子分类:
- H01H2003/026: ..特别适用于在事故中避免伤害到汽车乘客的
- H01H2003/0266: ..通过电驱动,在非操作位置上操作部分bringable
- H01H2003/0273: ..手动可逆驱动开关
- H01H2003/028: ..旋转旋钮或杠杆或翻转开关,可以只在一个方向用手转动或按动,例如通过使翻转开关的一边无效的
- H01H2003/0286: ..在薄弱处断裂或在非正常外力下解耦合
- H01H2003/0293: ..带有集成的触摸开关的
- H01H3/0206: ..{电气开关以及液体控制设备的联合操作}
- H01H3/0213: ..{电气开关以及可变阻抗的联合操作,如电阻器,电容器 (H01H9/061优先)}
- H01H3/022: ..{紧急操作件,例如,在危险情况中用于急停开关的}
- H01H3/0253: ..{独立动作的两个组合触点(用于联合断路器-接触器的入H01H89/10)}
- H01H3/04: ..杠杆(翻转开关的入H01H23/14)
- H01H3/08: ..转钮
- H01H3/12: ..按钮开关
- H01H3/14: ..除手外的人体其他部分操作的,如脚操作的
- H01H3/16: ..适用于物体在其运动轨迹的限定位置或其他预定位置上动作的操作机构,而物体和开关间的相对运动的本来目的不是使开关(例如门开关、限位开关、电梯楼层开关)动作的
- H01H3/20: ..在主动作允许或起作用前需要辅助或附加动作的,例如开闩、耦合
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 161 | Method for evaluating mechanical performance of opening/closing device, and opening/closing device for implementing the method | JP2012259834 | 2012-11-28 | JP2013115050A | 2013-06-10 | FRANCOIS CAZALS; NEREAU JEAN-PIERRE |
| PROBLEM TO BE SOLVED: To prevent a failure in opening/closing operation due to mechanical wear of an operation mechanism from occurring.SOLUTION: For an opening/closing device that includes a pair of contacts 12, 14 and a driving mechanism 22 for a support arm 16 of a first contact 14 so as to evaluate mechanical performance of the opening/closing device such that the driving mechanism 22 includes a rotary electrode shaft 20, at least one rod 60 coupling the driving mechanism 22 to the support arm 16, and an energy storage system designed to cause a movement for putting the support arm close to the contacts 12, 14, there is provided a method including the steps of: measuring the angle of rotation of the electrode shaft 20 while the contacts 12, 14 are made; reconfiguring at least two specific values through measurement; and comparing the specific values with an operation reference and diagnosing mechanical performance of the driving mechanism 22 according to a comparison state. | ||||||
| 162 | Touch control apparatus | JP2010513875 | 2008-06-23 | JP2010531500A | 2010-09-24 | ヴァンテレ ステファン; ダルメイラック ステファン |
| 【課題】タッチセンサを操作するユーザの姿勢上の便宜を図り、かつタッチセンサを押圧することにより、機能選択とスイッチの作動の両方を実行することができるタッチコントロール装置を提供する。
【解決手段】第1の部分9、およびこの第1の部分9に隣接する第2の部分11を有するプレート7と、このプレート7を覆う可撓性の保護層3と、この保護層3および前記プレート7の第1の部分9の間に挟まれたタッチセンサ5とを備えるタッチコントロール装置において、不動の第1の部分9に対して、第2の部分11が、休止位置と動作位置との間で回動しうるように、両部分9,11を互いに回動可能につなぐヒンジフィルム13を設ける。 【選択図】図1 |
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| 163 | Teaching operation panel | JP2000253318 | 2000-08-24 | JP3650728B2 | 2005-05-25 | 規史 松永 |
| 164 | Teaching control panel | JP2000253318 | 2000-08-24 | JP2002059383A | 2002-02-26 | MATSUNAGA NORIFUMI |
| PROBLEM TO BE SOLVED: To make a deadman switch reliably function in a teaching control panel having a plurality of applying parts for energizing the deadman switch. SOLUTION: This teaching control panel is provided with one deadman switch and a plurality of operating elements for independently energizing the deadman switch by receiving force from the outside by applying parts. The deadman switch is turned off in an unenergized, state of any applying part of the operating elements, it is turned on when the applying part of at least one operating element is energized by a first energizing force, and it is turned off when the applying part of at least one operating element is energized by a second energizing force larger than the first energizing force. In this stage, only after all applying parts of plural operating elements are once de-energized, the deadman switch is again turned on. COPYRIGHT: (C)2002,JPO | ||||||
| 165 | Squeeze switch | JP34495892 | 1992-12-24 | JP2643748B2 | 1997-08-20 | CHO SHOKU |
| 166 | Squeeze switch | JP34495892 | 1992-12-24 | JPH05237266A | 1993-09-17 | CHIYOU SHIYOUKU |
