948B2 Working machine
A working machine includes a traveling motor having a first speed and a second speed, an operation detector device to detect an operation extent of a traveling operation member, a controller device having an automatic decelerator portion to perform an automatic deceleration for reducing a revolving speeds of the traveling motor, and a storage device storing first control information representing a relation between a first-speed regulating revolving speed corresponding to the operation extent at the first speed and a second-speed regulating revolving speed corresponding to the operation extent at the second speed. The automatic decelerator portion obtains the first-speed regulating revolving speed based on the first control information and the operation extent when the traveling motor is at the second speed, and performs the automatic deceleration when the motor revolving speed is equal to or less than the first-speed regulating revolving speed.
US11124944B2 Arrangement in articulated joint of work machine
An arrangement in an articulated joint of a work machine wherein at least two machine parts are rotatably fastened to each other with a conical sleeve shaft joint in which a conical sleeve is pressed against a conical sleeve shaft by an intermediate plate. This intermediate plate includes members for receiving a channel and for connecting the channel to a lubrication channel. The members are formed on the intermediate plate's outer casing which connects a counter-surface to a pressing surface on the side of the conical sleeve to provide a continuous passage for the conical sleeve shaft of the articulated joint.
US11124942B2 System for controlling the position of a work implement
A system for controlling a ground engaging work implement includes a machine position sensor, a work surface position sensor, a work implement position sensor, and a controller. The controller determines the position of the machine, determines the topography of the work surface, determines a location of a pre-task trigger location adjacent the task start location, and determine a position of the lowest surface of the ground engaging work implement. The controller generates traverse signals to propel the machine from the task end location towards the task start location, generate work implement height signals to maintain the lowest surface of the ground engaging work implement at or above the traversing threshold height as the machine travels from the task end location towards the task start location, and generate work implement lowering signals to lower the work implement to the pre-task threshold height after the machine passes the pre-task trigger location.
US11124941B2 Motor grader with comfort steering
A motor grader having an articulated frame that includes a first front frame portion and a second rear frame portion that is angularly moving with respect to the first frame portion around a pivoting axis. A front steering system includes front wheels that are movable around a steering axis with respect to the articulated frame and around leaning axis transversal to the steering axis so that the front wheels may turn and lean during steering operation. A control unit receives as an input a control signal representing a steering angle and outputs steering actuation commands for an hydraulic actuating system of the front steering system and for a hydraulic actuating system of the articulated frame realizing synchronized and proportional angular movements of the front wheels around the steering and leaning axes and of the first and second portions of the frame around the pivoting axis.
US11124932B1 Retroreflective traffic stripe for both dry and wet weather conditions
A retroreflective traffic stripe comprising an exposed top surface containing a widely spaced repeating pattern of linear light-turning prisms over a bottom surface containing two different types of cube corner retroreflective prisms. The light-turning prisms are configured to use refraction and reflection to redirect light from distant headlights into a downward direction onto the bottom surface of the traffic stripe. Cube corner retroreflective prisms of the first type on the bottom surface have optical axes which are substantially perpendicular to the surfaces of the traffic stripe and are located substantially beneath such light-turning prisms. Cube corner retroreflective prisms of the second type on the bottom surface have optical axes tilted toward the distant headlights by at least 25 degrees and are located substantially between such light-turning prisms. Under dry road conditions, the light-turning prisms and first type of cube corner prisms provide unprecedented levels of retroreflectivity. Under wet road conditions, the second type of cube corner prisms provide high levels of retroreflectivity.
US11124930B1 Construction method for improving expansive soil embankment using phosphogypsum and microbe
Design and construction method for improving an expansive soil embankment using phosphogypsum and microbes, including the following steps: (1) placing Bacillus pasteurii into a culture medium to prepare a microbial solution, and mixing urea and calcium chloride with water to prepare a cementing fluid; (2) mixing and stirring a mixture, the microbial solution and water, adding the cementing solution well, and mixing the cementing fluid with water to prepare an improved mixture; and (3) leveling and compacting original ground, laying geomembranes, the improved mixture, and geogrids, laying a last layer of geomembrane on the top surface of the embankment after pavement of the embankment, and paving a roadbed. The design and construction method can meet construction requirements of highway embankment projects and roadbed projects of first-grade and other grades of roads, and consume solid waste phosphogypsum.
US11124929B2 Screed assembly associated with machine
A screed assembly associated with a machine includes a screed disposed at a rear end of the machine and at least one control panel assembly coupled to the screed. The at least one control panel assembly includes a control panel including a recess and a support structure adapted to be removably coupled with the control panel. The support structure includes a first structure defining a first axis. The first structure is movable along the first axis and rotatable about the first axis. The support structure also includes a second structure movably coupled to the first structure. The second structure defines a second axis substantially parallel to the first axis. The second structure is rotatable about the second axis and includes a locking member adapted to be slidably received within the recess of the control panel for removably coupling the control panel with the support structure.
US11124926B2 Pavement repair method and system thereof
A method for repairing/treating a pavement with the use of a rheologically modifier is disclosed. The method comprises first applying a layer of a rheologically modifier composition comprising a rejuvenating component onto the top surface of the pavement that needs repair, then applying a second layer of an asphaltic binder onto the rheologically modifier layer. The second layer of asphaltic binder effectively seals the rheologically modifier layer with the rejuvenating component for intimate contact with the top pavement surface, thus penetrating the surface layer to extend the life of the pavement surface, arresting the deterioration of visco-elastic properties and restoring some of those properties.
