子分类:
- H01H2003/007: .触点由柔性外壳的变形而驱动
- H01H2003/008: .带有由电气装置控制的触觉或触觉反馈的,例如电机或磁摩擦
- H01H3/001: .{用于防止或中断触点焊接的装置}
- H01H3/004: .{用于周期性操作触点的}
- H01H3/005: .{采用超导性的,如悬浮开关}
- H01H3/02: .操作件,即对开关施以机械外力来操作驱动机构
- H01H3/22: .用于操作驱动机构的开关内部的动力装置
- H01H3/32: .驱动机构,即传递驱动力于触点的装置(快速动作的入H01H5/00;介入预定延时的入H01H7/00)
- H01H3/54: .操作件、驱动机构或触点的连接和分离机构
- H01H3/60: .防止或缓冲振动或冲击的机械装置
- H01H3/62: .在结构上和开关连在一起的润滑装置(触点接触面的润滑入H01H1/60)
| 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 | Automatic switching-in function with a built-in intelligent circuit breaker and the micro-breaker | JP2012531209 | 2010-06-11 | JP2013506256A | 2013-02-21 | 万家盛 |
| 【課題】
【解決手段】 該遮断器にはケース体を含み、そのケース体の内に遮断器動作機構、及びコイル・イン端(115)とコイル・アウト端(113)を設ける。 遮断器動作機構がケース体におけるトグルレバー(114)に駆動される。 該遮断器には、また、載荷板(10)を含み、かつ、電動操作機構と相まっている。 電動操作機構には実行端を有する、それがトグルレバー(114)と接続する。 それが自動スイッチングイン制御ユニットの制御するもとで、電動操作機構が運行する、従って、トグルレバーに遮断器動作機構をトリガーさせて遮断器のオンとオフを達成させる。 【選択図】図3B |
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| 22 | Force feedback input device | JP2001320344 | 2001-10-18 | JP3920618B2 | 2007-05-30 | 健 柴崎 |
| 23 | Operating device | JP20499196 | 1996-08-02 | JP3853875B2 | 2006-12-06 | ベルンハルト アーベル ハインツ; ヤーコプス ハスコ |
| 24 | Apparatus for imparting and inputting inner force sense | JP2001320344 | 2001-10-18 | JP2003122435A | 2003-04-25 | SHIBAZAKI TAKESHI |
| PROBLEM TO BE SOLVED: To provide an apparatus for imparting and inputting inner force sense such that the inner force sense fed back to an operating part is constant even if a component serving as a transmission mechanism has dimensional variations. SOLUTION: The apparatus includes an operating part 11; actuators 23 and 24 for imparting the inner force sense to the operating part 11 via the transmission mechanism; a movement detecting part 2 for detecting the amount of movement of each of the actuators 23 and 24; and a control part 3 for controlling the actuators 23 and 24 depending on outputs transmitted from the movement detecting part 2. During startup, an initialization process is carried out by the control part 3 using outputs transmitted from the movement detecting part 2, whereby outputs to the actuators 23 and 24 are corrected after the startup to impart a certain inner force sense to the amount of movement of the operating part 11. COPYRIGHT: (C)2003,JPO | ||||||
| 25 | Operation device | JP20499196 | 1996-08-02 | JPH09190732A | 1997-07-22 | HASUKO YAAKOPUSU; HAINTSU BERUNHARUTO AABERU |
| PROBLEM TO BE SOLVED: To realize an antennal response action in a narrow space by slight labor by varying a force transmission characteristic of a force transmission medium arranged between at least two faces capable of performing the relative movement of a lock element with an electric signal. SOLUTION: A rotor is arranged within a stator having plates 31 positioned apart each other within a casing 30 for example. The rotor has plates 33 fixed to a shaft 32. The shaft 32 passes an opening 29 in the center and passes through the regularly positioned plates 31. A medium whose viscosity is varied when voltage is applied is filled in the casing 30. The easing 30, the shaft 32, the plate 33 are made of a conductive material, and voltage from a control circuit is applied to them through a connection cramp 34. An exciting field is applied to between the rotor and the stator to vary the viscosity of the medium, and a lock action capable of sensing in the sense of touch is given to a rotating knob arranged in the shaft 32. COPYRIGHT: (C)1997,JPO | ||||||
| 26 | JPS4923433B1 - | JP961166 | 1966-02-17 | JPS4923433B1 | 1974-06-15 | |
| 27 | Steering wheel switch device | US15424248 | 2017-02-03 | US10099600B2 | 2018-10-16 | Yukio Ikeda |
| A steering switch device, which is mounted on a steering wheel, includes a linear switch that includes a hollow insulator having restorability and two electrode wires arranged spirally along an inner surface of a hollow part in the hollow insulator while being kept not in contact with each other, wherein a winding pitch coiling spirally the electrode wires is at least not more than 10 mm, and a detecting device that detects a press of the linear switch by sensing a contact of the electrode wires. The linear switch is arranged so as to be along at least part of a surface of the steering wheel. | ||||||
| 28 | KEYPAD WITH REPLACEABLE KEY LABELS | US15910144 | 2018-03-02 | US20180197702A1 | 2018-07-12 | PAUL WAREHAM; RICHARD ROBERT COULSON; WESLEY WARREN MANNING; SEAN NUTTER |
| A key able to accept a label for a keypad used in controlling electrically operated devices, wherein the key structure accepts and secures an interchangeable label, and which forms an impermeable barrier to the electrical contacts of a programmable circuit board. | ||||||
| 29 | GAME MACHINE INPUT DEVICE AND GAME MACHINE | US15657422 | 2017-07-24 | US20180056177A1 | 2018-03-01 | Hitoshi SAKAMOTO; Masaki MIZUTANI |