| PURPOSE: To generate sound, light, and action by applying a compression force from any direction out of a plurality of directions by compressing two sections in the approaching direction, when they are firmly held, positioning a projecting part on the other end of a slot, and operating turning-on action of a push switch by an additional means. CONSTITUTION: A housing of a squeeze switch used for a plush toy is constituted of a projecting part 44, and an upper side section 14 and a lower side section 16 fastened to each other by a slot 24. A circuit means 60 which generates sound, light, etc., and incorporates a push switch 66, a load means 30, and conductive means 32, 64 for driving the load means 30 are provided inside the housing. The upper side section 14 and the lower side section 16 are moved to an approaching direction to each other via a bias means 62. When a compression force is applied on the stuffed toy from any direction out of a plurality of directions, the load means 30 is operated. COPYRIGHT: (C)1993,JPO | ||||||
| 167 | JPH04104025U - | JP463291 | 1991-01-18 | JPH04104025U | 1992-09-08 | |
| 168 | ELECTRICAL SWITCHING APPARATUS, AND CROSSBAR ASSEMBLY AND SPRING CAP THEREFOR | US15807014 | 2017-11-08 | US20190139717A1 | 2019-05-09 | BRIAN JOHN SCHALTENBRAND; ANDREW LAWRENCE GOTTSCHALK; DAVID CURTIS TURNER; JAMES P. SISLEY; LISA ANN BUONO |
| A spring cap for an electrical switching apparatus having a housing, a stationary contact, a movable contact disposed on a moving arm, and a crossbar assembly. The crossbar assembly includes a crossbar, a first contact spring, a second contact spring, and a spring clip. The moving arm is coupled to the crossbar. The spring cap includes a first segment structured disposed between the spring clip and the first contact spring, a second segment disposed between the spring clip and the second contact spring, and a connecting portion connecting the first segment to the second segment. The spring clip is disposed between the moving arm and the contact springs. The spring cap supports the spring clip and evenly distribute bias forces of the contact springs. | ||||||
| 169 | Controllable light source | US15356730 | 2016-11-21 | US10104750B2 | 2018-10-16 | Matthew J. Swatsky; Daniel J. Osle; Robert C. Newman, Jr.; Daniel Curtis Raneri |
| A controllable light source is provided that includes a load control circuit and an integrated lighting load. The controllable light source is configured to receive wirelessly communicated commands transmitted by a remote control device associated with the controllable light source, such as a rotary remote control device. The controllable light source may include an actuator for associating the controllable light source with the remote control device, such that the load control circuit is operable to adjust the intensity of the lighting load in response to wireless signals received from the remote control device. The controllable light source may support the actuator such that the actuator may be actuated when the controllable light source is installed in a fixture. | ||||||
| 170 | Switch actuation device | US15794373 | 2017-10-26 | US10073420B2 | 2018-09-11 | Ian Blakeman |
| A switch actuation device for use in connection with electrical switch mechanism having an actuatable structure. The device includes an actuation mechanism in operable communication with the actuatable structure for use in urging the actuatable structure of the electrical switch mechanism from a first position to a second position. An actuatable electrical switch arrangement is also disclosed. | ||||||
| 171 | BATTERY-POWERED CONTROL DEVICE | US15789666 | 2017-10-20 | US20180116039A1 | 2018-04-26 | Matthew V. Harte; Jeffrey S. Hayes; Stephen M. Luwig, JR.; Robert C. Newman, JR.; Jaykrishna A. Shukla |