US11124924B2 Steel girder pavement structure for high-speed road for bicycle, and roadbed pavement method therefor
A steel girder pavement structure (100) for high-speed road for bicycle, and a roadbed pavement method therefor. The pavement structure (100) includes a top plate (10), a bottom plate (20), a web (30), stiffening plates (40), and decorative plates (50). A composite roadbed is paved on a surface layer of the top plate (10). The composite roadbed includes, from bottom to top, a substrate, a primer coating and quartz sand (101), a waterproof coating (102), an anti-slip coating and quartz sand (103), a wear-resistant coating (104) and an anti-ultraviolet coating (105). The roadbed pavement method includes: paving various layers of materials on a surface of the steel plate from bottom to top. The high-speed road for bicycle is easy to seamlessly connect to a transportation hub, and has a high comfort degree.
US11124923B2 Method and track-building machine for renewing sleepers of a track formed from rails and the sleepers
In a method for renewing sleepers of a track formed of rails and the sleepers, the placement of skids, which support a machine frame of a track-building machine on the sleepers, is preceded by the machine frame being intermediately supported on the sleepers. The two rails are then distanced from one another, while avoiding a breakage separation, in a track section that includes both the region of the skids and the intermediate support. After supporting the machine frame on the skids, the intermediate support is lifted off the sleepers and work is begun.
US11124918B2 Fluorine-free fibrous treating compositions including a polycarbodiimide and an optional paraffin wax, and treating methods
A fluorine-free composition includes at least one polycarbodiimide compound derived from a carbodiimidization reaction of a carbodiimidization reaction mixture comprising at least one oligomer, wherein the oligomer comprises at least one isocyanate end group and at least two repeating units, wherein each of the at least two repeating units comprises at least one hydrocarbon group having at least 16 carbon atoms. The composition may also include at least one paraffin wax. Such compositions are useful for treating fibrous substrates to enhance their water-repellency.
US11124917B2 Portable textile treatment device with image sensor and illumination system for textile classification
A portable textile treatment device includes a heatable soleplate for contacting and treating the textile, an image sensor and an illumination system. The image sensor has an active surface sensitive and takes an image of the textile, and the illumination system has a light source that illuminates a portion of the textile when the image is being taken. The portable device also includes a control unit configured to execute an algorithm stored in the portable device for obtaining a classification of the textile based on taken image, and based on the classification for controlling at least one operating parameter of the portable textile treatment device. The image sensor and/or light source are oriented with respect to the surface of the heatable soleplate, with an absolute value of an orientation angle being in the range from 15 to 70° C.
US11124916B2 Laundry treating appliance with load surface area detection
The invention relates to a laundry treating appliance and method for controlling the operation of the laundry treating appliance by determining the surface area of the laundry based on image data of the laundry.
US11124915B2 Door-lock with a hook detection slider with additional security
A door-lock for household appliances, comprising a casing (12) having an opening (14) for the insertion of a hook (15) carried by a door of a household appliance, a cam (16) rotatable between a retaining position and a release position, a locking slider (20) cooperating with said cam (16) and movable between an unlocking position and a locking position, wherein in the locking position the locking slider (20) locks the cam (16) in the retaining position, an electro-magnetic device comprising a housing (70) and a locking pin (28) for locking the locking slider (20) in the locking position, a door sensing slider (32) movable between an open door position and a closed door position, and a hook sensing slider (74) movable between an extracted position and a retracted position, wherein the hook sensing slider (74) has a projection (82) that prevents the movement of the door sensing slider (32) from the open door position towards the closed door position when the hook sensing slider (74) is in the extracted position, wherein the hook sensing slider (74) has a safety portion (86) that, in an abnormal condition in which the integrity of the cam support (11) is compromised, comes into contact with a side (94) of the housing (70) and prevents movement of the hook sensing slider (74) from the extracted position towards the retracted position.
US11124909B2 Lighted magnifying needle threading fixture
A lighted magnifying needle threading fixture is provided. The threading fixture includes an elongated body with a magnifier lens at one end, a rest surface defined at the other, and therebetween a downwardly protruding support terminating in two support feet, as well as a battery compartment. The magnifier lens has a diameter of between about 30 mm and about 60 mm. The support feet and rest surface support the magnifier between about one and about four inches above a planar surface. The downwardly protruding support has a needle receiving socket beneath the magnifier, and an LED between the magnifier and the socket. The magnification strength allows a needle protruding from the socket to be in focus if viewed from above at a distance of between about 4 and 6 inches. The fixture is balanced on a planar surface so that the socket, LED and magnifier are accessible from both below and above.
US11124908B2 Thread feeding device of decorative stitch sewing machine
The present invention provides a thread feeding device of a decorative stitching sewing machine. The thread feeding device feeds a needle thread, an upper looper thread, and a lower looper thread in the amounts required for sewing one stitch such that the position of a stitch looping point of the threads changes. The thread feeding device includes: a thread accumulator 500 having thread accumulating elements 13a to 13d and 14a to 14d which measure the thread accumulation amounts of predetermined lengths of the needle thread, the upper looper thread, and the lower looper thread, and thread accumulation amount control elements 15 to 18 which adjust the amounts of the threads required for sewing one stitch in an increasable and decreasable manner within the range of thread accumulation amounts of predetermined lengths at the time of fabric feeding, and which release the threads to a stitch forming device when a stitch is formed; a thread feed drive mechanism 600 which drives each of the elements; and a thread feed control unit having a program which dives the thread accumulation amount control elements for each stitch to feed the threads in an increasable and decreasable manner so as to increase or decrease the threads within the range of a total thread feeding amount that is maintained constant, including a fabric feeding amount, a fabric thickness and an overlocking width, thereby to change the position of the stitch looping point of the needle thread, the upper looper thread, and the lower looper thread, thus controlling the decorative stitching according to a stitching decoration pattern.
US11124906B2 Metal fiber nonwoven fabric
One object of the present invention is to provide a metal fiber nonwoven fabric having high homogeneity, and the present invention provides a metal fiber nonwoven fabric in which metal fibers are bonded to each other having a coefficient of variation (CV value) of a basis weight in accordance with JIS Z 8101 (ISO 3534: 2006) per 1 cm2 of 10% or less.