| A game machine input device mounted on a game machine provided with a playfield; the game machine input device includes: an input unit provided toward the front of the playfield and configured to accept input; and a projection part configured to radiate light toward the playfield to project a first image in a region within the visual field of a player viewing the playfield. | ||||||
| 30 | KEYPAD WITH REPLACEABLE KEY LABELS | US15478329 | 2017-04-04 | US20170294279A1 | 2017-10-12 | Paul Wareham; Richard Robert Coulson; Wesley Warren Manning; Sean Nutter |
| A key able to accept a label for a keypad used in controlling electrically operated devices, wherein the key structure accepts and secures an interchangeable label, and which forms an impermeable barrier to the electrical contacts of a programmable circuit board. | ||||||
| 31 | STEERING SWITCH DEVICE AND STEERING WHEEL | US15424248 | 2017-02-03 | US20170240095A1 | 2017-08-24 | Yukio IKEDA |
| A steering switch device, which is mounted on a steering wheel, includes a linear switch that includes a hollow insulator having restorability and two electrode wires arranged spirally along an inner surface of a hollow part in the hollow insulator while being kept not in contact with each other, wherein a winding pitch coiling spirally the electrode wires is at least not more than 10 mm, and a detecting device that detects a press of the linear switch by sensing a contact of the electrode wires. The linear switch is arranged so as to be along at least part of a surface of the steering wheel. | ||||||
| 32 | Bicycle handle system | US14211964 | 2014-03-14 | US09490082B2 | 2016-11-08 | Michael Mueller; Andreas Krause |
| Next to a handle element, a bicycle handle system comprises a control element adapted to be fastened on the handlebar and serving to control an electric auxiliary motor. The control element has an actuation element rotatable on a bearing element. By turning the actuation element from a rest position to in particular two different activation positions, the assisting power from the auxiliary motor can be increased or reduced. For a simple, intuitive actuation of the actuation element, a return element is provided by which the actuation element is automatically returned from the first and, if applicable, the second activation position to a rest position. | ||||||
| 33 | Control Device for the Manual Control of Devices | US14993788 | 2016-01-12 | US20160209863A1 | 2016-07-21 | Evan Stringos |
| A control device (1) for the manual control of devices has a rotary knob (2) and a carrier (3) connected to the rotary knob (2). The carrier has a first indexing profile (4), a second indexing profile (5) and a non-indexing profile (6). The device has a plunger (7), a first movable indexing device (8), and a second movable indexing device (9). The first indexing device (8) and the second indexing device (9) allow for independent indexing positioning with respect to the first indexing profile (4) and the second indexing profile (5). | ||||||
| 34 | POWER SELF-IDENTIFYING ENERGY HARVESTERS | US14551459 | 2014-11-24 | US20160149439A1 | 2016-05-26 | LILLY HUANG; WAYNE L. PROEFROCK; MICHAEL BOYD |
| Systems and methods may provide for an energy harvester to power a mobile device. The energy harvester may include an energy harvesting portion to generate electrical power. At least one sensor may measure an environmental condition relating to generation of electrical power by the energy harvesting portion. A controller may generate a signal based on the measured environmental condition by the at least one sensor to the mobile device. Alternatively the signals from the at least one sensor are place in a memory on the energy harvester. In one example, the controller determines the power generated by the energy harvester and the controller signal includes this power information. | ||||||
| 35 | Circuit breaker | US13433281 | 2012-03-28 | US09171687B2 | 2015-10-27 | Jiasheng Wan |
| A miniature intelligent circuit breaker, including a box body, the box body including an upper cover and a bottom box, and a circuit breaker actuating mechanism for switching on/off the circuit breaker, a wire inlet end, and a wire outlet end being arranged in the box body. An automatic closing function part is arranged inside the box body and includes an automatic closing mechanical unit and an automatic closing control unit. The automatic closing mechanical unit includes a motor and an intermediate transmission mechanism. The operation of the motor is realized through the automatic closing control unit. The circuit breaker actuating mechanism is driven to move through the transmission of the intermediate transmission mechanism, such that the closing action of the circuit breaker is ultimately realized. | ||||||
