子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 141 | System and Methods for a Smart Water Bottle Converter | US15987012 | 2018-05-23 | US20180266866A1 | 2018-09-20 | Subir Biswas; Bo Dong; Ryan Gallant |
| A method and system may track liquid consumption by a user from a liquid container using a flexible, network-connected, smart band. The smart band may detect orientations of the liquid container and identify sips taken by a user based on a pattern in the detected orientations. The smart band may also estimate a liquid consumption metric based on characteristics of the identified sips such as the duration of the sip. The identified sip as well as sip characteristics and the liquid consumption metric may be displayed on the smart band, and also may be transmitted to a server for storage and for display on another network-enabled device. | ||||||
| 142 | Caulking gun | US15306834 | 2015-06-11 | US10016781B2 | 2018-07-10 | Jean-Marie Poppe; Lieven Sichien |
| The present invention relates to a caulking gun for dispensing viscous material comprising a stock a cartridge keep a push rod longitudinally moveably mounted in the stock provided at its one end with a plunger which engages the piston of a cartridge placed in the cartridge keep, means for engaging the push rod to advance it, brake means hinged to the stock and provided with a clearance hole for engaging the push rod such that the push rod is moveable in a direction advancing the push rod towards the cartridge and is held in a direction retreating the push rod from the cartridge, which brake means are arranged to travel to a first position relative to the stock as the push rod advances and to a second position as the push rod retreats thereby defining the retreat of the push rod, the brake means being inclined relative to the axis of the push rod and adjusting means for varying the retreat of the push rod. In order to provide an adjustable caulking gun with at least two different levels of retreat of the push rod giving the user easily a visual feedback of the chosen retreat of the push rod, it is proposed according to the present invention that the adjusting means are configured as a rotatable wheel with a slope, the rotatable wheel being positioned on the axis of the push rod between the stock and the brake means, the distance between the highest point of the slope and the brake means defining the retreat of the push rod.This rotatable wheel allows the user to select the level of retreat of the push rod by turning the wheel between a first position with no retreat of the push rod and a second position with a maximum retreat of the push rod resulting in a anti-drip behavior of the caulking gun. | ||||||
| 143 | Tumbler Lid with Reservoir and Repetitive Measuring and Disbursement Mechanism | US15857399 | 2017-12-28 | US20180186528A1 | 2018-07-05 | Andrew Tonn; Stephen Sanford; David Yakos; Joel R. Switzer |
| This container lid fits onto existing insulated cups. It has a refillable and sealable reservoir and in the preferred embodiment includes a top opening to receive substances and a bottom opening to release substances into a container. The release of substances into the beverage container is controlled and is measured before release. A preferred double piston and button combination interact with a narrow section of the reservoir to dispense only a portion of the contents from the reservoir into the container. The released portion is carefully metered within the narrow channel when the double piston alternately seals a first opening and a second opening of the narrow channel. The reservoir serves to store the unreleased substance until the next time the button is activated to release addition substance into the container. | ||||||
| 144 | CROP FLOW MONITORING OF A CROP GATHERING DEVICE | US15633220 | 2017-06-26 | US20180084719A1 | 2018-03-29 | Dennis Neitemeier; Thilo Krause; Andreas Nienhaus; Andreas Skiba; Boris Kettelhoit |
| An agricultural work machine, such as a self-propelled harvester, is provided. The agricultural work machine includes a crop gathering machine which has a crop cutting device, a crop collecting device and/or a crop feeding device, and at least one crop conveyor, and comprising an image processing system, a data output unit, and at least one sensor system assigned to the crop gathering machine for recording a crop flow in the crop gathering machine. The sensor system is coupled to the image processing system for transferring images. The image processing system processes a selection of available images, such as by pre-processing the images to be transferred in a first step, in a further step determining an optical flow and corresponding vector fields from the pre-processed images, and in a subsequent step deriving and assessing speed trends of the crop flow from the corresponding vector fields. | ||||||