US11124905B2 Process for manufacturing mineral wool
A process for manufacturing insulating products based on mineral wool includes applying, on mineral wool fibers, a binding composition containing (a) at least one carbohydrate selected from reducing sugars, non-reducing sugars, hydrogenated sugars, and a mixture thereof, and (b) at least one crosslinking agent for crosslinking the carbohydrate(s). The process also includes evaporating the solvent phase of the binding composition and thermal curing the non-volatile fraction of the composition. Further, added to the binding composition, preferably immediately before the application thereof on the mineral wool fibers, is an oil-in-water emulsion including water, a mineral oil, at least one nonionic surfactant and a water-soluble polysaccharide. The mean diameter of the oil droplets of the stable oil-in-water emulsion, determined by laser diffraction particle size analysis, is greater than 5 μm.
US11124903B2 Production device and production method for magnetic fiber blended conformal yarns, and magnetic fiber blended conformal yarns
Disclosed are a production device and a production method for magnetic fiber blended conformal yarns. Fed roving includes at least two types of fiber blended roving, including magnetic fibers. By adding left and right magnets on the outer circumference of a middle roller, the magnetic fibers in first strands obtained by untwisting and drawing the roving in a rear drawing zone are dispersed within a certain width range; by adding an adsorption roller that rotates synchronously with a front rubber roller to the front part thereof, and adding an adsorption magnet to the outer circumference of a certain width of an adsorption roller, the magnetic fibers in second strands obtained by drawing the first strands in a front drawing zone are adsorbed upward, the fibers except the magnetic fibers in the second strands are strongly twisted close to the lower part of the front roller and located at the cores of final yarns, and the magnetic fibers are weakly twisted close to the upper part of the adsorption roller and located at the outer parts of the final yarns, thereby forming overall yarn structures that are tight inside but loose outside.
US11124898B2 Method of making bicomponent or multicomponent fibers
Disclosed herein are systems, devices, and method for forming bicomponent or multicomponent nanofibers.
US11124897B1 Biodegradable core-shell fibrous scaffolds for controlled oxygen and drug release
Coaxial electrospinning is used to encapsulate a chitin-lignin based hybrid gel with polycaprolactone (PCL). Antibiotics and/or other bioactive agents loaded into the core and/or shell layer of the fibrous platform are released in a controlled and sustained manner that effectively inhibits both Gram-positive and Gram-negative bacteria without cytotoxicity to mammalian cells. The PCL shell layer provides longer life for the CL gels in a wet environment and allows sustainable drug release. The PCL-coated CL nanofiber scaffolds can be loaded with antimicrobial nanoparticles, antibiotics, oxygen-releasing agents, antioxidants and/or growth factors that promote healing when used as a controlled drug release dressing for chronic wounds, such as diabetic ulcers.
US11124896B2 Polymeric materials
Additives such as colourants may be incorporated into polymeric materials such as polyesters, such as in polyester fibre production, by use of a liquid formulation comprising colourant and a vehicle. The vehicle may comprise a functionalised pentaerythritol, trimethylolpropane or trimellitate. The liquid formulation is suitably contacted with the polymeric material in a melt processing apparatus.
US11124892B2 Defect reduction in seeded aluminum nitride crystal growth
Bulk single crystal of aluminum nitride (AlN) having an areal planar defect density ≤100 cm−2. Methods for growing single crystal aluminum nitride include melting an aluminum foil to uniformly wet a foundation with a layer of aluminum, the foundation forming a portion of an AlN seed holder, for an AlN seed to be used for the AlN growth. The holder may consist essentially of a substantially impervious backing plate.
US11124889B2 Methods for fabricating and etching porous silicon carbide structures
The present disclosure relates to methods of fabricating a porous structure, such as a porous silicon carbide structure. The methods can include a step of providing a structure to be rendered porous, and a step of providing an etching solution. The methods can also include a step of electrochemically etching the structure to produce pores through at least a region of the structure, resulting in the formation of a porous structure. The morphology of the porous structure can be controlled by one or more parameters of the electrochemical etching process, such as the strength of the etching solution and/or the applied voltage.
US11124883B2 Method for inhibiting metal corrosion using a benzimidazole-containing composition
Corrosion inhibiting compositions and methods of inhibiting corrosion on a metal surface commonly used in the petroleum industry is disclosed. The corrosion inhibitor includes at least one azole, at least one polypeptide derived from amino acid, at least one intensifier preferably from metal halides, and at least one surfactant. The methods include combining effective amounts of the corrosion inhibitor composition and contacting a metal surface in aqueous environment commonly found in oil and gas industry. The composition is very effective against corrosion of metals in contact with aqueous media when used in a dosage as low as 50 ppm.
US11124882B2 Benzimidazole composition for metal corrosion inhibition
Corrosion inhibiting compositions and methods of inhibiting corrosion on a metal surface commonly used in the petroleum industry is disclosed. The corrosion inhibitor includes at least one azole, at least one polypeptide derived from amino acid, at least one intensifier preferably from metal halides, and at least one surfactant. The methods include combining effective amounts of the corrosion inhibitor composition and contacting a metal surface in aqueous environment commonly found in oil and gas industry. The composition is very effective against corrosion of metals in contact with aqueous media when used in a dosage as low as 50 ppm.
US11124881B2 Hydrophilic metal surface treatment agent
The objective of the present invention is to provide a hydrophilic metal surface treatment agent by which a water-repellent property can be given to a metal surface with suppressing a corrosion and a discolorment of the metal, a method for treating a surface of a metal by using the hydrophilic metal surface treatment agent, a synthetic intermediate compound of a branched glycerol derivative as an active ingredient of the hydrophilic metal surface treatment agent, and a method for efficiently producing the synthetic intermediate compound. The hydrophilic metal surface treatment agent of the present invention is characterized in comprising the branched glycerol derivative represented by the following formula (I) as an active ingredient. wherein R1 is a hydrocarbon group having a carbon number of 10 or more and 30 or less, X is S or a carbonyl group, Y is an n+1 valent linker group, n is an integer of 1 or more and 5 or less.
