| 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 | Electric switch having a plurality of pivotally mounted switch actuators | US7971660 | 1960-12-30 | US3131265A | 1964-04-28 | NICHOLAS TORUK |
| 62 | Circuit controller | US72120658 | 1958-03-13 | US2916566A | 1959-12-08 | MEYER BARTHOLD F; NICHOLAS TORUK |
| 63 | Selector and indicator device | US69868657 | 1957-11-25 | US2890299A | 1959-06-09 | ADAMS DANIEL M; GARVEY LOUIS P |
| 64 | Switch Assembly with Multi-Function Compound Switches | US15708761 | 2017-09-19 | US20180114664A1 | 2018-04-26 | Alexandru Salagean |
| In one aspect, a switch assembly includes a switch housing that includes one or more compound switches, each comprising a first switch and a second switch embedded within the first switch. Each compound switch includes a first subassembly of constituent parts that includes the first switch and implements a first switching function. Each compound switch also includes a second subassembly of constituent parts embedded within and carried by the first subassembly of constituent parts. The second subassembly of constituent parts includes the second switch and implements a second switching function that is distinct from the first switching function. The switch assembly includes one or more extended plungers and corresponding guiding features that advantageously allow for the use of a single keypad and PCB with respect to the compound switches. | ||||||
| 65 | INPUT DEVICE HAVING AN OPERATION KNOB | US15730809 | 2017-10-12 | US20180105068A1 | 2018-04-19 | Yoshiteru TAKAYANAGI |
| An input device has operation shafts whose tips project through a first elongate hole and a second elongate hole formed through an upper plate portion of a case main body and that are movable along the upper plate portion of the case main body. An operation knob is movably attached to the tips of the operation shafts. The case main body is provided with elastic support pieces that deform following the movement of the operation knob and elastically support the operation knob. | ||||||
| 66 | MULTIPLE POSITION ELECTRICAL SWITCH | US15638521 | 2017-06-30 | US20180005782A1 | 2018-01-04 | Thierry Burnel; Eric Riffaud |
| An electrical switch includes comprising a fixed upper contact a fixed lower contact, and a mobile contact blade. A fixed support bears the mobile contact blade and the fixed support includes a front support branch and a rear support branch. Each branch includes a transversely oriented horizontal notch, in the bottom of which is housed a transverse free edge of a respectively front and rear section of the mobile contact blade. The fixed support includes two identical support plates spaced transversely apart. | ||||||
| 67 | Electric operating device of vehicle seat | US12515066 | 2007-10-12 | US08410379B2 | 2013-04-02 | Satoru Kuno; Toshihide Azuma; Hisato Shimomura; Jun Yashiro; Yukio Kanzaki |
| An electric operating device includes an operation member for operating to activate a plurality of electric functions provided at a vehicle seat. An operating structure for switching a pivoting position of the operation member is configured as a switching structure for selecting the electric function that is an operational object. Further, an operating structure for switching a slide position in a diametrical direction of the operation member is configured as an operation control structure by which the electric function selected as the operational object is operated to activate. Further, a pushing operation structure of the operation portion is configured as a switching structure for switching a category of an electric function group. The pushing operating structure of the operation member is provided with a return mechanism for returning the operation member operated to be pushed to an initial position taken before the pushing operation by urging the operation member. | ||||||
| 68 | Switch | US12590523 | 2009-11-10 | US08143536B2 | 2012-03-27 | Theo Beil; Ralf Siegler; Axel Mueller |
| A switch (1) for converting mechanically generated movements into electrical switching signals, consisting of a cover (2) and a carrier plate (3) at a distance from one another and fixedly connected together, a switching element (4) that can be moved to a limited extent relative to the cover (2) and be actuated by one or more pushbuttons (5) facing the carrier plate (3), by means of which the particular adjustment movements of the switching element (4) can be measured and are converted into switching signals, the movement direction of the switching element (4) should be being perceived as the movement direction of an object, in particular a vehicle seat, and the switch (1) can be operated in at least six different movement directions. | ||||||
| 69 | Switch control device and switch control method | US12007916 | 2008-01-17 | US08032280B2 | 2011-10-04 | Yumi Shibata; Takayuki Miyajima; Fumiharu Ogawa |
| A control system controls a hardware switch which receives a usage command for utilizing an auxiliary function of a vehicle and a software switch displayed with an information portion indicating the auxiliary function and a command portion for input of the usage command through a screen. When either of the hardware switch or the software switch is operated, information is provided for identifying the other switch that corresponds to the auxiliary function commanded by the operated switch. | ||||||