| Provided herein are examples of a remote control device that provides a retrofit solution for an existing switched control system. The remote control device may comprise a control circuit, a rotatable portion, a magnetic ring coupled to the rotatable portion, and first and second Hall-effect sensor circuits configured to generate respective first and second sensor control signals in response to magnetic fields generated by the magnetic elements. The control circuit may operate in a normal mode when the rotatable portion is being rotated, and in a reduced-power mode when the rotatable portion is not being rotated. The control circuit may disable the second Hall-effect sensor circuit in the reduced-power mode. The control circuit may detect movement of the rotatable portion in response to the first sensor control signal in the reduced-power mode and enable the second Hall-effect sensor circuit in response to detecting movement of the rotatable portion. | ||||||
| 172 | INPUT DEVICE | US15531745 | 2016-02-08 | US20170269711A1 | 2017-09-21 | Shinji HATANAKA; Motoki TACHIIRI |
| An input device includes: an input unit; a supporting unit supporting the input unit; a first actuator; a second actuator; and a magnetic path forming body forming a magnetic circuit that guides a magnetic flux generated by a first magnetic pole forming unit to pass through a second coil and that also guides a magnetic flux generated by a second magnetic pole forming unit to pass through a first coil. A magnetic resistance to be a resistance in the magnetic circuit is disposed at a middle location along a first connection part that connects an end of a first coil side part to an end of a second coil side part, and a second connection part that connects the other end of the first coil side part to the other end of the second coil side part. | ||||||
| 173 | INTELLIGENT LIGHTING CONTROL APPARATUSES, SYSTEMS, AND METHODS | US15452483 | 2017-03-07 | US20170257930A1 | 2017-09-07 | William Lark, Jr.; Ann Claire Lim Chi Cheung |
| The present disclosure provides light switch modules and methods of implementing a light switch module for a lighting control system. The light switch modules include a light switch actuator including an actuation surface. The light switch actuator is movable to connect an electrical flow path and to activate a tactile display housed in the light switch actuator. One or more tactile motions are applied on the actuation surface of the light switch actuator for selecting a lighting setting from among a plurality of lighting settings using the tactile display. | ||||||
| 174 | Controllable light source | US13829834 | 2013-03-14 | US09538619B2 | 2017-01-03 | Matthew J. Swatsky; Daniel J. Osle; Robert C. Newman, Jr.; Daniel Curtis Raneri |
| A controllable light source is provided that includes a load control circuit and an integrated lighting load. The controllable light source is configured to receive wirelessly communicated commands transmitted by a remote control device associated with the controllable light source, such as a rotary remote control device. The controllable light source may include an actuator for associating the controllable light source with the remote control device, such that the load control circuit is operable to adjust the intensity of the lighting load in response to wireless signals received from the remote control device. The controllable light source may support the actuator such that the actuator may be actuated when the controllable light source is installed in a fixture. | ||||||
| 175 | Low-travel key mechanisms using butterfly hinges | US14499209 | 2014-09-28 | US09502193B2 | 2016-11-22 | James J. Niu; Keith J. Hendren; Craig C. Leong; Thomas W. Wilson, Jr.; John M. Brock |
| A key mechanism including one or more butterfly hinges. Each butterfly hinge may include a double wing design operative to move between a depressed position and non-depressed position. Hinged coupling mechanisms couple respective arms of the wings together. Additionally or alternatively, a key mechanism can include one or more half-butterfly hinges. Each half-butterfly hinge includes a double wing design operative to move between a depressed position and non-depressed position. A hinged coupling mechanism couples one set of corresponding arms of the wings together, while the other set of corresponding arms are not coupled together. | ||||||