| 145 | DOSING A FLUID AT A VOLUME OF LESS THAN ONE MILLILITER | US15328907 | 2015-07-23 | US20170211959A1 | 2017-07-27 | Michael ADLER; Karoline BECHTOLD-PETERS; Adeline BOILLON; Anke DORN; Joerg LUEMKEMANN; Denis LUTHRINGER; Hanns-Christian MAHLER; Alexander MEYER |
| A peristaltic dosing device for providing dosages of a fluid at a volume of less than one milliliter comprises: a flexible tube, a counter pressure element, a plurality of actors and a drive. The flexible tube is essentially straightly arranged along the counter pressure element thereby forming a longitudinal axis. The actors arranged parallel to each other along the longitudinal axis. They are moveable by the drive in relation to the flexible tube. The flexible tube is compressible between the actors and the counter pressure element by moving the actors. Each of the actors is independently and linearly moveable by the drive along an actuation axis essentially perpendicular to the longitudinal axis of the flexible tube from a home position in which the flexible tube is least compressed to an end position in which the flexible tube is compressed and sealed between the respective actor and the counter pressure element. The peristaltic dosing device according to the invention allows for exactly and repeatably providing dosages at comparably small volumes in a sterile environment. | ||||||
| 146 | Marine sanitising and deodorising device | US13820797 | 2011-09-06 | US09663931B2 | 2017-05-30 | Derek Withrington |
| A marine sanitizing and deodorizing device comprises a reservoir for containing sanitizing fluid, a dose controllable pump for discharging a predetermined dose of sanitizing fluid from the reservoir into a water inlet conduit of a marine toilet system, a flow detector for detecting the flow of water within the water inlet conduit, and a controller for controlling the dose controllable pump upon flow detection by the in use flow detector. | ||||||
| 147 | Multi shot fluid dispensing system | US14286603 | 2014-05-23 | US09630828B1 | 2017-04-25 | Michael A. Gardner |
| A large bottle has a lower region, an upper region, and an intermediate region with a cap removably positioned on the upper region. A small bottle has a lower region, an upper region, and an intermediate region with a cap removably positioned on the upper region. A coupling tube has an upper end and a lower end. The upper end is operatively coupled to the small bottle at the upper region. The lower end is operatively coupled to the large bottle at the lower region. A long web attaches the coupling tube to the large bottle. A short web attaches the coupling tube to the small bottle. A display panel removably receives and supports a plurality of large and small bottles. | ||||||
| 148 | DISPENSING DEVICE FOR CONVENIENTLY DISPENSING MATERIAL | US14884367 | 2015-10-15 | US20170106403A1 | 2017-04-20 | Chiu Ho Ng |
| According to embodiments of the invention, apparatuses and devices are provided for a liquid compound dispensing device. Generally, the dispenser includes a frame for carrying a composition, a plunger shaft having a piston at one end for urging the composition out of the frame, and one or more plunger driving assemblies for driving the actuator shaft to expel the compound. The plunger driving assemblies may have one or more downwardly extending handles, and the assembly includes one or more triggers extending upwardly within the housing. One or more triggers may be pressed to expel compound. Further, one or more triggers and/or handles may be movable to different portions of the dispensing device. | ||||||
| 149 | METHOD AND DEVICE FOR DISPENSING POWDER | US15201649 | 2016-07-05 | US20170009340A1 | 2017-01-12 | Peiching Ling; Dezhong Liu |
| A method for dispensing powder includes: providing a device for dispensing powder, the device including a framework, warps connected to the framework, a trough for receiving powder, an actuating member for displacing at least one of the framework and the trough, and an action source for the powder to be detached from the warps and dispensed on an object; supplying the powder to the warps and generating an electric field for the powder to carry an electric charge and become charged powder; and providing a force, by the action source, to at least one of the framework and the warps for the charged powder to be detached from the warps, the charged powder moving dependent on the electric field and being dispensed on the object. The warps have equal amounts of charged powder carried thereon, allowing the charged powder to be distributed evenly. | ||||||
| 150 | Dispensers for diluting a concentrated liquid and dispensing the diluted concentrate | US14685102 | 2015-04-13 | US09539598B2 | 2017-01-10 | Nick E. Ciavarella; Paul R. Metcalfe; Scott E. Urban |
