| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 21 | JPS4916876A - | JP4208073 | 1973-04-13 | JPS4916876A | 1974-02-14 | |
| 22 | KRAFTFAHRZEUG-BEDIENGERÄT MIT SCHALL ERZEUGENDEM SCHALTELEMENT | EP16703430.5 | 2016-01-28 | EP3268975B1 | 2018-12-05 | WACHINGER, Michael |
| 23 | COMMUTATEUR ELECTRIQUE MODULAIRE ET DISPOSITIF DE COMMUTATION ELECTRIQUE COMPRENANT AU MOINS UN TEL COMMUTATEUR | EP03718914.9 | 2003-02-27 | EP1479088B1 | 2006-05-17 | GAUZIN, Joël |
| The invention relates to a modular electrical breaker and electrical breaker device comprising at least one such breaker. The electrical breaker is characterised in that the housing (4) is detachably mounted relative to the breaker element (8) and may be replaced by another housing for a different control bistable (4), detachably fixed relative to the breaker element (8) in order to change to electrical function of the breaker element or the mode of action thereof. The invention is particularly applicable in truck-like vehicles. | ||||||
| 24 | Elektrischer Tastschalter | EP99101255.0 | 1999-01-23 | EP0948010A3 | 2000-07-12 | Gediger, Frank |
Die vorliegende Erfindung betrifft einen elektrischen Tastschalter (1) mit mindestens einer kippbar gelagerten, auf mindestens ein Schaltkontaktelement (10) wirkenden Betätigungswippe (8), wobei die Betätigungswippe (8) mittelbar über einen wahlweise in einer von mindestens zwei verschiedenen Lagen montierbaren Schaltarm (14) auf das bzw. jedes Schaltkontaktelement (10) wirkt. Der Schaltarm (14) definiert einerseits zwei einander gegenüberliegende Anlageebenen (16, 17) zum wahlweisen, lageabhängigen Zusammenwirken mit dem jeweiligen Schaltkontatktelement (10) sowie andererseits zwei den Anlageebenen (16, 17) jeweils gegenüberliegende Verbindungsebenene (18, 19) zum wahlweisen, lageabhängigen Zusammenwirken mit der Betätigungswippe (8), wobei je nach Lage des Schaltarms (14) die jeweils auf das/jedes Schaltkontaktelement (10) wirkende Anlageebene (16 oder 17) jedenfalls im wesentlichen parallel zu einer Schalter-Basisebene (20) verläuft, während die jeweils gegenüberliegende, mit der Betätigungswippe (8) zusammenwirkende Verbindungsebene (18 oder 19) zu der Schalter-Basisebene (20) entweder ebenfalls im wesentlichen parallel oder in einem bestimmten Winkel (α) schräg verläuft. |
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| 25 | Elektrischer Tastschalter | EP99101255.0 | 1999-01-23 | EP0948010A2 | 1999-10-06 | Gediger, Frank |
Die vorliegende Erfindung betrifft einen elektrischen Tastschalter (1) mit mindestens einer kippbar gelagerten, auf mindestens ein Schaltkontaktelement (10) wirkenden Betätigungswippe (8), wobei die Betätigungswippe (8) mittelbar über einen wahlweise in einer von mindestens zwei verschiedenen Lagen montierbaren Schaltarm (14) auf das bzw. jedes Schaltkontaktelement (10) wirkt. Der Schaltarm (14) definiert einerseits zwei einander gegenüberliegende Anlageebenen (16, 17) zum wahlweisen, lageabhängigen Zusammenwirken mit dem jeweiligen Schaltkontatktelement (10) sowie andererseits zwei den Anlageebenen (16, 17) jeweils gegenüberliegende Verbindungsebenene (18, 19) zum wahlweisen, lageabhängigen Zusammenwirken mit der Betätigungswippe (8), wobei je nach Lage des Schaltarms (14) die jeweils auf das/jedes Schaltkontaktelement (10) wirkende Anlageebene (16 oder 17) jedenfalls im wesentlichen parallel zu einer Schalter-Basisebene (20) verläuft, während die jeweils gegenüberliegende, mit der Betätigungswippe (8) zusammenwirkende Verbindungsebene (18 oder 19) zu der Schalter-Basisebene (20) entweder ebenfalls im wesentlichen parallel oder in einem bestimmten Winkel (α) schräg verläuft. |
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| 26 | Schalter mit auf die Leiterplatte aufgerasteten Schaltmodulen | EP96117607.0 | 1996-11-04 | EP0773568A2 | 1997-05-14 | Preinfalk, Hans; Weber, Adam |
Die Erfindung betrifft eine Schalterkombination zur Betätigung von Fensterhebern. Dabei sollen wahlweise zwei oder mehr Kippschalter eingesetzt werden. Aufgabe der Erfindung ist es, eine preiswerte und zuverlässig arbeitende Schalterkombination vorzuschlagen. Die Erfindung besteht im Prinzip darin, einzelne Schalterbaugruppen, zu denen die Schaltwippe (20), ein Diodenhalter (29) und ein Anschlußstecker (5) gehören können, auf eine Leiterplatte (4) aufzurasten. Vorteilhafte Weiterbildungen der Erfindung beschäftigen sich mit der gegenseitigen Abstützung und Kombination der Baugruppen und der Verbesserung der Abdichtung gegen Feuchtigkeit bei Einbau der Schalterkombination in die Türarmlehnen. |