US11124878B2 Gas supply member with baffle
A gas supply member includes a first side opposite a second side and an inner surface defining a first opening extending between the first and second sides. The gas supply member includes a third side orthogonal to the first side, the third side includes a first extension that has a face partially defining the second side, and the first extension includes a first plurality of holes extending through the first extension to the face. The gas supply member includes a fourth side opposite the third side, the fourth side includes a protrusion that has a face partially defining the second side. The gas supply member also includes a baffle disposed adjacent to the inner surface, the baffle includes a first portion extending from the inner surface and a second portion attached to the first portion, and the second portion orthogonal to the first portion and parallel to the third side.
US11124877B2 Film forming device including a detachable bottom plate for forming a film on a substrate
A film forming device includes a bottom plate detachably provided on a bottom surface of a mist spray head. The bottom plate includes a raw material solution opening, reaction material openings, and inert gas openings formed in regions corresponding to a raw material solution ejection port, reaction material ejection ports, and inert gas ejection ports, when the bottom plate is attached to the bottom surface of the mist spray head.
US11124874B2 Methods for depositing metallic iridium and iridium silicide
Methods for depositing one or more iridium materials on a surface of a substrate are provided. A method for forming the iridium material (e.g., metallic iridium and/or iridium silicide) on the substrate can include sequentially exposing the substrate to an iridium precursor and a reducing agent during an atomic layer deposition (ALD) process within a process chamber and depositing the iridium material on the substrate. In some examples, the reducing agent can be or include hydrogen gas (H2), a hydrogen plasma, atomic hydrogen, hydrazine or derivatives thereof, or any combination thereof and the deposited iridium material is metallic iridium. In other examples, the reducing agent contains one or more silicon precursors and the iridium material is an iridium silicide.
US11124873B2 Substrate processing apparatus
A substrate processing apparatus including a transfer chamber; upper gas supply mechanism that supplies a gas into an upper region of the transfer chamber through a first gas supply port; and lower gas supply mechanism that supplies the gas into a lower region of the transfer chamber through a second gas supply port. The upper gas supply mechanism includes a first buffer chamber disposed at a back surface of the first gas supply port; a pair of upper ducts disposed at both sides of the first buffer chamber; and a first ventilation unit disposed at lower ends of the pair of upper ducts. The lower gas supply mechanism includes a second buffer chamber disposed at a back surface of the second gas supply port; a lower duct disposed at lower surface of the second buffer chamber; and a second ventilation unit disposed at a lower end of the lower duct.
US11124869B2 Substrate processing method, substrate processing apparatus and pre-drying processing liquid
A pre-drying processing liquid containing a sublimable substance that changes to gas without passing through to a liquid and a solvent in which the sublimable substance dissolves is supplied to a front surface of a substrate on which a pattern has been formed. Thereafter, the solvent is evaporated from the pre-drying processing liquid on the front surface of the substrate to thereby form a solidified body containing the sublimable substance on the front surface of the substrate. Thereafter, the solidified body is sublimated and thereby removed from the front surface of the substrate. A value acquired by multiplying a ratio of the thickness of the solidified body to the height of the pattern by 100 is greater than 76 and less than 219.
US11124866B2 Method of treating the surfaces of mould parts for casting moulds consisting of a steel material
With the method according to the invention, mould parts for casting moulds for light metal casting can be treated such that the danger of crack formation in the region of the surface sections of the mould part coming into contact with the light metal melt during casting is reduced to a minimum. This is achieved in that by means of nitriding treatment on the mould part a nitride-hardened edge layer adjoining its free surface is generated which is harder than the inner core region of the mould part and comprises a diffusion layer adjoining the core region and a compound layer located on the diffusion layer and adjoining the free surface of the mould part and in that at least one section of the surface of the mould part is mechanically processed by machine hammer peening, in the case of which a hammer tool, which, at a certain impact frequency, carries out an impact movement along a movement axis which is aligned in relation to the free surface at a certain acute angle, is guided continuously over the free surface of the mould part following a track determined in a preceding design step such that the compound layer is removed by the impacting stress in the impact region of the hammer tool.
US11124864B2 Method of fabricating nano-structures with engineered nano-scale electrospray depositions
Embodiments relate to a method of manufacturing pinned nano-structures with tailored gradient properties. First and second compositions are provided, Each of the compositions includes a nano-structural material, a plurality of grain growth inhibitor nano-particles, and at least one of a tailoring solute and a plurality of tailoring nano-particles. Deposition layers are formed proximal to a substrate with each of the compositions through electrospray techniques.
US11124862B2 Aluminum alloy thick plate
An aluminum alloy thick plate is formed of an aluminum alloy including Mg of 2.0 to 5.0 mass %. The aluminum alloy thick plate has a plate thickness of 300 to 400 mm. A is 160 pieces/cm2 or less and B is 1.15 times or more as large as A, where (i) A (pieces/cm2) is a maximum value in numbers of porosities with an equivalent circle diameter of 50 μm or more in each of positions located at a center portion in a plate thickness direction and at positions of 0.39 Wa to 0.48 Wa in a plate width direction; and (ii) B (pieces/cm2) is a maximum value in numbers of porosities with an equivalent circle diameter of 50 μm or more in each of positions located at the center portion in the plate thickness direction and at positions of 0.12 Wa to 0.30 Wa in the plate width direction.
