| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 61 | Automatic Locking Knob Assemblies and Methods of Use | US15618028 | 2017-06-08 | US20170336824A1 | 2017-11-23 | Trevor Lawson |
| Embodiments of the present technology relate to safety knobs. An example automatic locking knob assembly includes a knob, a base, an adapter, and a locking sub-assembly. The locking sub-assembly is configured to automatically lock the knob into place when a valve stem of a stove is in an off position. The locking sub-assembly also allows for controlled rotation of the valve stem of the stove by actuation of buttons associated with the knob. | ||||||
| 62 | Fixed adjustment dial | US13973393 | 2013-08-22 | US09823683B2 | 2017-11-21 | Anthony L. Livolsi |
| A mechanism to prevent an adjustment knob associated with a piece of equipment (e.g. musical instrument or amplifier) from being moved accidentally includes an inner hub held in place on an adjustable shaft. An knob body fits concentrically over the inner hub, and is biased into position over the hub. The bottom of the knob body has locking structure which lockingly but releasingly cooperates with locking structure associated with the piece of equipment to which the shaft is affixed. A biasing structure such as a spring retains the knob body in a first, locked, position, in which the knob body is prevented from rotating, which in turn prevents rotation of the adjustable shaft. However, when the knob body is pulled away from the locking structure against the spring force, the knob body can be rotated, which in turn rotates the hub and shaft shaft. Releasing the knob body allows the biasing structure to urge the knob body back into engagement with the locking structure. | ||||||
| 63 | Locking Mechanism for a Potentiometer | US15662027 | 2017-07-27 | US20170322584A1 | 2017-11-09 | Anthony Louis LiVolsi; Scott Nelson Quinn |
| A locking mechanism for a control device which utilizes rotation motion of a shaft as a means of actuation, such as a potentiometer. The locking mechanism includes a tubular body, an actuation shaft, a plurality of splines, a plurality of spline-receiving cavities, and a push-lock mechanism. The actuation shaft transfers rotation motion from a user to the control device and is slidably and rotatably positioned within the tubular body. The splines are radially distributed about the actuation shaft to interlock with the plurality of spline-receiving cavities. The spline-receiving cavities are radially positioned around the tubular body with each cavity traversing into the tubular body from an inner surface. The push-lock mechanism locks the actuation shaft relative to the tubular body and is mounted offset to a second end of the tubular body. An output coupling end of the actuation shaft is bistably coupled to the push-lock mechanism. | ||||||
| 64 | LOCKING AND UNLOCKING MECHANISM | US15364466 | 2016-11-30 | US20170203853A1 | 2017-07-20 | Piotr SOBOLAK; Izabela PAWELEC |
| A locking mechanism for releasably locking a lock bolt against axial movement includes a solenoid assembly arranged, in use, in proximity to an axially moveable lock bolt. The solenoid assembly includes: a solenoid, a solenoid bias spring and a solenoid plunger having a plunger tip. When the solenoid is energised, the bias spring causes the solenoid plunger to move to bring the plunger tip into locking engagement with the lock bolt to prevent axial movement thereof, and when the solenoid is not energised, the solenoid bias spring causes the solenoid plunger to move to bring the plunger tip out of locking engagement with the lock bolt thus permitting axial movement thereof. | ||||||
| 65 | ACTUATOR LOCKING MECHANISM | US15342282 | 2016-11-03 | US20170123448A1 | 2017-05-04 | Piotr J. Zajac |
| An apparatus for unlocking an actuator, such as a RAT actuator includes a first member; and a second member movable between a blocking position in which said second member is engaged with said first member so as to block movement of said first member and an unblocking position in which said second member is disengaged from said first member so that movement of the first member is not blocked. The first member is an arm arranged such that in the blocking position it is disposed between said second member and a lock release element of said actuator. | ||||||
| 66 | ACTUATOR, IN PARTICULAR, FOR A MOTOR VEHICLE | US15161561 | 2016-05-23 | US20160306380A1 | 2016-10-20 | Roland BUSCHLE; Rainer BERCHTOLD; Robert MASA |
| The present invention relates to a control element, in particular, a switching device for the manual actuation of functions in a motor vehicle, having a handle. The handle is mounted on a carrier such that the handle is adjustable in two different directions from a neutral position into adjustment positions. The control element furthermore has a means for the detection of the adjustment positions, wherein the means for the detection of the adjustment positions has a code carrier, which encodes the adjustment positions, and comprises a sensor which senses the coding, in such a way that all adjustment positions can be detected by way of the one code carrier. | ||||||
| 67 | Multiple padlock locking device | US14484534 | 2014-09-12 | US09273490B1 | 2016-03-01 | Randy McNeil |
| A locking device has a pair of plates and a locking member between the plates that slides between a locked and unlocked position. One or more padlock bars fit between the plates to secure the locking member in the locked position. Padlocks on each end of each padlock bar lock the padlock bars between the plates. When in the locked position, the locking member secures a latch opposite the padlock bars. The latch can be a chain, bar or tube. | ||||||
