| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
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| 201 | MULTIPLE POSITIONS ELECTRICAL SWITCH | EP17176870.8 | 2017-06-20 | EP3264434A1 | 2018-01-03 | BURNEL, Thierry; RIFFAUD, Eric |
The invention proposes an electrical switch comprising a fixed upper contact (114) and a fixed lower contact, a mobile contact blade (90), a fixed support (92) which bears the mobile contact blade (90) and which comprises a front support branch and a rear support branch of which each comprises a transversely oriented horizontal notch, in the bottom of which is housed a transverse free edge of a respectively front (100) and rear (104) section of the mobile contact blade (90), characterized in that the fixed support (92) comprises two identical support plates (122) spaced transversely apart.
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| 202 | MULTIDIRECTIONAL INPUT DEVICE | EP17157419.7 | 2017-02-22 | EP3214632A1 | 2017-09-06 | Sasaki, Takayuki; Yamagata, Kazuyoshi |
A multidirectional input device (1) according to an embodiment of the present invention includes a knob (10) that receives sliding operation and rotational operation in an X direction and a Y direction, a first slider (16) that operates integrally with the knob (10), a first switch mechanism (30) having a plurality of contacts (281) that are each turned on or off in response to the displacement of the first slider (16) in the X direction and the Y direction, a second slider (14) that operates by engaging with the first slider (16) rotating and moving in the Y direction, but does not engage with the first slider (16) moving in the X direction, and a second switch mechanism (32) having at least one contact (281) that is turned on or off in response to the displacement of the second slider (14) operating by engaging with the first slider (16) rotating, and keeps being turned on or off despite the displacement of the second slider (14) operating by engaging with the first slider (16) moving in the Y direction.
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| 203 | Power seat control unit | EP10001152.7 | 2010-02-04 | EP2216201B1 | 2014-04-30 | Ujimoto, Takushi; Nakahira, Hiroshi; Shimase, Hiroshi; Kawasaki, Tomohiro; Kihara, Yuuki |
| 204 | Slide switch device | EP12182776.0 | 2012-09-03 | EP2571038B1 | 2014-04-02 | Muto, Shinya |
| 205 | Sitzsteuereinrichtung | EP07004997.8 | 2007-03-12 | EP1839941B1 | 2013-01-09 | Derse, Michael; Strohband, Sven, Dr.; Stoschek, Arne, Dr.; Ross, Steffen; NG, Brian; Alessandrini, Philippe |
| 206 | Switch device | EP11195589.4 | 2011-12-23 | EP2474990A1 | 2012-07-11 | Komatsu, Shinji |
A switch device includes a switch (12) shifting a pair of input and output terminals in a housing (10), and a manipulation knob (11) for shifting the switch (12) is installed to the housing (10). The manipulation knob (11) is capable of performing rotating manipulation at a plurality of rotating positions with respect to the housing (10) and is capable of performing slide manipulation in both the positive (+) and negative (-) directions at each of the plurality of rotating positions, so that the manipulation knob (11) is interconnected with a rotary shaft member (15) which rotates accompanied by the rotating manipulation. The switch (12) gives an output corresponding to each direction according to the manipulation in both the positive (+) and negative (-) directions even though the manipulation knob (11) is any one of the plurality of rotating positions, and the rotary shaft member (15) has a shifting unit (17b) for driving an external shifting mechanism (3) accompanied by the rotating.