US11124859B2 Lithium adsorption-desorption apparatus and lithium adsorption-desorption method using the same
The invention relates to a lithium adsorption-desorption apparatus including a plurality of reaction tanks arranged in a row; a guide rail disposed at an upper portion of the reaction tank; a movable driving unit coupled to a moving means that moves along the guide rail; and a reaction housing which is mounted to the driving unit, and can be vertically moved or rotated in a state in which the lithium adsorbent is fixed thereto, and after immersing in the reaction tank, accelerates adsorption or desorption of lithium, and after being lifted, discharges residual solution from the lithium adsorbent by rotation movement.Therefore, the lithium adsorption desorption apparatus can fix a large amount of lithium adsorbent and immerse it in a lithium-containing solution to effectively adsorb lithium and then quickly desorb lithium in a desorption solution, and can efficiently wash the lithium adsorbent in a cleaning solution.
US11124858B2 Solid-state catalysts for low or moderate temperature leach applications and methods thereof
A method for removing sulfate iron-containing compounds from a low- to moderate-temperature metal sulfide leach circuit (1) is disclosed. A reactor (6) within a chloride leach circuit (5) and which is preferably maintained at a temperature between 20 and 150 degrees Celsius may be provided with a catalyst (4) comprising a material selected from the group consisting of: colloidal hematite, colloidal goethite, particulate containing FeOOH, particulate containing α-FeOOH, particulate containing γ-FeOOH, particulate containing Fe2O3, particulate containing α-Fe2O3, particulate containing γ-Fe2O3, particulate containing Fe3O4, particulate containing Fe(OH)SO4, and a combination thereof. The catalyst (4) may also be used with heap leach and/or dump leach circuits (22), without limitation. Methods for using and generating the catalyst (4) are also disclosed. In some embodiments, the catalyst (4) may be used as an anti-frothing agent (e.g., for zinc leaching, without limitation).
US11124855B2 Binder composition for the agglomeration of fine minerals and pelletizing process
A process for pelletizing particles of a fine mineral ore, the process comprises the steps of a) mixing the particles of a fine mineral ore with a binder composition to obtain a pellet feed, b) forming the pellet feed into balls, c) drying the balls to form dried balls, d) preheating the dried balls at 60 to 105° C. until constant weight to form preheated balls, e) subsequently heating the preheated balls to a temperature of 1200° C. to 1400° C. to obtain pellets, wherein the binder composition comprises a) at least one colloid agent which exerts a cohesive force on the particles of a fine mineral ore forming the pellets, and b) at least one synthetic polymer which disperses the particles of a fine mineral ore in the pellets, wherein the synthetic polymer is a maleic acid/acrylic acid or a maleic acid/methacrylic acid copolymer.
US11124853B2 Method for producing a ultra high strength coated or not coated steel sheet and obtained sheet
A method for producing a cold rolled steel sheet having a tensile strength ≥1470 MPa and a total elongation TE≥19%, the method comprising the steps of annealing at an annealing temperature AT≥Ac3 a non-treated steel sheet whose chemical composition contains in weight %: 0.34%≤C≤0.40%, 1.50%≤Mn≤2.30%, 1.50≤Si≤2.40%, 0
US11124848B2 Species of tobamovirus
The present invention provides a new species of tobamovirus and its use to identify plants comprising resistance against the virus.
US11124839B2 Methods of treating cancer patients with farnesyltransferase inhibitors
The present invention relates to the field of molecular biology and cancer biology. Specifically, the present invention relates to methods of treating a subject with a farnesyltransferase inhibitor (FTI) that include determining whether the subject is likely to be responsive to the FTI treatment based on HRAS mutation status in the subject.
US11124838B2 Genetic abnormalities in plasma cell dyscrasias
Provided herein are non-invasive methods and biomarkers that identify progression and clonal evolution of plasma cell dyscrasias. Also provided are materials and methods for the diagnosis, prognosis, staging, and monitoring of plasma cell dyscrasias based on the presence of the bio markers in a blood biopsy, as well as methods for monitoring the progression of a plasma cell dyscrasia, determining the efficacy of a therapeutic agent, determining a targeted therapy related to a plasma cell dyscrasia, and/or treating a plasma cell dyscrasia. The methods provided herein provide several advantages over invasive biopsies.
US11124837B2 Methods and systems for predicting colorectal cancer incidence and mortality
Disclosed are methods and systems that uses GlycA concentration in biosamples to evaluate risks of CRC incidence and mortality.
US11124835B2 Methods of diagnosing chronic obstructive pulmonary disease (COPD) using novel molecular biomarkers
The present invention relates to in vitro methods for the diagnosis of chronic obstructive pulmonary disease (COPD), wherein the expression of the marker gene DMBT1 is determined. In particular, the invention relates to an in vitro diagnostic method of assessing the susceptibility of a subject to develop progressive COPD involving the appearance of irreversible lung damage, wherein the expression of the marker gene DMBT1 and optionally one or more further marker genes selected from KIAA1199, TMSB15A, DPP6, SLC51B, NUDT11, ELF5, AZGP1, PRRX1, AQP3, SFN, GPR110, GDF15, RASGRF2, RND1, PLA1A, FGG, CEACAM5, HYAL2, AHRR, CXCL3, CYP1A1, CYP1B1, CYP1A2, CST6, NTRK2, COMP, ITGA10, CTHRC1, TAL1, FIBIN, BEX5, BEX1, ESM1 and GHRL is determined. The invention also relates to an in vitro method of diagnosing stable COPD or assessing the susceptibility of a subject to develop stable COPD, wherein the expression of DMBT1 and optionally one or more further marker genes selected from KIAA1199, TMSB15A, DPP6, SLC51B, NUDT11, ELF5, AZGP1, PRRX1, AQP3, SFN, GPR110, GDF15, RASGRF2, RND1, PLA1A, FGG, CEACAM5, HYAL2, AHRR, CXCL3, CYP1A1, CYP1B1, CYP1A2, CST6, NTRK2, COMP, ITGA10, CTHRC1, TAL1, FIBIN, BEX5, BEX1, ESM1 and GHRL is determined. Furthermore, the invention relates to the use of primers for transcripts of the aforementioned marker genes, the use of nucleic acid probes to transcripts of these marker genes, the use of microarrays comprising nucleic acid probes to transcripts of these marker genes, and the use of antibodies against the proteins expressed from these marker genes in corresponding in vitro methods. In vitro methods of monitoring the progression of COPD are also provided, in which the expression of marker genes according to the invention is determined.
