| 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 | Switch | US14559192 | 2014-12-03 | US09786446B2 | 2017-10-10 | Takashi Goto; Kazuo Katagiri |
| A switch includes a first arm that is rotatably supported, a first contact member that is provided at a free end of the first arm, a second arm that is rotatably supported, and a second contact member that is provided at a free end of the second arm and is to come into contact with the first contact member. After the first contact member and the second contact member have come into contact with each other, a point of contact between the first contact member and the second contact member is displaced with rotational motions of the first arm and the second arm. | ||||||
| 22 | High Voltage Disconnection Telescopic Switch Insulated by Air With a Moving Contact with Pressure Supply | US15529889 | 2015-11-26 | US20170263396A1 | 2017-09-14 | Mikhail Sotnikov |
| This invention makes reference to interrupter high voltage air-insulated telescopic disconnection switch with moving contact for supplying pressure, consisting of: a first male conductor comprising a first guide-positioner means internally coupled with such first male conductor via an intermediate section, a plurality of double-sided contact plates peripherally coupled with the intermediate section border; a second female conductor coaxially separated from the first male conductor comprising a second guide-positioner means internally coupled with such second female conductor by an intermediate section; a plurality of double-sided contact plates peripherally coupled with the intermediate section border; a moving conductor consisting of guide means internally coupled with such moving conductor by an intermediate support, being such conductor mobile and coaxially coupled with the interior of the first male conductor, where it moves to an open position, and is separated from the first male conductor and to a close position where such moving conductor causes a contact between the first male conductor and the second female conductor, by interacting among themselves to the first guide-positioner means of the first male conductor, the second guide-positioner means of the second female conductor and the guide means of the moving conductor; a plurality of contact plates peripherally coupled with the intermediate support border of the moving conductor, each of such contact plates having contact means for supplying pressure. | ||||||
| 23 | DE-BOUNCING KEYPAD AND PREPARATION METHOD THEREOF | US15318074 | 2015-07-15 | US20170133174A1 | 2017-05-11 | Huisheng Han; Zhenxing Wang; Yang Ding; Hongmei Zhang; Zhihao Dong; Jie Shi |
| The present invention discloses a de-bouncing keypad and a preparation method thereof, wherein the keypad is composed of a rubber substrate and a metal contact having three layers of layered structures. A layer of tin alloy or lead alloy is plated on a surface of the metal contact by electroplating or chemical plating. The metal contact plated with the tin alloy or lead alloy has excellent contact bouncing resistance and arc-ablation resistance, and the metal contact is further composited with the rubber to shape and prepare the rubber de-bouncing keypad. | ||||||
| 24 | Hybrid relay | US14217172 | 2014-03-17 | US09601284B2 | 2017-03-21 | Steve Chapel; William Pachoud |
| A relay (1) includes a motor (20) and a primary electrical switch assembly (132). Primary electrical switching attachment points (113) are switched by a moveable switching link (101) which is moved in and out of the switch on an switched off position axially by the motor (20) in response to electrical signals delivered to the coil (26) via the flexible leads (32, 33). The switching link (101) includes a mercury reservoir (119). A piezoelectric disk bender (105) displaces mercury to close the gaps between the attachment points (113). | ||||||
| 25 | SWITCH | US14559192 | 2014-12-03 | US20150206665A1 | 2015-07-23 | Takashi GOTO; Kazuo KATAGIRI |
| A switch includes a first arm that is rotatably supported, a first contact member that is provided at a free end of the first arm, a second arm that is rotatably supported, and a second contact member that is provided at a free end of the second arm and is to come into contact with the first contact member. After the first contact member and the second contact member have come into contact with each other, a point of contact between the first contact member and the second contact member is displaced with rotational motions of the first arm and the second arm. | ||||||
| 26 | CONTACT DEVICE AND ELECTROMAGNETIC RELAY EQUIPPED WITH THE CONTACT DEVICE | US14412946 | 2013-07-01 | US20150194284A1 | 2015-07-09 | Katsuya Uruma; Hideki Enomoto; Yohji Ikeda |
| A contact device includes: a contact block including a plurality of fixed terminals on which fixed contacts are formed, and a movable contactor on which movable contacts contacting and leaving the fixed contacts are formed; and a driving block that drives the movable contactor. Moreover, it is made possible to extinguish arcs, which are generated in an event where the contacts contact and leave each other, by arranging permanent magnets on a periphery of the contact block. Then, at least one fixed terminal among the plurality of fixed terminals is formed so that the fixed contact and the movable contact can abut against each other in a region other than a side opposite to the other fixed terminal. | ||||||