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| 207 | ELECTRIC OPERATION DEVICE FOR VEHICLE SEAT | EP07829680.3 | 2007-10-12 | EP2095991B1 | 2011-07-20 | KUNO, Satoru; AZUMA, Toshihide; SHIMOMURA, Hisato; YASHIRO, Jun; KANZAKI, Yukio |
| An electric operation device (6) has an operation section (10) for operating electrically operated functions arranged at a vehicle seat (1). The operational structure for changing the rotational positions of the operation section (10) is constructed as a changeover structure in which an electrically operated function as an operation target is selected. The operation structure for changing the position of slide in the radial direction of the operation section (10) is constructed as an operation control structure in which the electrically operated function selected as the operation target is operated. The operation structure of push-in of the operation section (10) is constructed as a changeover structure in which genres of electrically operated functions are changed. The push-in operation structure of the operation section (10) has a return mechanism for urging and returning the push-operated operation section (10) to an initial position before the push-in operation is made. | ||||||
| 208 | VEHICLE SEAT WITH AN ELECTRIC OPERATING DEVICE | EP07829679.5 | 2007-10-12 | EP2088608B1 | 2011-06-22 | KUNO, Satoru c/o TOYOTA BOSHOKU KABUSHIKI KAISHA; AZUMA, Toshihide c/o TOYOTA BOSHOKU KABUSHIKI KAISHA; SHIMOMURA, Hisato c/o ALPS ELECTRIC CO., LTD.; YASHIRO, Jun c/o ALPS ELECTRIC CO., LTD.; KANZAKI, Yukio c/o ALPS ELECTRIC CO., LTD. |
| Electric operating device (6) includes operating part (10) for actuation/operation of multiple electric functions, fitted to vehicle seat (1). The operating part (10) is disposed at an outside position of the vehicle seat (1) in a fashion such that any sitter on the vehicle seat (1) can operate the same. The operating part (10) is structured so as to allow not only axial turning operation but also slide movement operation in a radial direction. The axial turning operating structure for switching the turning position of the operating part (10) is an electric function mode switching structure allowing selection of an electric function as an operation subject among the multiple electric functions. The slide movement operation structure for switching the position of slide of the operating part (10) in a radial direction is an actuation control structure for actuation/operation of the electric function selected as the operation subject. | ||||||
| 209 | ELECTRIC OPERATION DEVICE FOR VEHICLE SEAT | EP07829680 | 2007-10-12 | EP2095991A4 | 2010-06-30 | KUNO SATORU; AZUMA TOSHIHIDE; SHIMOMURA HISATO; YASHIRO JUN; KANZAKI YUKIO |
| 210 | ELECTRIC OPERATING DEVICE FOR VEHICLE SEAT | EP07829679 | 2007-10-12 | EP2088608A4 | 2010-06-02 | KUNO SATORU; AZUMA TOSHIHIDE; SHIMOMURA HISATO; YASHIRO JUN; KANZAKI YUKIO |
| 211 | Schalteranordnung, insbesondere zur Verstellung eines Fahrzeugsitzes | EP06010644.0 | 2006-05-24 | EP1859986B1 | 2009-11-25 | Eisenmüller, Georg; Kessel, Heiko |
| 212 | ELECTRIC OPERATION DEVICE FOR VEHICLE SEAT | EP07829680.3 | 2007-10-12 | EP2095991A1 | 2009-09-02 | KUNO, Satoru; AZUMA, Toshihide; SHIMOMURA, Hisato; YASHIRO, Jun; KANZAKI, Yukio |
An electric operating device (6) includes an operation member (10) for operating to activate a plurality of electric functions provided at a vehicle seat (1). An operating structure for switching a pivoting position of the operation member (10) 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 (10) 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 (10) is configured as a switching structure for switching a category of an electric function group. The pushing operating structure of the operation member (10) is provided with a return mechanism for returning the operation member (10) operated to be pushed to an initial position taken before the pushing operation by urging the operation member (10). |
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| 213 | Sitzverstellschalter | EP03400063.8 | 2003-10-30 | EP1428717B1 | 2009-09-02 | Mahler, Reinhard; Petzold, Manuel; Weber, Markus |
| 214 | ELECTRIC OPERATING DEVICE FOR VEHICLE SEAT | EP07829679.5 | 2007-10-12 | EP2088608A1 | 2009-08-12 | KUNO, Satoru; AZUMA, Toshihide; SHIMOMURA, Hisato; YASHIRO, Jun; KANZAKI, Yukio |
An electric operating device (6) includes an operation member (10) for operating to activate a plurality of electric functions provided at a vehicle seat (1). The operation member (10) is disposed at a position outside of the vehicle seat (1) allowing operation by a seated person seated on the vehicle seat (1). The operation member (10) 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 (10) 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 (10) is configured as an activation control structure for operating to activate the electric function selected as the operational object. |