| 176 | SWITCH ACTUATION DEVICE | US15215788 | 2016-07-21 | US20160329165A1 | 2016-11-10 | Ian Blakeman |
| A switch actuation device for use in connection with electrical switch mechanism having an actuatable structure. The device includes an actuation mechanism in operable communication with the actuatable structure for use in urging the actuatable structure of the electrical switch mechanism from a first position to a second position. An actuatable electrical switch arrangement is also disclosed. | ||||||
| 177 | SWITCHING AND PROTECTION DEVICE FOR HIGH-VOLTAGE WIRING SYSTEM | US14967287 | 2015-12-12 | US20160211087A1 | 2016-07-21 | Andreas MINKE; Karsten HAUPT; Ernst-Dieter WILKENING; Hendrik-Christian KÖPF |
| A switching and protection device for high-voltage onboard electrical systems having a DC-voltage switch and a fuse, wherein the DC-voltage switch includes a housing, at least two fixed contacts, and a bridge designed to be movable with respect to the fixed contacts, wherein the bridge is formed from an electric insulator, wherein two contacts are arranged on the bridge such that, during a movement of the bridge in the direction of the fixed contacts, the two contacts make contact with the fixed contacts, wherein the two contacts arranged on the bridge are electrically connected to each other via the fuse. | ||||||
| 178 | ELECTRICAL ENCLOSURE OPERATING MECHANISM HOUSING AN EXTERNAL ANTENNA | US14534544 | 2014-11-06 | US20160135313A1 | 2016-05-12 | Alan FREEMAN |
| An operating mechanism is provided for an electrical enclosure. The operating mechanism includes a switch operator, and a housing to house the switch operator. The switch operator includes a portion which extends through one of one or more holes in the electrical enclosure, and can be manipulated by an external handle to operate an electrical switching device, such as a circuit breaker, that is housed in the electrical enclosure. The housing includes a cavity to house and protect an external antenna or other electrical device, which is connectable to an electrical cable that extends from the cavity into an interior of the electrical enclosure via the hole(s). The electrical cable can be connected to a monitoring system inside of the electrical enclosure. The housing is mountable onto an exterior surface of a wall of the electrical enclosure to cover the hole(s). | ||||||
| 179 | Devices, Systems, Methods, and Kits for Remotely Operating a Switch | US14630068 | 2015-02-24 | US20150348717A1 | 2015-12-03 | Jereme Kent; John Everett; Chelsea Bumb |
| Devices, systems, methods, and kits for remotely operating a switch are described herein. An example embodiment of a system for remotely operating a switch comprises a plate, a connecting member, a first fastener, a second fastener, a first attachment member, a second attachment member, a first wire member, a second wire member, and a pulling member. The plate has a body that defines a first bend and a second bend and is releasably attached to the handle of a switch. During use, an operator utilizes the first and second wire members to moved the switch between an open state and a closed state. | ||||||
| 180 | Flexible cable assembly with improved manufacturability | US14078199 | 2013-11-12 | US09177732B2 | 2015-11-03 | Shawn D. Cloran; Edward Byaliy; Jerry M. Watkins; Scott B. Lasko; Christopher J. Wieloch |
| A remote switching system for electrical switches in a cabinet provides simplified manufacture by attaching the flexible cable sheath and flexible cable to an actuator frame and slider, respectively, by means of flange elements attached to each of the sheath and cable that fit within corresponding receiving slots in the actuator frame and contained slider. A cover, which may be attached without fasteners, may then hold these flange elements within corresponding slots. | ||||||
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