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 |
|---|---|---|---|---|---|---|
| 61 | Hydraulic control arrangement for operating a winch with easing, hoisting and mooring modes | US09937252 | 2001-09-19 | US06571553B1 | 2003-06-03 | Heinz Habermann; Wilhelm Kastel |
| A hydraulic control arrangement for operating a winch with an adjustable hydraulic motor in the easing, hoisting and mooring modes. The arrangement comprises a pilot controller with a control lever which can be actuated as desired and can be deflected from a neutral position in opposite directions over a specific easing angle range and over a specific hoisting angle range. Previously, for the mooring mode, the control lever was blocked at a desired point in the hoisting angle range. The control lever, as viewed from the neutral position, can be deflected over a mooring angle range on the other side of the hoisting angle range, with increasing deflection of the control lever in the mooring angle range, the hydraulic motor being adjusted in the direction of a greater absorption volume and therefore in the direction of a greater torque and increased tension on the hawser. This contradicts the usual concept that as the deflection of a control lever increases, that is as the pivoting angle increases, the variable controlled by it also increases. | ||||||
| 62 | Control system having squeeze type manual actuator | US154802 | 1980-05-30 | US4332177A | 1982-06-01 | Herman J. Andresen |
| A squeeze type manual actuator including a control arm with a pair of hand grips extending from the upper end of the arm, at least one of the hand grips being mounted on the arm for movement toward and away from the other hand grips. The hand grips are provided with gripping pads and have a normal spacing in which the pads are respectively engageable by the palm and finger tips of one hand of the operator. The movable hand grip engages a plunger having a return spring. A signal producing device is coupled to the plunger for producing an output signal of pre-selected polarity and which varies in accordance with plunger displacement. In the preferred embodiment of the invention the arm has upper and lower sections with limited lost motion between them in opposite directions from a neutral position. The polarity is pre-selected in accordance with the direction of relative movement between the sections so that by moving the hand grips in a direction to take up lost motion an output signal of desired polarity is produced upon subsequent squeezing together of the hand grips. The arm is hinged at its lower end and a second signal-producing means produces a second output signal in accordance with the rocking movement of the arm, thereby enabling simultaneous independent control of multiple functions. In an alternate embodiment a double-throw switch is used for polarity selection, the switch being mechanically interlocked to prevent throwing between its alternate states when the hand grips are in squeezed condition. | ||||||
| 63 | Interlock for a vehicle brake and clutch control | US604166 | 1975-08-13 | US4037695A | 1977-07-26 | Arnold Emil Welck |
| Provided for controlling the traction drive of a lawn and garden tractor is a vehicle clutch and brake control that includes a hand-operated linkage for selectively shifting a first locking pawl for locking a brake pedal of the control in an engaged parking mode. Connected to the first locking pawl is an interlock member whch is operative to control a second locking pawl for holding the clutch pedal in a position for disengaging the power to the traction drive of the tractor when the first locking pawl is actuated for locking the brake pedal in its engaged parking mode. | ||||||
| 64 | Transmission control brake | US497021 | 1974-08-13 | US3985039A | 1976-10-12 | Joseph A. Federspiel |