US11124834B2 Genetic polymorphisms associated with venous thrombosis, methods of detection and uses thereof
The present invention is based on the discovery of genetic polymorphisms that are associated with venous thrombosis. In particular, the present invention relates to nucleic acid molecules containing the polymorphisms, variant proteins encoded by such nucleic acid molecules, reagents for detecting the polymorphic nucleic acid molecules and proteins, and methods of using the nucleic acid and proteins as well as methods of using reagents for their detection.
US11124830B2 Single cell genomic sequencing using hydrogel based droplets
The present disclosure provides ultrahigh-throughput single cell genomic sequencing methods, referred to herein as “SiC-seq”, which methods include encapsulating single cells in molten gel droplets to facilitate bulk cell lysis and purification of genomic DNA in microgels. Systems and devices for practicing the subject methods are also provided.
US11124827B2 Period-to-period analysis of AC signals from nanopore sequencing
An alternating signal is applied across a nanopore of a sequencing cell, the nanopore being configured to receive a tag that is connected to a nucleotide, thereby creating a threading event. A first set of voltage data is acquired during a first portion of a plurality of cycles of the alternating signal. Each data point of the first set of voltage data corresponds to a value of a resistance of the nanopore at a different time, where the resistance of the nanopore changes when the tag is received within the nanopore. A shifted set of voltage data is determined from the first set of voltage data and difference data is computed by computing differences between data points of the first set of voltage data and corresponding data points of the shifted set of voltage data. Threading events may be identified based on the difference data.
US11124821B2 Microfluidic testing system with cell capture/analysis regions for processing in a parallel and serial manner
A microfluidic chip system includes an input for receiving the biologic sample, and a first reading window for enabling a detection of the biologic material within the biologic sample. A first plurality of pathways is provided each for determining a treatment agent providing a best treatment efficacy for the predetermined biologic material. A first micro-pump is provided for pumping a portion of the biologic sample into each of the first plurality of pathways. A second plurality of pathways is provided, each for determining a dosage level of a particular one of the plurality of treatment agents with respect to the predetermined biologic material. A plurality of second micro-pumps are provided for pumping a second portion of the biologic sample into a selected one of the second plurality of pathways responsive to the determination of treatment efficacy of the treatment agent providing a best treatment of the predetermined biologic material.
US11124816B2 Method for improving the transparency of starch liquefaction
The present disclosure disclosed is method for improving the transparency of starch liquefaction, and belongs to the field of biologically modified starch. The method changes the molecular structure of the starch liquefaction product by adding a 1,4-α-glucan branching enzyme from Rhodothermus obamensis, so the molecular structure has a smaller branched chain and a higher branching degree, thereby achieving the purpose of improving transparency and stability. The method comprises the steps of dissolving a starch liquefaction product in water according to a certain concentration to prepare an aqueous solution of the starch liquefaction product, and adding a 1,4-α-glucan branching enzyme to react at a certain temperature for a period of time, so as to improve the transparency of the starch liquefaction product during storage. The method provides a new idea for improving the stability of starch liquefaction products, and has great potential and application prospects.
US11124812B2 Putrescine-producing microorganism and method for producing putrescine using the same
The present application relates to a putrescine-producing microorganism in which the activity of formate dehydrogenase is increased, and a method for producing putrescine using the same.
US11124808B2 Solubilization of MSW with blend enzymes
The present invention relates to a method for solubilisation or hydrolysis of Municipal Solid Waste (MSW) with an enzyme blend and an enzyme composition for solubilization of Municipal Solid Waste (MSW), the enzyme composition comprising a cellulolytic background composition and a protease, lipase and/or beta-glucanase.
US11124807B2 Sesquiterpene synthases for production of drimenol and mixtures thereof
Described herein is a method of producing drimenol and/or drimenol derivatives, the method including contacting at least one polypeptide with farnesyl diphosphate (FPP). The method may be performed in vitro or in vivo. Also described herein are amino acid sequences of polypeptides useful in the methods and nucleic acids encoding the polypeptides described. Also described herein are host cells or organisms genetically modified to express the polypeptides and useful to produce drimenol and/or derivatives of drimenol.
US11124805B2 Methods, compositions and kits for increasing genome editing efficiency
Methods of editing a target genomic region(s), methods of repairing of a DNA break via a HDR pathway, methods of inhibiting or suppressing repair of a DNA break via a NHEJ pathway, and methods of modifying expression of a gene(s) or protein(s) comprise administering to one or more cells that include one or more target genomic regions, a genome editing system and a DNA protein-kinase (DNAPK) inhibitor disclosed herein. Kits and compositions for editing a target gene comprise a genome editing system and a DNAPK inhibitor disclosed herein.
US11124803B2 Methods and compositions for PPO herbicide tolerance
The invention relates to biotechnology and provides novel recombinant DNA molecules and engineered proteins for conferring tolerance to protoporphyrinogen oxidase-inhibitor herbicides. The invention also provides herbicide tolerant transgenic plants, seeds, cells, and plant parts containing the recombinant DNA molecules, as well as methods of using the same.