| Exemplary embodiments of dispensers are disclosed herein. One exemplary dispenser is a soap or sanitizer dispenser. The dispenser includes a housing. A removable and replaceable concentrate container for holding concentrated soap or sanitizer is located within the housing. A concentrate pump is in fluid communication with the concentrate container. A diluent container for holding a liquid is also located within the housing and a diluent pump for pumping the diluent is also included. The dispenser includes a mixing chamber in fluid communication with the concentrate pump and the diluent pump. The dispenser includes an outlet. When concentrated soap or sanitizer is pumped from the concentrate container, it mixes with diluent pumped from the diluent container to form a diluted mixture. The diluted mixture is dispensed at the outlet of the dispenser. | ||||||
| 151 | Liquid level monitoring | US13758305 | 2013-02-04 | US09429460B2 | 2016-08-30 | Martin Trump |
| A method and an apparatus for filling at least one liquid into at least one cavity. The method comprises filling a predetermined filling volume of the at least one liquid into the at least one cavity and determining if the liquid in the at least one cavity reaches a first liquid level in the at least one cavity. Filling the predetermined filling volume of the at least one liquid and the determining if the first level has not been reached, is repeated until enough volume of the at least one liquid has been added to the cavity or if the first level has been reached. The predetermined filling volume is equal to or smaller than a buffer volume above the first liquid level in the at least one cavity. | ||||||
| 152 | Conductive liquid property measurement using multiple charge transfer times | US14559706 | 2014-12-03 | US09417203B2 | 2016-08-16 | James Gregory Stanley |
| Systems and methods for making repeatable measurements of the dielectric constant and conductivity of a material, such as a liquid. In one example, a material property measurement system includes a measurement cell, a voltage measurement circuit, a capacitor, and a switch. The measurement cell is made of at least two conducting electrodes with liquid between the conducting electrodes. The switch is in a current path between the capacitor and the measurement cell. The capacitor is charged and then the switch is closed for a first time period and a first voltage measurement on the capacitor is performed. The capacitor is charged again and the switch is closed for a second time period and a second voltage measurement on the capacitor is performed. The two voltage measurements are used in a calculation to calculate a value related to capacitance between the at least two conducting electrodes of the measurement cell. | ||||||
| 153 | Fluid Dose-Measuring Device | US14915397 | 2014-08-27 | US20160214129A1 | 2016-07-28 | Laurens Last; Paul Van Den Hoonaard |
| The invention relates to a fluid dose-measuring device for dispensing predetermined amounts of fluid from a fluid container, comprising a housing with a stationary and a moveable part, wherein the stationary part comprises a connector portion defining an inlet passage, which connector portion is connectable to the fluid container, wherein the moveable part is configured to engage with an actuator of a dispensing device, and wherein the housing comprises an outlet through which the fluid is to be dispensed, and an internal gear pump with an inner and an outer gear for transporting fluid from the inlet passage to the outlet upon actuation by the actuator of the dispensing device, wherein the moveable part is connected to the outer gear, so that actuation of the moveable part allows to rotate the inner and outer gear relative to the stationary part. | ||||||
| 154 | Dispenser and Methods | US14904043 | 2014-07-08 | US20160159532A1 | 2016-06-09 | Richard H. Seager |
| A dosing bottle closure (24; 320) has a body (26; 326) and a lid (27; 327). The body (26) has: a sidewall (50) extending from a lower rim (54) to an upper rim (62); and means (58) along the sidewall (50) for engaging a container body (22). The lid (27) is hinged relative to the body for articulation between a closed condition and an open condition. The body defines an internal upwardly open chamber (25) at least partially covered by the lid in the closed condition. The body defines a feed passageway (100) having an outlet (110) to the chamber (25) and spaced above a bottom (72) of the chamber. | ||||||
| 155 | DISPENSERS FOR DILUTING A CONCENTRATED LIQUID AND DISPENSING THE DILUTED CONCENTRATE | US14685102 | 2015-04-13 | US20150290664A1 | 2015-10-15 | Nick E. Ciavarella; Paul R. Metcalfe; Scott E. Urban |