| 70 | POWER SEAT SWITCH TO PREVENT SIMULTANEOUS ACTIVATION | US12691410 | 2010-01-21 | US20100264006A1 | 2010-10-21 | Alexandru Salagean |
| A switch actuating assembly for an automobile seat has a switch operating member moveable along a first path to operate a first switch associated with a first function and moveable along a second path to operate a second switch associated with a second function. To inhibit operation of both functions simultaneously a guide controls movement of the switch operating member. Guide members act between the switch operating member and the guide so that movement of the switch operating member along one of the paths upon movement of the switch operating member along the other of the paths from a rest position. An interlock is provided between the switch operating members of a pair of switch assemblies so that only one function of one of the switch assemblies can be operated at a time. | ||||||
| 71 | Switch | US12590523 | 2009-11-10 | US20100155208A1 | 2010-06-24 | Theo Beil; Ralf Siegler; Axel Mueller |
| A switch (1) for converting mechanically generated movements into electrical switching signals, consisting of a cover (2) and a carrier plate (3) at a distance from one another and fixedly connected together, a switching element (4) that can be moved to a limited extent relative to the cover (2) and be actuated by one or more pushbuttons (5) facing the carrier plate (3), by means of which the particular adjustment movements of the switching element (4) can be measured and are converted into switching signals, the movement direction of the switching element (4) being perceived as the movement direction of an object, in particular a vehicle seat, and the switch (1) can be operated in at least six different movement directions. | ||||||
| 72 | ELECTRIC OPERATING DEVICE OF VEHICLE SEAT | US12515060 | 2007-10-12 | US20100044202A1 | 2010-02-25 | Satoru Kuno; Toshihide Azuma; Hisato Shimomura; Jun Yashiro; Yukio Kanzaki |
| An electric operating device includes an operation member for operating to activate a plurality of electric functions provided at a vehicle seat. The operation member is disposed at a position outside of the vehicle seat allowing operation by a seated person seated on the vehicle seat. The operation member is constructed to be capable of operating to pivot about an axis and operating to move to slide in a diametrical direction. Further, an operation structure for pivoting about the axis for switching a pivoting position of the operation member is configured as an electric function mode switching structure for selecting the electric function as an operational object from the plurality of electric functions. Further, a slide moving operating structure for switching a slide position in the diametrical direction of the operation member is configured as an activation control structure for operating to activate the electric function selected as the operational object. | ||||||
| 73 | Seat control unit for adjusting a vehicle seat and vehicle seat configuration | US11394623 | 2006-03-31 | US20070235297A1 | 2007-10-11 | Arne Stoschek; Brian Ng; Michael Derse; Philippe Alessandrini; Steffen Ross; Sven Strohband |
| A seat control unit for adjusting a vehicle seat includes a touch sensor having a touch-sensitive fabric. The touch-sensitive fabric is disposed on a support layer which may be formed by a vehicle interior component such as the vehicle seat, an interior door panel or an armrest. The touch sensor generates signals in response to a force exerted on the touch-sensitive fabric. A control circuit is connected the touch sensor and receives the signals generated by the touch sensor. The control circuit determines a position of the force exerted on the touch-sensitive fabric and generates control signals for controlling the vehicle seat in dependence on the position of the force exerted on the touch-sensitive fabric. | ||||||
| 74 | Window control switch system for vehicles | US11296801 | 2005-12-06 | US20070085423A1 | 2007-04-19 | Kyu-Hwan Chin |
| Window control switch system for vehicles are provided that preferably comprise a single switch module which can control manipulation of at least two of i) one or more vehicle windows, ii) one or more vehicle doors and iii) one or more vehicle mirror. Preferred systems also comprise a control module that can receive a signal from the switch module and outputs a control signal to manipulate windows, doors and/or mirrors of a vehicle. Preferred systems also may comprise a cluster module which includes a display unit for receiving a manipulation signal, transmitted from the switch module, through the control module and for displaying a corresponding driving control item, and transmits a current selection mode to the control module. | ||||||
| 75 | Keyless entry touch pad system and method | US11315820 | 2005-12-22 | US20060238385A1 | 2006-10-26 | Timothy Steenwyk; David Dzioba; Michael Taylor |