US11124800B2 Method of improving chloroplast function and increasing seed yield
Ascorbate protects tissues against damage caused by reactive oxygen species (ROS) produced through normal metabolism or generated from stress. The inositol route to AsA involves four enzymes: myo-inositol oxygenase, glucuronate reductase, gluconolactonase (GNL), and L-gulono-1,4-lactone oxidase (GulLO). Eighteen putative GNLs were identified in Arabidopsis, one of which, AtGNL, is interesting because it possesses a chloroplastic signal peptide. Knockouts on this gene had lower foliar AsA and stunted growth compared to controls. The functional gene restored the phenotype of the knockouts, and those plants had higher AsA content, enhanced photosynthetic capacity, and higher seed yield.
US11124799B2 Plant-produced vaccine comprising an AG2 polypeptide from coccidioides
Vaccines, methods of producing, and methods of using are provided in which a protective response to Valley Fever disease is produced when administered to an animal. The vaccine provides for expression of Coccidioides sp. Ag2 polypeptide in a plant or plant part, linked to a promoter preferentially directing expression to seed tissue of the plant or plant part. Further embodiments provide the polypeptide is targeted to the cell wall, vacuole or endoplasmic reticulum. The polypeptide may be fused to a dendritic cell targeting dendritic cell or a heat labile enterotoxin. Increased expression levels in the plant or plant part are obtained. The vaccine comprising the plant-produced Ag2 polypeptide may be a glucan chitin particle comprising the Ag2 polypeptide. The plant or plant materials in an embodiment may be orally administered.
US11124795B2 Genetic and pharmacological transcriptional upregulation of the repressed FXN gene as a therapeutic strategy for Friedreich ataxia
Methods of treating subjects having disorders associated with mutations in the FXN gene and/or having reduced expression of frataxin protein, e.g., Friedreich ataxia (FA). Generally, the methods include administering a therapeutically effective amount of an agent that increases expression of frataxin protein as described herein, e.g., an inhibitor of a FXN Repressing Factor (FXN-RF).
US11124793B2 Compositions and methods for treatment of cardiac diseases
Disclosed herein include microRNA antagonists, therapeutic compositions that include one or more of such microRNA antagonists, and methods of treating and/or ameliorating cardiac diseases and/or muscular dystrophy disorders with the microRNA antagonists. Also included are combination therapies, wherein a therapeutic composition disclosed herein and an additional therapy agent are provided to a subject having or suspected of having cardiac disease and/or muscular dystrophy disorder. In particular, some embodiments disclosed herein relate to compositions and methods for transiently administering a mixture of microRNA antagonists for promoting cardiomyocyte proliferation and cardiac regeneration.
US11124788B2 Asx-specific protein ligase
The present invention is directed to enzymes having Asx-specific ligase and cyclase activity and to nucleic acids encoding those as well as methods of the manufacture of said enzymes. Further encompassed are methods and uses of these enzymes.
US11124787B2 ADAMTS13-containing compositions having thrombolytic activity
This invention relates to a pharmaceutical composition having thrombolytic activity comprising ADAMTS13, and to methods for treating or preventing a disorder associated with the formation and/or the presence of one or more thrombus and to methods of disintegrating one or more thrombus in a patient in need thereof. Furthermore, the invention relates to the use of a pharmaceutically effective amount of ADAMTS13 for the preparation of a pharmaceutical composition for treating or preventing a disorder associated with the formation or the presence of one or more thrombus and for disintegrating one or more thrombus in a patient in need thereof.
US11124785B2 Rothia subtilisins, S8A family proteases, as therapeutic enzymes for application in gluten intolerance disorders
There are gluten-degrading enzymes found in Rothia species bacteria that are subtilisins that belonging to the S8A family of serine protease family. The Rothia sp. derived subtilisin-like enzymes have the conserved catalytic triad composed of a Ser, His, and Asp residues that is characteristic of the serine protease family. The Rothia subtilisin enzymes are potent at cleaving proline-containing proteins, cleaving the second peptide bond after proline in the XPX1 motif, where X is any amino acid, P is proline and X1 is a hydrophobic amino acid, e.g. the XPQ motif, where Q is glutamine. Embodiments herein provide isolated enzyme compositions and formulations comprising subtilisins gluten-degrading enzyme from a Rothia species bacteria. Also provided herein are methods of treatment of celiac disease or a related disorder, treatment of gluten-containing foodstuff, degrading and/or detoxifying gluten comprising the subtilisins gluten-degrading enzyme and/or compositions.
US11124779B2 Compositions and methods for treating and preventing pancreatitis, renal injury and cancer
The present invention includes compositions and methods for detecting, treating and preventing renal and pancreatic diseases and disorders.
US11124776B2 Pharmaceutical compositions comprising bacterial delivery vehicles and uses thereof
The present invention relates to the delivery of a payload by bacterial delivery vehicle, i.e. the encapsulation and the delivery of a single plasmid by different bacterial virus particles. More specifically, the present invention concerns a pharmaceutical composition comprising a payload packaged in at least two different bacterial delivery vehicles and a method of production thereof.
US11124773B2 Cancer stem cell population and method for production thereof
The purpose of the present invention is to provide: a cancer stem cell mass from which cells incapable of forming cancer are substantially removed and which has a characteristic property of reproducing a layered structure of a cancer tissue; a process for producing the cancer stem cell mass; and use of the cancer stem cell mass. For achieving the purpose, the present inventors grew a human cancer tissue repeatedly in a NOG mouse, separated cancer cells from the grown cancer tissue, and made a comparison of various cancer cell culture processes with each other. As a result, a cancer stem cell composition which is homogeneous and is substantially free of the coexistence of cells capable of forming cancer and cells incapable of forming cancer in a mixed state can be produced successively by employing an attached culture process using a serum-free stem cell culture medium rather than a generally employed floating culture process, and consequently the present invention has been accomplished.
US11124772B2 Method to alter Chinese hamster ovary cell line stability
The present invention provides a recombinant eukaryotic cell expressing one or more heterologous double strand break (DSB) repair proteins in an amount effective for enhancing DSB repair in the cell. The recombinant eukaryotic cell may express a recombinant product of interest. Also provided are methods for enhancing double strand break (DSB) repair in eukaryotic cells, establishing host cells for production of a recombinant product of interest, producing a recombinant product of interest, improving production of a recombinant product of interest by eukaryotic cells, and/or investigating suitability of eukaryotic cells as host cells for producing a recombinant product of interest.