| 68 | PROTECTIVE APPARATUSES FOR ROTARY CONTROL KNOBS | US14827759 | 2015-08-17 | US20150346759A1 | 2015-12-03 | Karim Messadek |
| In some embodiments, a protective apparatus for rotary control knobs may comprise a cover adapted fit over a rotary control knob; a knob cavity internal to the cover adapted to provide space for the rotary control knob to rotate about; and an access aperture located on the surface of cover member and adapted to provide limited user access to the rotary control knob. The cover member may be configured to encase or surround a control knob. The apparatus may further comprise a plate which may be integrally formed or molded to the cover and which contains a control shaft aperture adapted to receive the control shaft of a rotary control assembly. Once a control shaft is inserted through the control shaft aperture, a fastener may be secured to the control shaft over the plate, thereby securing the apparatus to the control shaft. | ||||||
| 69 | Control box | US13761767 | 2013-02-07 | US09193434B2 | 2015-11-24 | Gilbert Lecourtier |
| A control box for selectively delivering orders to receivers (8, 12). The control box comprises a shaft (14) mounted to turn about an axis of rotation (X), while being capable of sliding along the axis (X) between a rest position towards which it is urged by return means (24), and an active position. An order delivery apparatus (16, 11) co-operates with the shaft (14) to deliver orders as a function of the angular position of the shaft (14). A rotary drive (15) causes the shaft to turn. A safety actuator (23) causes the shaft to slide from the rest position in which anti-rotation structure (27, 28) prevents the shaft from turning to the active position in which the anti-rotation structure (27, 28) leave the shaft free to turn under drive from the rotary drive (15). | ||||||
| 70 | ENDOSCOPIC CUTTING FORCEPS WITH JAW CLAMP LEVER LATCHING MECHANISM | US14706146 | 2015-05-07 | US20150331443A1 | 2015-11-19 | Dennis G. Lamser; John R. Mensch; Riyad Moe |
| A lever latching system comprising: a housing; a lever having a latch pin fixedly mounted to the lever, the lever being movably mounted to the housing so that the latch pin moves in an arc; and a latch plate movably mounted to the housing for linear movement with respect to the housing, the latch plate comprising a labyrinth for receiving the latch pin. | ||||||
| 71 | Master controller | US14348126 | 2011-09-28 | US09122297B2 | 2015-09-01 | Takashi Kameda; Ichirou Okui; Masao Okai |
| The master controller includes a main handle, a handle drum, a reverse handle, a lock collar, a first lock cam having an outer peripheral surface that locks the reverse handle at a neutral position when an operation key is at a locked position, a second lock cam that rotates integrally with the reverse handle, and has an outer peripheral surface that locks the reverse handle and the main handle at a neutral position when the operation key is at a locked position, and that locks the reverse handle at a forward position or a reverse position and unlocks the main handle when the reverse handle is operated to the forward position or the reverse position, and a rod holding unit that holds a rod movably between the lock collar and the second lock cam. | ||||||
| 72 | MONO-STABLE ROTARY TRANSMISSION SELECTOR | US14179591 | 2014-02-13 | US20150226317A1 | 2015-08-13 | David A. Provenza; William A. Arnold; Michael A. Van Camp; Orson S. Wang |
| A mode selection system for switching between different operating modes of a transmission includes a rotary transmission selector for switching between a neutral mode, a forward drive mode, and a reverse drive mode. A park selector for selecting a park mode of the transmission is separate and remotely located from the rotary transmission selector. The rotary transmission selector is axially moveable along a central axis between a reference position and an axially depressed position. The rotary transmission selector is rotatable about the central axis. However, the rotary transmission selector is only rotatable about the central axis when depressed into the axially depressed position. The rotary transmission selector is mono-stable, and automatically returns to a reference position when released. | ||||||
| 73 | LOCKING DEVICE FOR LOCKING A MOVABLE COMPONENT | US14408101 | 2013-06-15 | US20150143946A1 | 2015-05-28 | Laszlo Mitre |
| The invention relates to a locking device for locking a movable component, in particular a superposition drive, comprising a locking element which in a locking position is formed to cooperate with the movable component. The locking element includes a damping mechanism which during the movement of the locking element into the locking position attenuates a mechanical contact of the locking element with the movable component. The damping mechanism comprises an elastically mounted contact element movable relative to the locking element, which is arranged such that during the movement of the locking element into the locking position it gets in contact with the movable component. | ||||||
| 74 | METHOD FOR RELEASING OR BLOCKING THE FUNCTION OF STEERING WHEEL OR STEERING COLUMN SWITCHES ON A CASE-BY-CASE BASIS, AND MOTOR VEHICLE HAVING STEERING WHEEL AND STEERING COLUMN SWITCHES | US14405457 | 2013-06-03 | US20150143941A1 | 2015-05-28 | Thomas Oeltjebruns; Uwe Thiesmeyer |
| The invention relates to a method for case-based enabling or disabling of the function of steering wheel or steering column switches in a motor vehicle. According to the invention, at least one function of one of the steering wheel or steering column switches is enabled or disabled depending on the operation of another steering wheel or steering column switch. | ||||||