| A keyless entry touch pad system for a vehicle includes a substrate with a plurality of touch zones disposed on one surface of the substrate, and a plurality of electrode patterns disposed on the opposite surface. An inner electrode of each pattern is aligned with one of the touch zones. Each pattern is electrically coupled to an integrated control circuit, which outputs a signal to and energizes the electrodes of the pattern such that electric fields emanates therefrom. The electrode patterns may be capacitively coupled to the integrated control circuit. When the electric field of the inner electrode is disturbed by a stimulus proximate the corresponding touch zone, the component is activated. Upon activation of the components in a predetermined sequence, a controller causes the vehicle door to unlock. A method of unlocking a vehicle is also disclosed. | ||||||
| 76 | Layered switch assembly | US10836795 | 2004-04-30 | US07002089B2 | 2006-02-21 | Robin Stevenson |
| A layered switch assembly permits more than one electric circuit function to be obtained from each of a set of switches used to control electric circuit functions such as the operation or adjustment of seats, mirrors or other components in an automotive vehicle passenger compartment. A group of switches for operator control is embedded in an armrest, console, or the like. Overlying the discrete switches are two or more flexible sheet or membrane layers for selective activation of one or more of the switches. Illuminated indicia on each switch activation layer identify the underlying switch operation. The uppermost layer controls the electrical switch function unless that layer has been moved aside to expose the next lower switch function activation layer. | ||||||
| 77 | Multifunctional switch | US10478091 | 2002-05-10 | US06953900B2 | 2005-10-11 | Sascha Sottong |
| A multifunctional switch, especially a keyed seat adjusting switch, includes an actuating element which is positioned in a rotational manner and can be displaced in a crosswise manner in a housing which has associated switch contacts for acting on connection contacts and in which the switch contact associated with the rotational movement is integrated. A reversing lever co-operating with actuators and positioned on the housing side, is associated with the actuating element for each of its displacement directions in order to act on the corresponding switch contacts. The actuating element co-operates with the reversing levers by means of an axial guide flange. | ||||||
| 78 | Multifunctional switch | US10478091 | 2003-11-18 | US20040144628A1 | 2004-07-29 | Sascha Sottong |
| The invention relates to a multifunctional switch, especially a keyed seat adjusting switch, comprising an actuating element (4) which is positioned in a rotational manner and can be displaced in a crosswise manner in a housing (1), which has associated switch contacts (17, 47) for acting on connection contacts (44, 48), and in which the switch contact (17) associated with the rotational movement is integrated. A reversing lever (31) co-operating with actuators (36) and positioned on the housing side, is associated with the actuating element (4), for each of its displacement directions, in order to act on the corresponding switch contacts (47). Said actuating element (4) co-operates with the reversing levers (31) by means of an axial guide flange (28). | ||||||
| 79 | Multifunction switch assembly for power adjusted vehicle passenger seat | US09775780 | 2001-02-02 | US20020104742A1 | 2002-08-08 | Anthony J. Novelle; Claus D. Raddatz; Steven J. Long; Kenneth F. Tomerlin |
| A multifunction six-way switch assembly having a plurality of sealed dome type or membrane switches disposed on a circuit board and arranged in pairs such that a single knob actuator may be slidably moved in opposite directions along a first axis for actuating either one of a first pair of membrane switches and slidably moved in opposite directions along a second perpendicular axis for actuating either one of a second and third pair of membrane switches in the same direction for controlling seat adjustment servomotors. Rotation of the single-knob actuator about a third axis normal to the first two axes results in a mutually opposite direction of actuation of the second and third pair of membrane switches. The six-way actuator has only one portion extending externally of the switch housing for attachment of the user knob. | ||||||
| 80 | Switching device | US938328 | 1997-09-26 | US5901839A | 1999-05-11 | Makoto Sasaki; Kouji Sato |
| A switching device which can operate slidably a general-purpose rocking switch by the use of the rocking switch, and achieve reduction in thickness of the device is disclosed. The switching device includes: laterally slidable sliders; levers rockably supported below the sliders by rocking fulcrums, and rocked in engagement with the sliders; and movable contacts rocked by the rocking action of the levers so as to be separated from and brought into contact with fixed contacts, wherein a pair of contact portions of the levers pressed by the sliders are set lower than the rocking fulcrums. | ||||||
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