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| 27 | Slide switch sideways operation adapter | EP84111724.5 | 1984-10-01 | EP0138136B1 | 1992-07-01 | Bingo, Hideyuki, Omron Tateisi Electronics Co.; Yoshimura, Takashi, Omron Tateisi Electronics Co.; Yamashita, Masatsugu,Omron Tateisi Electronics Co.; Hashizume, Shinichi, Omron Tateisi Electronics Co.; Iwakiri, Norio, Omron Tateisi Electronics Co. |
| 28 | Sealed electrical components and method of making same | EP88303644.4 | 1988-04-22 | EP0290171A1 | 1988-11-09 | Ibrahim, Emad Kamel; Smolin, Edwin Marvin; Solbrig, Carolyn Elizabeth |
An electrical component (20) comprises electrical circuit means (22) and housing member (50) disposed over a first portion (24) of the electrical circuit means (22). The circuit means (22) has a second portion (30) extending outwardly from the housing member (50) at a junction (32) with the first portion (24). The housing member (50) comprising a dielectric amorphous thermoplastic resin which is molded over the first portion (24) of the electrical circuit means (22). The composition seals the interface (56) of the housing (50) and the extending second portion (30) of the circuit means (22) and maintains sealing engagement therewith when stress is applied to the interface (56). |
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| 29 | Sealed electrical contact assembly and electrical switch made therefrom | EP82306233 | 1982-11-23 | EP0081929A3 | 1984-08-29 | Gingerich, David John; McCarty, Patrick Raymond; Shaffer, David Todd; Olsson, Billy Erik |
A sealed electrical contact assembly (10, 110) comprises a dielectric frame (14, 114) in which a plurality of aligned stationary electrical contact members (16, 18, 116, 118) are secured as opposing sets of contact members (16A, 18A, 116A, 118A) and movable electrical contact members (34, 134) interconnect each set of stationary contact members (16A, 18A, 116A, 118A). One (18A, 118A) of the opposing sets of stationary contact members (16A, 18A, 116A, 118A) and the movable contact members (34, 134) have matable pivot areas (32, 132, 36, 136) at which the movable contact members (34,134) are mounted so that the movable contact members (34, 134) can be moved to a position electrically connecting the opposing sets of stationary contact members (16A, 18A, 116A, 118A). A membrane (42,142) is sealingly secured onto the frame (14,114) covering each set of stationary (16A, 18A, 116A, 118A) and movable contact members (34,134) associated therewith. A housing (48,148) Is latchably secured onto the contact assembly (10,110) and has movable members (50,150) positioned in housing (48, 148) with spring-biased members (54, 154) engaging movable contact members (34,134) through membrane (42,142) to move movable contact members (34,134) from one position electrically connecting the opposing sets of stationary contact members (16A, 18A, 116A, 118A) to another position disconnecting the opposing sets of stationary contact members (16A, 18A, 116A, 118A) |
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| 30 | Sealed electrical contact assembly and electrical switch made therefrom | EP82306233.6 | 1982-11-23 | EP0081929A2 | 1983-06-22 | Gingerich, David John; McCarty, Patrick Raymond; Shaffer, David Todd; Olsson, Billy Erik |
A sealed electrical contact assembly (10, 110) comprises a dielectric frame (14, 114) in which a plurality of aligned stationary electrical contact members (16, 18, 116, 118) are secured as opposing sets of contact members (16A, 18A, 116A, 118A) and movable electrical contact members (34, 134) interconnect each set of stationary contact members (16A, 18A, 116A, 118A). One (18A, 118A) of the opposing sets of stationary contact members (16A, 18A, 116A, 118A) and the movable contact members (34, 134) have matable pivot areas (32, 132, 36, 136) at which the movable contact members (34,134) are mounted so that the movable contact members (34, 134) can be moved to a position electrically connecting the opposing sets of stationary contact members (16A, 18A, 116A, 118A). A membrane (42,142) is sealingly secured onto the frame (14,114) covering each set of stationary (16A, 18A, 116A, 118A) and movable contact members (34,134) associated therewith. A housing (48,148) Is latchably secured onto the contact assembly (10,110) and has movable members (50,150) positioned in housing (48, 148) with spring-biased members (54, 154) engaging movable contact members (34,134) through membrane (42,142) to move movable contact members (34,134) from one position electrically connecting the opposing sets of stationary contact members (16A, 18A, 116A, 118A) to another position disconnecting the opposing sets of stationary contact members (16A, 18A, 116A, 118A) |