| 27 | Hybrid relay | US15425831 | 2017-02-06 | US10068730B2 | 2018-09-04 | Steve Chapel; William Pachoud |
| A relay (1) includes a motor (20) and a primary electrical switch assembly (132). Primary electrical switching attachment points (113) are switched by a moveable switching link (101) which is moved in and out of the switch on an switched off position axially by the motor (20) in response to electrical signals delivered to the coil (26) via the flexible leads (32, 33). The switching link (101) includes a mercury reservoir (119). A piezoelectric disk bender (105) displaces mercury to close the gaps between the attachment points (113). | ||||||
| 28 | Contact device and electromagnetic relay equipped with the contact device | US14412946 | 2013-07-01 | US09881758B2 | 2018-01-30 | Katsuya Uruma; Hideki Enomoto; Yohji Ikeda |
| A contact device includes: a contact block including a plurality of fixed terminals on which fixed contacts are formed, and a movable contactor on which movable contacts contacting and leaving the fixed contacts are formed; and a driving block that drives the movable contactor. Moreover, it is made possible to extinguish arcs, which are generated in an event where the contacts contact and leave each other, by arranging permanent magnets on a periphery of the contact block. Then, at least one fixed terminal among the plurality of fixed terminals is formed so that the fixed contact and the movable contact can abut against each other in a region other than a side opposite to the other fixed terminal. | ||||||
| 29 | Keyboard hinge mechanism | US14501680 | 2014-09-30 | US09793066B1 | 2017-10-17 | John M. Brock; Patrick Kessler; Craig C. Leong; Keith J. Hendren; James J. Niu |
| Embodiments described herein provide a low travel switch mechanism. The low travel switch mechanism may include a substrate, a dome coupled to the substrate, a keycap, and an integrated pivot component disposed between the keycap and the dome. The integrated pivot component may include a hinge assembly coupled to a light guide structure. The hinge assembly may secure to the substrate, via one or more hinge interconnects, joints, or interlock features to form a pivot point. When the keycap receives a keystroke, the integrated pivot component may be operative to pivot about the pivot point and contact the dome to cause a switching event or operation. | ||||||
| 30 | HYBRID RELAY | US15425831 | 2017-02-06 | US20170207043A1 | 2017-07-20 | Steve Chapel; William Pachoud |
| A relay (1) includes a motor (20) and a primary electrical switch assembly (132). Primary electrical switching attachment points (113) are switched by a moveable switching link (101) which is moved in and out of the switch on an switched off position axially by the motor (20) in response to electrical signals delivered to the coil (26) via the flexible leads (32, 33). The switching link (101) includes a mercury reservoir (119). A piezoelectric disk bender (105) displaces mercury to close the gaps between the attachment points (113). | ||||||
| 31 | SWITCH DEVICE FOR AN IGNITION SYSTEM | US14890992 | 2014-04-08 | US20160111235A1 | 2016-04-21 | Flavio Luis CARTAPATTI |
| The present invention relates to a switch device for ignition systems and, more particularly, for use in cooking equipment or heating systems in general, such as to obtain the electrical contact necessary to generate the spark for activating the burner. More preferably, the present invention includes innovative functional and technical aspects capable of promoting the electrical contact necessary to activate the burner, but principally to increase the levels of safety in relation to movement of the controls of cooking equipment/heating equipment, principally in connection with the return movement of said control. Therefore, the present switch device comprises a casing formed by a lower structural body and another, upper structural body, which engage with one another in such a manner as to accommodate, within, flexible contact blades and a rotary core, the structural bodies having contact surfaces provided with at least one projecting portion; furthermore, an axially moveable commutator ring is engaged on said rotary core. | ||||||
| 32 | HYBRID RELAY | US14217172 | 2014-03-17 | US20150055270A1 | 2015-02-26 | Steve Chapel; William Pachoud |
| A relay (1) includes a motor (20) and a primary electrical switch assembly (132). Primary electrical switching attachment points (113) are switched by a moveable switching link (101) which is moved in and out of the switch on an switched off position axially by the motor (20) in response to electrical signals delivered to the coil (26) via the flexible leads (32, 33). The switching link (101) includes a mercury reservoir (119). A piezoelectric disk bender (105) displaces mercury to close the gaps between the attachment points (113). | ||||||
| 33 | 接点装置および当該接点装置を搭載した電磁継電器 | JP2012152663 | 2012-07-06 | JP5938745B2 | 2016-06-22 | 粉間 克哉; 榎本 英樹; 池田 陽司 |