| The foot-operated speed control shaft for the hydrostatic transmission of a garden tractor is provided with an operating handle which is pivoted on the shaft for fore and aft movement, and is slightly flexed laterally. This flexure energizes a friction block which is secured to the handle and slides across a fixed braking surface to arrest the control shaft in any selected rotative position. The upper part of the operating handle includes a tube enclosing a spring-loaded plunger and rod. The rod has a lower end extending past the edge of a quadrant which is secured to the control shaft. According to the position of the plunger, the rod end can be either seated within a notch in the edge of the quadrant, or can be locked out of contact with the notch. Since the quadrant is attached to the control shaft, the two control systems, i.e., the normal foot pedal control and the present handle operated control, are connected together, or disconnected, according to the operative position of the plunger and rod, and the hand control system may be overridden by the foot control system if necessary. | ||||||
| 65 | Steering system for an industrial truck | US26959263 | 1963-04-01 | US3211466A | 1965-10-12 | ULINSKI BRONISLAUS I |
| 66 | Actuator | US20488262 | 1962-06-25 | US3186252A | 1965-06-01 | OLANDT JOHN W |
| 67 | Selector mechanism for a push-pull control system | US23333862 | 1962-10-26 | US3169409A | 1965-02-16 | BABACZ LEWIS J |
| 68 | Vehicle transmission control | US60836156 | 1956-09-06 | US2894410A | 1959-07-14 | LIBBY EDWARD W |
| 69 | Foot throttle actuator | US19035938 | 1938-02-14 | US2174419A | 1939-09-26 | SIDNEY HOLTZCLAW |
| 70 | Automobile reverse guard | US40261129 | 1929-10-26 | US1781156A | 1930-11-11 | BROWN HERBERT E |
| 71 | Automatic gear shift | US31344128 | 1928-10-19 | US1754212A | 1930-04-08 | JONES WEBSTER G |
| 72 | SELF-CENTERING SPRING RETURN MECHANISM FOR AN APPLIANCE KNOB | US15413934 | 2017-01-24 | US20180210484A1 | 2018-07-26 | Paul Stoufer |
| A self-centering knob assembly comprising a back disk, a pair of rotary arms, a spring, and a circuit board fixed to the knob shaft, is provided, with the pair of rotary arms and spring disposed between the back disk and circuit board. Each rotary arm defines first and second slots at opposing ends and a center aperture therebetween that rotatably engages the knob shaft. The first slot engages the end stop pin to limit rotation of the rotary arm. The spring defines opposing arms that engage and oppose rotation of respective rotary arms of the pair. The circuit board includes circuitry configured to provide positioning data of the knob shaft, and including a drive pin that, for each rotary arm, engages and carries the second slot in a respective direction of an opposing direction when the knob shaft and thereby the circuit board is rotated in the respective direction. | ||||||
| 73 | USER CONTROLLER WITH USER PRESENCE DETECTION AND RELATED SYSTEMS AND METHODS | US15826166 | 2017-11-29 | US20180147019A1 | 2018-05-31 | Shane Farritor; Nathan Wood; Jason Dumpert |
| The present invention is relates to a user controller having a thumb sheath with an open side defined in the thumb sheath. Further embodiments relate to thumb presence sensors and sensory feedback components associated with the thumb sheath. Additional embodiments relate to an adjustable thumb sheath. Still other embodiments relate to systems comprising such user controllers. | ||||||
| 74 | User interface on console for exercise machine | US15040013 | 2016-02-10 | US09782625B1 | 2017-10-10 | Matthew P. Blum; Warren A. Rickert |
| A console for an exercise machine has a console housing providing a user interface for controlling the exercise machine and a media rack removably attached to the console housing and having a shelf sized to support a media item. At least one touch input element is on the media rack and is operable to control an auxiliary device on the exercise machine. | ||||||
| 75 | MULTI-FUNCTION APPLIANCE KNOB INCORPORATING MULTIPLE ROTATION MODULATING MECHANISMS | US15388611 | 2016-12-22 | US20170102728A1 | 2017-04-13 | Benjamin Edinger; Casey L. McCuan; Leif A. Norland |
| A control knob for an appliance includes an outer control ring, a stationary hub, a rotation modulating mechanism coupled to the outer control ring and engaged with an outer surface of the stationary hub, wherein the outer control ring is rotationally operable about the stationary hub at a first rate, an indicial ring positioned around the stationary hub, wherein the indicial ring engages a portion of the rotation modulating mechanism, wherein rotation of the outer control ring at the first rate causes the rotation modulating mechanism to rotate the indicial ring about the stationary hub at a second rate, the second rate being different than the first rate and an encoder shaft positioned within the stationary hub, wherein an inner gearing mechanism extends between an exterior surface of the encoder shaft and one of the outer control ring and the indicial ring. | ||||||