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| 31 | 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. | ||||||
| 32 | Electrical switch | US11803054 | 2007-05-10 | US07459647B2 | 2008-12-02 | Meng-Tzung Liu |
| An electrical switch includes a dielectric casing, first and second terminal units, and an actuating unit. The dielectric casing includes a cover and a, mounting seat. The mounting seat is disposed in and attached to the cover. each of front and rear ends of the mounting seat is formed with a notch. Each of the first and second terminal units extends into the cover through the notch in a respective one of the front and rear ends of the mounting seat. The actuating unit extends into and is coupled to the cover, and is operable so as to selectively connect and disconnect the first terminal unit to and from the second terminal unit. | ||||||
| 33 | Operation mechanism for electric apparatus | US11491448 | 2006-07-21 | US07397006B2 | 2008-07-08 | Masao Miyauchi |
| The operation mechanism for electric apparatus is provided. An operation mechanism includes a switch element mounted on a circuit board, an upper housing formed with an opening and covering the circuit board, and an operation grip that has an operation shaft hanging therefrom and which is rotatably supported by the upper housing. When the operation grip is oscillatingly operated, the operation shaft drives actuators of the switch element. | ||||||
| 34 | SWITCH UNIT OPERABLE WITH ROCKER SWITCHES FOR CONTROL UNITS | US11876988 | 2007-10-23 | US20080116048A1 | 2008-05-22 | Britta Straber; Stefan Burmeister; Andreas Rode |
| A switch unit operable with help of rocker switches for control units is disclosed herein. The switch unit is provided with a compact unit for actuating electrical contacts on circuit boards by moving push-button switches by means of push-button caps. The caps are each connected to a swiveling lever which is pivoted in a rotary bearing. Each of the swiveling levers applies mechanical pressure contact to the respective push-button switch when the respective push-button cap is rocked. The compact unit is provided with a fixed part having a circuit board. Each of the push-button switches is located sandwich-like, above and below the circuit board. The circuit board is also inserted into a groove of the rotary bearing. The compact unit is also provided with guiding parts, each itself provided with a guiding forming and a leaf spring in each guiding forming. The compact unit is also provided with a moving part in the form of the swiveling lever pivotable about the rotary bearing. The swiveling lever is divided into two tongue parts spreading V-shaped opposite to the respective push-button cap. Each of the two tongue parts extends towards an associated push-button switch. Both of the guiding formings and the leaf springs cooperate to bias the swiveling lever to an original position. | ||||||
| 35 | Switching arrangement | US11175070 | 2005-07-05 | US07288908B2 | 2007-10-30 | Mike Blossfeld; Robert B. Gilbert |
| An apparatus for controlling an electric motor (14) for, when energized, moving a vehicle window (22) selectively up or down and selectively in an auto up or auto down mode. The apparatus includes an electrical circuit electrically coupled to the electric motor (14) to energize the electrical motor (14) to move the window (22) toward one of the fully open and fully closed positions. The circuit includes a printed circuit board (46) and a first switch (10) for selectively energizing the electrical motor (14). An actuator (32) is movable to actuate the first switch (10) to actuate the electrical motor (14). A second switch (200) for selectively energizing the electrical motor (14) in an auto function mode is activated by a member (150) extending through the printed circuit board (46). | ||||||
| 36 | Elastomeric vehicle control switch | US11055325 | 2005-02-10 | US07268305B2 | 2007-09-11 | Robert M. Schmidt; Mark G. Feldman; James B. Wright |