US11124768B2 Optimally activated dendritic cells that induce an improved or increased anti-tumor immune response
The present disclosure provides populations of cells comprising partially mature and optimally activated dendritic cells that can be used for administration to individuals having a cancer and/or tumor. Partially matured dendritic cells, those contacted with a dendritic cell maturation agent for about 10 to about 19 hours, upon administration efficiently take up and process tumor antigens in the area of the tumor site, complete maturation, and can subsequently migrate to the lymph nodes of a treated individual. Once in a lymph node the now fully mature antigen presenting dendritic cells secrete the appropriate cytokines (e.g., TNFa, IL-6, IL-8, and/or IL-12) and contact T cells inducing a substantial and optimal clinical and/or anti-tumor immune response.
US11124764B2 Incubator apparatus and methods
Apparatus and methods for monitoring embryos in an incubator are described. The apparatus comprises an incubation chamber defined by an incubation chamber housing and a sample platform comprising a plurality of receptacles for holding embryos within the incubation chamber for incubation. The sample platform may comprise a slide carrier on which embryo slides containing the receptacles may be placed incubation. The sample platform is rotatable about a rotation axis relative to the incubation chamber housing so as to allow receptacles to be selectively rotated to a monitoring position that is aligned with a viewing port provided in the incubation chamber housing, for example an opening or window. An imaging device is located outside the incubation chamber and arranged to image embryos within the incubation chamber at the monitoring position through the viewing port.
US11124760B2 Methods for overcoming glutamine deprivation during mammalian cell culture
The present invention pertains to methods of producing polypeptide of interest in cell cultures lacking glutamine. The present invention further pertains to a method of producing a protein of interest in a large scale cell culture, comprising supplementing the cell culture with nucleic acid synthesis precursors and/or corticosteroids.
US11124759B2 Process for bacterially devulcanizing sulphur-vulcanized rubber particles
A new Acidithiobacillus ferrooxidans strain as well as a process for bacterially devulcanizing sulphur-vulcanized rubber particles and devulcanized rubber particles obtainable by the process.
US11124758B2 Bacteria culture medium and applications thereof
The present invention has publicized a bacteria culture medium. In common bacteria culture medium, one kind or several kinds of β-lactam antibiotics and/or the salts thereof were premixed. The β-lactam antibiotics and/or the salts thereof premixed in the bacteria culture medium is slightly soluble in water at 25° C. and the solubility is less than 10 mg/ml. The concentrations of the β-lactam antibiotics premixed in the culture medium are greater than the solubility of the used β-lactam antibiotics at 25° C., but are less than 100 mg/ml. The bacteria culture medium can be used to selectively culture bacteria with β-lactam antibiotic resistance and can be stored for a long time.
US11124751B2 Supplying treated exhaust gases for effecting growth of phototrophic biomass
There is provided a process for growing a phototrophic biomass in a reaction zone. The process includes treating an operative carbon dioxide supply-comprising gaseous material feed so as to effect production of a carbon dioxide-rich product material. The carbon dioxide concentration of the carbon dioxide-rich product material is greater than the carbon dioxide concentration of the operative carbon dioxide supply-comprising gaseous material feed. Production of at least a fraction of the operative carbon dioxide supply-comprising gaseous material feed is effected by a gaseous exhaust material producing process. At least a fraction of the carbon dioxide-rich product material is supplied to the reaction zone so as to effect growth of the phototrophic biomass by photosynthesis in the reaction zone.
US11124750B2 Ultraviolet irradiation of fluids
Ultraviolet irradiation of fluids for the purposes of disinfection, sterilization and modification of a target organic compound found within the fluids. The target compound in the fluids can have an absorption spectra with an ultraviolet wavelength ranging from 230 nm to 360 nm. The absorption spectra includes a first and second set of wavelengths corresponding to absorption peaks and absorption valleys in the absorption spectra, respectively. A-set of ultraviolet radiation sources irradiate the fluids. The set of ultraviolet radiation sources operate at a set of peak wavelengths ranging from 230 nm to 360 nm with a peak full width at half maximum that is less than 20 nm. The set of peak wavelengths are proximate to at least one wavelength in the second set of wavelengths corresponding to the absorption valleys in the absorption spectra with a variation of a full width half maximum of the absorption valley.
US11124746B2 Post CMP cleaning composition
The disclosure generally relates to a composition and process for cleaning residue and/or contaminants from microelectronic devices having said residue and contaminants thereon. The residue may include post-CMP, post-etch, and/or post-ash residue. The compositions and methods are particularly advantageous when cleaning a microelectronic surface comprising copper, low-k dielectric materials, and barrier materials comprising at least one of tantalum-containing material, cobalt-containing material, tantalum-containing, tungsten-containing, and ruthenium-containing material.
US11124738B1 Automotive finish protection formulation
Potassium carbonate, Cocoglucoside, a Preservative, Sodium gluconate, and Demineralized water. The formulation is intended to be dispensed and/or applied from a spray bottle or wet wipe. Demineralized water is used as a solvent and has a concentration of approximately up to approximately 99 percent of the weight by percentage. Potassium carbonate is the uric acid remover, and has a concentration of approximately 1-25 percent of the formulation. Cocoglucoside or Coco Glucoside is a natural, non-ionic, surfactant and acts as a cleaner and has a concentration of approximately 0.1-15 percent. Sodium gluconate is used as a chelating agent and has a concentration of approximately 0.1-25 percent. A chemical preservative may be added the formulation in any amount or percentage as desired or in any amount or sufficient quantity desired for the preservation or shelf life of the product.
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