| Exemplary embodiments of dispensers are disclosed herein. One exemplary dispenser is a soap or sanitizer dispenser. The dispenser includes a housing. A removable and replaceable concentrate container for holding concentrated soap or sanitizer is located within the housing. A concentrate pump is in fluid communication with the concentrate container. A diluent container for holding a liquid is also located within the housing and a diluent pump for pumping the diluent is also included. The dispenser includes a mixing chamber in fluid communication with the concentrate pump and the diluent pump. The dispenser includes an outlet. When concentrated soap or sanitizer is pumped from the concentrate container, it mixes with diluent pumped from the diluent container to form a diluted mixture. The diluted mixture is dispensed at the outlet of the dispenser. | ||||||
| 156 | Glitter aerosol coating composition | US13267204 | 2011-10-06 | US08916181B1 | 2014-12-23 | Christina M. Leposa |
| An aerosol glitter composition for achieving the “sugar” glitter effect comprises a solvent, binder, square polyester glitter, optionally a rheology modifier, and propellant. | ||||||
| 157 | Method for multiple dosage of liquid products, dosing apparatus and dosing system | US11570411 | 2004-06-23 | US08905266B2 | 2014-12-09 | Dirk De Brabanter |
| The present invention provides methods for the multiple dosage of one or more liquid products or both liquid and solid products wherein the dosing amount of at least one liquid product is measured by a weight cell. Moreover, dosing apparatus and dosing systems for applying those methods are provided. Additionally, the present invention refers to a method for washing textiles comprising a dosing step in which at least one of the inventive dosing methods, and/or at least one of the inventive dosing apparatus or dosing systems, respectively, are used. | ||||||
| 158 | Marine Sanitising and Deodorising Device | US13820797 | 2011-09-06 | US20140157504A1 | 2014-06-12 | Derek Witrington |
| A marine sanitising and deodorising device comprises a reservoir for containing sanitising fluid, a dose controllable pump for discharging a predetermined dose of sanitising fluid from the reservoir into a water inlet conduit of a marine toilet system, a flow detector for detecting the flow of water within the water inlet conduit, and a controller for controlling the dose controllable pump upon flow detection by the in use flow detector. | ||||||
| 159 | Powered dispensing tool | US13296732 | 2011-11-15 | US08740021B2 | 2014-06-03 | Michael Naughton; Troy C. Thorson; Brandon L. Verbrugge; William E. Check; Thomas G. Simeone; Scott D. Eisenhardt; Scott Schneider |
| A powered dispensing tool includes a housing, a motor positioned within the housing, a rack coupled to the motor for powered translation in at least one of a forward direction and a reverse direction, and a transmission selectively coupling the motor and the rack. The transmission includes an input ring rotatable in response to rotation of the motor in a first direction corresponding with powered translation of the rack in the forward direction, a first clutch member engaged with the rack through an intermediate gear, and a second clutch member that receives torque from the input ring and that is movable in response to rotation of the motor in the first direction toward a first position engaging the first clutch member. The second clutch member is also movable in response to rotation of the motor in an opposite, second direction toward a second position disengaged from the first clutch member. | ||||||
| 160 | Resin Cartridge Production System | US14035400 | 2013-09-24 | US20140020329A1 | 2014-01-23 | John G. Oldsen; Walter John Simmons; W. Neal Simmons; Robert McGinnis |
| A method is disclosed for packaging a curable resin composition and a catalyst composition that react with each other when mixed, comprising providing a partitioned tube for receiving the resin composition and the curing agent in separate compartments; delivering a stream of a resin composition into one compartment of the tube; delivering a stream of a curing agent in the other compartment of the tube; advancing the partitioned tube and constricting and sealing the partitioned tube at spaced apart intervals and severing the sealed tube to produce a package partitioning the resin composition from the catalyst composition. Solid particulate is continuously added into the stream of at least one of the catalyst composition and the resin composition and mixing the solid particulate and stream to produce a mixed composition; and the relative amount of solid particulate in the mixed composition is controlled by continuously determining the mass of solid particulate added to the mass of the stream. | ||||||
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