| A vehicle control switch assembly for use with a printed circuit board that includes a switch having an elastomeric pad portion and a first insert interface attached to the pad. The assembly also includes first and second electrical contacts, each contact being selectively operable to actuate a vehicle function. The switch assembly also includes a pivotable beam member bridging a span between the first electrical contact and the second electrical contact. Movement of the switch in a first direction causes the first insert interface to depress the beam member thereby engaging the first electrical contact with the printed circuit board to actuate the first electrical contact. Further movement of the switch in the first direction causes the first insert interface to slide along the beam member in a second direction to further depress the first beam member thereby actuating the first electrical contact and the second electrical contact. | ||||||
| 37 | Modular electrical breaker and electrical breaker device comprising at least one such breaker | US10505480 | 2003-02-27 | US07202431B2 | 2007-04-10 | Joël Gauzin |
| A modular electrical switch and electrical switching device includes a housing detachably mounted relative to the switching element and replaceable by another housing for a different control, and detachably fixed relative to the switching element in order to change to electrical function of the switching element or the mode of action of the switching element. The invention is particularly applicable in truck-like vehicles. | ||||||
| 38 | Switching arrangement | US11175070 | 2005-07-05 | US20070007919A1 | 2007-01-11 | Mike Blossfeld; Robert Gilbert |
| An apparatus for controlling an electric motor (14) for, when energized, moving a vehicle window (22) selectively up or down and selectively in an auto up or auto down mode. The apparatus includes an electrical circuit electrically coupled to the electric motor (14) to energize the electrical motor (14) to move the window (22) toward one of the fully open and fully closed positions. The circuit includes a printed circuit board (46) and a first switch (10) for selectively energizing the electrical motor (14). An actuator (32) is movable to actuate the first switch (10) to actuate the electrical motor (14). A second switch (200) for selectively energizing the electrical motor (14) in an auto function mode is activated by a member (150) extending through the printed circuit board (46). | ||||||
| 39 | Elastomeric vehicle control switch | US11055325 | 2005-02-10 | US20060186737A1 | 2006-08-24 | Robert Schmidt; Mark Feldman; James Wright |
| A vehicle control switch assembly for use with a printed circuit board that includes a switch having an elastomeric pad portion and a first insert interface attached to the pad. The assembly also includes first and second electrical contacts, each contact being selectively operable to actuate a vehicle function. The switch assembly also includes a pivotable beam member bridging a span between the first electrical contact and the second electrical contact. Movement of the switch in a first direction causes the first insert interface to depress the beam member thereby engaging the first electrical contact with the printed circuit board to actuate the first electrical contact. Further movement of the switch in the first direction causes the first insert interface to slide along the beam member in a second direction to further depress the first beam member thereby actuating the first electrical contact and the second electrical contact. | ||||||
| 40 | Switching device | US10423351 | 2003-04-25 | US06888080B2 | 2005-05-03 | Makoto Sasaki |
| At a position which is overlapped to a space defined between a plane of projection of a first manipulating member with respect to a PCB and a plane of projection of a second manipulating member with respect to the PCB, first and second switches are arranged. First and second portions to be manipulated of the first switch are projected from a switch casing such that the first and second portions to be manipulated of the first switch are pushed and manipulated by projections at back sides of pushing surfaces of the first and second manipulating members, and first and second portions to be manipulated of the second switch are projected from the switch casing such that the first and second portions to be manipulated of the second switch are pushed and manipulated by other projections at back sides of other pushing surfaces of the first and second manipulating members. | ||||||