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| 215 | SEAT CONTROL SYSTEM | EP05855268.8 | 2005-12-22 | EP1833700A1 | 2007-09-19 | DZIOBA, David, A. |
| The present invention relates to a seat control system for a vehicle. The system 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 active electrical component, which energizes the electrodes of the pattern such that electric fields emanate therefrom. The pattern may be capacitively coupled to the component. 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 one of the components, a controller causes the seat to move in a desired direction. | ||||||
| 216 | ELEKTRISCHER SCHALTER | EP01911342.2 | 2001-01-08 | EP1247286B1 | 2006-07-05 | RUDOLPH, Gerd; SOTTONG, Sascha |
| The invention relates to an electric switch that comprises an actuator element (1) that is slidably disposed in a housing (6). Said actuator element, via control cams (9), impinges associated switch contacts (13) that are connected to connecting terminals (18). An actuator (11) is disposed between every control cam (9) and the associated switch contact (13), one end of said actuator being firmly mounted in the housing. The free end of said actuator impinges the switch contact (13) while the actuator (11) carries a cam (20) that corresponds to an associated control cam (9). | ||||||
| 217 | Sitzverstellschalter | EP03400063.8 | 2003-10-30 | EP1428717A2 | 2004-06-16 | Mahler, Reinhard; Petzold, Manuel; Weber, Markus |
Die Erfindung betrifft einen Sitzverstellschalter für ein Kraftfahrzeug mit zwei Tasten (26,28), die in Längsrichtung gegeneinander verschieblich und in Querrichtung miteinander gekoppelt an einem Schaltergehäuse (12) befestigt sind, wobei jede Taste (26,28) mit einem Vierquadrantenschalter (58,60) verbunden ist, dass der eine Vierquadrantenschalter (58) am einen Längsende der einen Taste (26) und dass der andere Vierquadrantenschalter (60) am anderen, entfernt liegenden Längsende der anderen Taste (28) angreift. |
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| 218 | Power seat switch apparatus for vehicle | EP01126222.7 | 2001-11-05 | EP1205343A1 | 2002-05-15 | Saiki, Shinichi |
A seat horizontal movement switching section (16) is operated in a horizontal direction for moving an entire seat in a horizontal direction. A bottom-front vertical movement switching section (17) is operated in a vertical direction for adjusting the bottom-front of a seat (12) in the vertical direction. A bottom-rear vertical movement switching section (18) is operated in the vertical direction for adjusting the bottom-rear of the seat in the vertical direction. An angle adjustment switching section (19) is operated in the horizontal direction for adjusting the angle of a back portion (13). A first knob (20)-is capable of making a horizontal operation and a vertical operation to operate said seat horizontal movement switching section 16 and said bottom-front vertical movement switching section (17). A second knob (21) is capable of making the horizontal operation and the vertical operation to operate said bottom-rear vertical movement switching section (18) and said angle adjustment switching section (19). |
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| 219 | SEAT SWITCH | EP98905818 | 1998-03-09 | EP0966012A4 | 2000-01-26 | SHIRAI SHINJI |
| A seat switch adapted to two different motions of the surface of a power seat, produced at a low cost through adoption of common switch components, and adapted to the operating direction to be matched to the two types of motions of the seat. A vertical switching section (16), a seat slide switching section (15) and a vertical switching section (14) are provided in this order within a case body (11). When it is desired to slide the power seat in the X direction, a seat switch knob (24) is operated in the X direction. Then a seat slide operating shaft (22) shifts in the X direction. A projection (33a) of an operating body (33) presses and shifts one (on the X direction side) of movable contacts of each opening/closing section. As a result, the contacting end on the X direction side of the movable contact comes into contact with a fixed contact. Consequently, a seat sliding motor connected to the switching section (14) is rotated in the forward direction, and the power seat moves forward in the X direction by the rotation of the motor. | ||||||
| 220 | Wipptaster | EP93114115.4 | 1993-09-03 | EP0587056A1 | 1994-03-16 | Schmitz, Heinz Dieter; Stoffel, Andreas |
Die Erfindung betrifft einen Wipptaster (10,11) zum Einsatz in Kraftfahrzeuge mit einem Gehäuse (13), mit einem Sockel (12) als Träger für feste und bewegliche Kontakte (16,18), mit einer Betätigungswippe (15) zur Beaufschlagung der beweglichen Kontakte (18) und mit elektrischen Anschlüssen (24), wobei die als Steckerstifte ausgebildeten elektrischen Anschlüsse (24) parallel zur Montagefläche des Wipptasters (10,11) angeordnet sind. |
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