| 36 | Enhanced control device with drum and multiple switching channels | US14082267 | 2013-11-18 | US09099254B2 | 2015-08-04 | Jean-Christophe Villain |
| A control device for generating electrical signals. The control device includes a bottom support, a first, a second, and a third fixed contacts, a first, a second, and a third moving contacts, each of which is elastically deformable. The control device also includes an intermediate control cradle thank includes first, second and third actuating pawls. The control device is suitable for occupying an inactive position in which at least one first, one second and one third bearing points of the intermediate cradle are in abutment, vertically upwards, each against an associated surface portion facing the bottom support, and a single top control member in the form of a drum. | ||||||
| 37 | MEANS FOR PROVIDING IMPROVED OPERATION PROPERTIES FOR ELECTRICALLY OPERATED CIRCUIT BREAKERS, DISCONNECT SWITCHES, AND CONTACTORS | US14080421 | 2013-11-14 | US20150130566A1 | 2015-05-14 | James K. Kinsella |
| Improved circuit breaker operation is achieved by a system that includes a circuit breaker unit and a secondary actuator. The secondary actuator is operable to place the circuit breaker unit into an inoperable position when de-energized and in an operable position when energized. When in the operable position, the circuit breaker can be energized to close its contacts into an ON position. The circuit breaker cannot operate on its own as it cannot be placed into an ON position when energized alone. | ||||||
| 38 | DISCONNECTOR FOR SWITCHGEAR | US14445402 | 2014-07-29 | US20140360847A1 | 2014-12-11 | GERHARDUS LEONARDUS NITERT; AREND JAN WILLEM LAMMERS |
| Disconnector for switchgear, having a first contact position, in which a contact is between main and first terminals, and a second contact position, in which a contact is between the main and second terminal. The disconnector includes a connector body moveable in a first direction between the first and second positions and having an end extendable in a direction substantially perpendicular to the first direction for providing a contact force between the end and the first, second or main terminals, a first operating mechanism arranged to move the body between the first and second positions, and a second operating mechanism arranged to extend the end when the disconnector is in either the first or second contact positions, in which the end includes a conical inside surface and the second operating mechanism includes a first shaft having a first conically shaped end positioned inside the conical inside surface. | ||||||
| 39 | Disconnector for switchgear | US13001799 | 2009-07-02 | US08890009B2 | 2014-11-18 | Gerhardus Leonardus Nitert; Arend Jan Willem Lammers |
| Disconnector for switchgear, having a first contact position, in which a contact is between main and first terminals, and a second contact position, in which a contact is between the main and second terminal. The disconnector includes a connector body moveable in a first direction between the first and second positions and having an end extendable in a direction substantially perpendicular to the first direction for providing a contact force between the end and the first, second or main terminals, a first operating mechanism arranged to move the body between the first and second positions, and a second operating mechanism arranged to extend the end when the disconnector is in either the first or second contact positions, in which the end includes a conical inside surface and the second operating mechanism includes a first shaft having a first conically shaped end positioned inside the conical inside surface. | ||||||
| 40 | Stationary contact arm assembly for molded case circuit breaker | US14017912 | 2013-09-04 | US08884728B2 | 2014-11-11 | Jun Yong Jang |
| A stationary contact arm assembly for a molded case circuit breaker includes a stationary contact arm having a terminal portion and a contact portion provided at both end portions thereof in the length direction, and an inclined extension portion provided between the contact portion and the terminal portion, a flat extension portion forming a space between the flat extension portion and a bottom surface of the contact portion, a bent portion formed from the flat extension portion to the terminal portion; a magnet assembly having a plurality of steel plates at least part of which is installed to be pushed into a space between the flat extension portion and contact portion in the stationary contact arm; and an elastic support plate having an elastic support portion installed on the flat extension portion of the stationary contact arm to support the magnet assembly. | ||||||
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