| 75 | FIXED ADJUSTMENT DIAL | US13973393 | 2013-08-22 | US20150053043A1 | 2015-02-26 | Anthony L. Livolsi |
| A mechanism to prevent a knob from being moved accidentally. An inner hub is held in place on the adjustable shaft. An knob body fits concentrically over the inner hub, and is biased into position over the hub. The bottom of the barrel has locking structure which lockingly but releasingly cooperates with locking structure associated with the piece of equipment (e.g. musical instrument or amplifier) to which the shaft is affixed. The biasing means retains the knob body in a first, locked, position, in which the knob body is prevented from rotating, which in turn prevents rotation of the adjustable shaft. However, when the knob body is pulled away from the locking structure against the spring force, the knob body can be rotated, which in turn rotates shaft. Releasing the knob body allows the spring to urge the knob body back into engagement by the locking structure. | ||||||
| 76 | Radio-controlled watch | US13634403 | 2011-03-23 | US08792308B2 | 2014-07-29 | Akira Kato; Takushi Hagita; Tadashi Yasuoka |
| Provided is a radio-controlled watch capable of performing leap second correction even when information on a leap second is not received from a satellite. Provided is a radio-controlled watch that adjusts time by receiving a signal containing time information from a satellite, the radio-controlled watch being configured to: store a leap second correction value to be used for leap second correction with respect to the time information; display a numerical value corresponding to the leap second correction value; receive an instruction operation of changing the leap second correction value from a user in a state in which the numerical value is displayed; and change the leap second correction value in response to the received instruction operation. | ||||||
| 77 | User Interface for a Power Folding Stroller | US14100182 | 2013-12-09 | US20140091558A1 | 2014-04-03 | Robert D. Daley; Henry F. Thorne; Elijah M. Wiegmann; John J. Walker; Frederick Karl Hopke |
| A user interface for a power folding stroller includes: a rotational mechanical joint positioned on the handlebars of the stroller. The rotational mechanical joint is coupled to electrical sensors that must be activated by the user rotating a ring combined with a second step of pressing a button to activate the folding or unfolding process. Once the ring has been rotated the required distance and returned to a home position, an indication, such as an LED light, may be provided to the user that the second action of pushing the button can be undertaken. | ||||||
| 78 | SAFETY LOCKOUT HASP WITH CABLE | US13921812 | 2013-06-19 | US20140000324A1 | 2014-01-02 | Kevin YEH |
| A safety lockout hasp for interaction with equipment, infrastructure, machinery, appliances, tools, implements and the like. The hasp comprising a body, a cable for engaging the plant and a movable member being movable relative to the body between an open condition and a closed condition. The movable member interacting with the cable such that in the closed condition an intermediate portion of the cable is secured in its position relative to the body. The movable member also interacts with the body such that in use in the closed condition the hasp can accommodate a plurality of locking elements so that the hasp is prevented from disengagement from the plant when accommodating at least one of the plurality of locking elements, and when the movable member is in the open condition the hasp is prevented from accommodating any of the locking elements. | ||||||
| 79 | Fluid dispensing device including a pump | US12891412 | 2010-09-27 | US08517220B2 | 2013-08-27 | Xavier Julia; Gaetan Painchaud; Julien Brand; Gilles Besoin |
| A fluid dispenser device including a pump for dispensing the fluid; a first arm referred to as the “main” arm, mounted to pivot on the device about an axis referred to as the “main” axis, which arm has a press zone on which the user exerts pressure in order to actuate the pump; and a second arm, referred to as the “intermediate” arm, mounted to pivot on the main arm about an axis, referred to as the “intermediate” axis, this axis being disposed on the main arm between the press zone and the main axis, and the intermediate arm being configured to transmit the movement of the press zone to the pump. | ||||||
| 80 | FEED CONTROL LOCK FOR HAND OPERATED DRAIN CLEANER | US13680453 | 2012-11-19 | US20130160227A1 | 2013-06-27 | Michael J. Rutkowski; Paul W. Gress; Jon R. Dunkin |
| A hand operated drain cleaner includes a manually operated rotatable drum and an elongated flexible cable at least partially held in the drum. A portion of the cable extending from the drum has a cable axis, and rotation of the drum rotates the cable portion about the cable axis. A handle is adapted to rotatably support the drum. The handle includes a barrel portion and a handle portion. A feed control device includes a housing having a feed passage axially therethrough for receiving the cable and a trigger for moving the feed control device between a non-actuating position and an actuating position. In the actuating position, a feed control device is pivoted relative to the handle such that the driving mechanism engages the cable thereby inducing axial movement of the cable via rotation of the drum. A locking mechanism is opera operably associated with the feed control device. | ||||||
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