| 34 | ドーム状ばね及びスイッチ | JP2011107861 | 2011-05-13 | JP5772204B2 | 2015-09-02 | 関口 力; 稲本 繁典; 荒内 正彦 |
| 35 | スイッチ | JP2014006971 | 2014-01-17 | JP2015135764A | 2015-07-27 | 後藤 崇志; 片桐 和夫 |
| 【課題】多数回連続的にパルス大電流を通電できるスイッチを提供する。 【解決手段】回転可能に支持された第1のアームと、前記第1のアームの自由端側に配置された第1の接点部材と、回転可能に支持された第2のアームと、前記第2のアームの自由端側に配置され、前記第1の接点部材に接触する第2の接点部材とを備え、前記第1の接点部材と前記第2の接点部材とが接触した後に、両接点部材の接触位置が前記第1のアーム及び前記第2のアームの回転動作にともなって変位する構成である。 【選択図】図1 |
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| 36 | Contact device and electromagnetic relay mounted with the same | JP2012152663 | 2012-07-06 | JP2014017086A | 2014-01-30 | KONAMA KATSUYA; ENOMOTO HIDEKI; IKEDA YOJI |
| PROBLEM TO BE SOLVED: To provide a contact device capable of suppressing reduction of arc cut-off performance, and an electromagnetic relay mounted with the contact device.SOLUTION: A contact device 10 includes: plural fixed terminals 33 each having a fixed contact 32 form therein; a contact block 3 having a movable contact 35 formed with movable contact point 34 which comes into contact with and separates away from the fixed contact 32; and a drive block 2 that drives the movable contact 35. By disposing a permanent magnet 46 around the contact block 3, arc which occurs when the contacts come into contact with each other and separate away from each other can be eliminated. At least one fixed terminal 33 in the plural fixed terminals 33 is formed so that the fixed contact 32 and the movable contact point 34 come into contact with each other in an area other than the side opposing to the other fixed terminal 33. | ||||||
| 37 | CONTACT DEVICE AND ELECTROMAGNETIC RELAY EQUIPPED WITH CONTACT DEVICE | EP13812568 | 2013-07-01 | EP2871661B1 | 2017-05-03 | URUMA KATSUYA; ENOMOTO HIDEKI; IKEDA YOHJI |
| A contact device (10) includes: a contact block (3) including a plurality of fixed terminals (33) on which fixed contacts (32) are formed, and a movable contactor (35) on which movable contacts (34) contacting and leaving the fixed contacts (32) are formed; and a driving block (2) that drives the movable contactor (35). Moreover, it is made possible to extinguish arcs, which are generated in an event where the contacts contact and leave each other, by arranging permanent magnets (46) on a periphery of the contact block (3). Then, at least one fixed terminal (33) among the plurality of fixed terminals (33) is formed so that the fixed contact (32) and the movable contact (34) can abut against each other in a region other than a side opposite to the other fixed terminal (33). | ||||||
| 38 | TRENNEREINHEIT MIT ELEKTROMAGNETISCHEM ANTRIEB | EP13792273.8 | 2013-10-25 | EP3044799A1 | 2016-07-20 | BACHMAIER, Georg; GÖDECKE, Andreas; IMAMOVIC, Denis; KOSSE, Sylvio |
| The invention relates to a mechanical separating unit 1 for interrupting a line. The separating unit 1 comprises a contact arrangement and an electromagnetic drive means 5, 6. The contact arrangement has a first and a second fixed contact 2, 3 and a guided moving contact 4. The electromagnetic drive means 5, 6 is designed to move the moving contact 4. The separating unit 1 can assume a first and a second state, wherein no electric connection exists between the first and the second fixed contact 2, 3 in the first state, and the moving contact 4 electrically connects the two fixed contacts 2, 3 to each other in the second state. The separating unit 1 can be transferred from the second state into the first state by moving the moving contact 4. The invention is characterized in that the second fixed contact 3 has a recess 31 for receiving the moving contact 4, and the moving contact 4 engages at least partly into the recess 31 when the separating unit 1 is in the first state. | ||||||
| 39 | Providing capacitive sensing to a push button | EP14166048.0 | 2014-04-25 | EP2937998A1 | 2015-10-28 | Sim, Mark; Chen, Koh Siang |
An assembly is provided for providing capacitive sensing to a push button. The assembly comprises a printed circuit board (120) having a component side (120C) and a button side (120B). The component side comprises a conductive layer for surface mounting of electronic components, while the button side comprises a push detection element (140) for use in push detection of the push button (040). A sensor controller is mounted on the component side. A capacitive sensor comprises a conductive plate (160) having at least two connectors protruding and angling away from the conductive plate. The printed circuit board (120) comprises at least two through-holes (122, 124). The conductive plate (160) is arranged on the button side (120B), with the at least two connectors extending through respective ones of the at least two through-holes to the component side (120C) for establishing an electrical connection to the sensor controller. This assembly enables capacitive sensing without needing a conductive layer on the button side. Advantageously, a double-sided PCB is not needed. Rather, a single-sided PCB suffices.
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| 40 | Elektrische Schalteinrichtung | EP01107669.2 | 2001-03-28 | EP1160814B1 | 2007-11-28 | Spratte, Joachim; Reinhardt, Jörg |
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