| 76 | Multi-function appliance knob incorporating multiple rotation modulating mechanisms | US14710999 | 2015-05-13 | US09556939B2 | 2017-01-31 | Benjamin Edinger; Casey L. McCuan; Leif A. Norland |
| A control knob for an appliance includes an outer control ring, a stationary hub, a rotation modulating mechanism coupled to the outer control ring and engaged with an outer surface of the stationary hub, wherein the outer control ring is rotationally operable about the stationary hub at a first rate, an indicial ring positioned around the stationary hub, wherein the indicial ring engages a portion of the rotation modulating mechanism, wherein rotation of the outer control ring at the first rate causes the rotation modulating mechanism to rotate the indicial ring about the stationary hub at a second rate, the second rate being different than the first rate and an encoder shaft positioned within the stationary hub, wherein an inner gearing mechanism extends between an exterior surface of the encoder shaft and one of the outer control ring and the indicial ring. | ||||||
| 77 | MULTI-FUNCTION APPLIANCE KNOB INCORPORATING MULTIPLE ROTATION MODULATING MECHANISMS | US14710999 | 2015-05-13 | US20160333991A1 | 2016-11-17 | Benjamin Edinger; Casey L. McCuan; Leif A. Norland |
| A control knob for an appliance includes an outer control ring, a stationary hub, a rotation modulating mechanism coupled to the outer control ring and engaged with an outer surface of the stationary hub, wherein the outer control ring is rotationally operable about the stationary hub at a first rate, an indicial ring positioned around the stationary hub, wherein the indicial ring engages a portion of the rotation modulating mechanism, wherein rotation of the outer control ring at the first rate causes the rotation modulating mechanism to rotate the indicial ring about the stationary hub at a second rate, the second rate being different than the first rate and an encoder shaft positioned within the stationary hub, wherein an inner gearing mechanism extends between an exterior surface of the encoder shaft and one of the outer control ring and the indicial ring. | ||||||
| 78 | CONTROL CABLE ASSEMBLY | US14679352 | 2015-04-06 | US20160290386A1 | 2016-10-06 | Ed Leither |
| A control cable assembly includes a yoke having a body and a first and second end. The yoke includes a first hinge at its first end and a second hinge at its second end. The first and second hinges may each comprise a pair of eyelets. The first eyelet on each hinge may form a closed loop, and the second eyelet on each hinge may form a partially open loop, having a gap. A first control cable may be connected to the first hinge. A second control cable may be connected to the second hinge. The control cables may be configured to pivot with respect to the yoke. | ||||||
| 79 | Controller shifting device | US14537275 | 2014-11-10 | US09335783B2 | 2016-05-10 | Eric Van Olst; Chih-Chuan Yang; Cheng-Jy Tien |
| A controller shifting device for interconnecting an armrest and a controller of a powered wheelchair includes an adjustment mechanism. The adjustment mechanism includes a casing, a first connection seat connected to the casing for connection with the armrest, and a second connection seat connected to the casing for installation of the controller. When the casing rotates from an operating position to a folded position, the second connection seat is lowered for placing the controller below the armrest. | ||||||
| 80 | 3D INPUT DEVICE HAVING AN ADDITIONAL CONTROL DIAL | US14778315 | 2014-03-11 | US20160062475A1 | 2016-03-03 | Bernd Gombert |
| The invention relates to a 3D input device (1) for controlling the position of an object (8, 14) in space, comprising a manually operable 3D input element (3), at which input element control demands in three spatial coordinates can be input, and a control dial (4), which generates an output signal dependent on the rotational angle when rotated. According to the invention, the 3D input device (1) comprises a control unit (21) which moves the object (8, 14) in space depending on the rotary movement executed at the control dial (4). | ||||||
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