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 |
|---|---|---|---|---|---|---|
| 101 | ENHANCED CONTROL DEVICE WITH DRUM AND MULTIPLE SWITCHING CHANNELS | US14082267 | 2013-11-18 | US20140138220A1 | 2014-05-22 | 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. | ||||||
| 102 | CIRCUIT BREAKER | US13433273 | 2012-03-28 | US20120181157A1 | 2012-07-19 | Jiasheng WAN |
| A built-in intelligent circuit breaker with an automatic closing function, including a box body and a bearing plate. Inside the box body is provided a circuit breaker actuating mechanism, a wire inlet end, and a wire outlet end. The circuit breaker actuating mechanism is triggered by a poke rod positioned in the box body. The bearing plate is positioned in the box body and combined with an electrical operating mechanism. The electrical operating mechanism is provided with an execution end, and the execution end is connected with the poke rod, such that the circuit breaker actuating mechanism is triggered by the poke rod to realize the on/off of the circuit breaker during the operation of the electrical operating mechanism under the control of an automatic closing control unit. | ||||||
| 103 | Thin laminate construction for the creation of tactile feedback | US12103216 | 2008-04-15 | US07868515B2 | 2011-01-11 | Andrew Cyril Krochmal; Douglas Allen Pfau; David Michael Whitton |
| A tactile laminate and a method for generating tactile feedback, wherein the tactile laminate and method provide a flexible laminate for creating a tactile sensation on a desired surface without the need for separate motion generating devices, is disclosed. A tactile laminate includes a first layer having a first conductive pad disposed thereon, the first conductive pad adapted to receive a first desired electric charge, a second layer having a second conductive pad disposed thereon, the second conductive pad adapted to receive a second desired electric charge, and a third layer having a desired permittivity disposed between the first layer and the second layer. | ||||||
| 104 | Force-feedback input device to compensate output to actuator and apply fixed force-feedback in response to movement of operating section | US10271204 | 2002-10-15 | US07209115B2 | 2007-04-24 | Ken Shibazaki |
| A force-feedback input device comprising an operating section, actuators to supply force-feedback by way of a transmission mechanism to the operating section, a movement quantity detector to detect a quantity of movement of the actuators and a controller to control the actuators by an output from the movement quantity detector. An initializing process is performed by the controller at startup utilizing an output from the movement quantity detector, and an output to the actuators is compensated after startup so that a fixed quantity of force-feedback is supplied to a quantity of movement of the operating section. | ||||||
| 105 | Force feedback input device | US10842901 | 2004-05-11 | US20040231434A1 | 2004-11-25 | Ken Shibazaki; Ayumu Kobayashi |
| When a knob is turned by a predetermined turning angle null and this angle is detected by a rotary encoder, an electromagnetic brake is activated by a controller and the rotation of the knob is locked. Then, while the knob is locked by the electromagnetic brake, the controller determines whether an operating force was applied to the knob in direction A in which the turning angle of the knob is increased. If the controller determines that the operating force was not applied to the knob in direction A (if the operating force was applied in direction B), the locking of the knob is released. | ||||||
| 106 | Manual inputting device capable of imparting manipulation feeling | US10210332 | 2002-08-01 | US06710565B2 | 2004-03-23 | Takuya Maeda |
| A manual inputting device which includes a sun gear, three planet gears, a motor having an output shaft thereof fixed to the sun gear, a ring gear casing integrally forming a ring gear on an inner peripheral surface thereof, a carrier rotated along with revolution of the planet gears, a carrier shaft mounted on the carrier, a restricting member facing the carrier in an opposed manner while sandwiching the planet gears therebetween, a knob fixed to the carrier shaft, a code plate integrally formed with the sun gear, a light emitting section, a light receiving section, a connector for outputting detection signals generated from the light receiving section, a board connecting these components thereto, a body casing, a bracket served for fixing the motor to the body casing, and a control unit for controlling the motor in response to detection signals from the light receiving section. | ||||||
| 107 | Manual inputting device capable of imparting manipulation feeling | US10210332 | 2002-08-01 | US20030030407A1 | 2003-02-13 | Takuya Maeda |
| A manual inputting device which includes a sun gear, three planet gears, a motor having an output shaft thereof fixed to the sun gear, a ring gear casing integrally forming a ring gear on an inner peripheral surface thereof, a carrier rotated along with revolution of the planet gears, a carrier shaft mounted on the carrier, a restricting member facing the carrier in an opposed manner while sandwiching the planet gears therebetween, a knob fixed to the carrier shaft, a code plate integrally formed with the sun gear, a light emitting section, a light receiving section, a connector for outputting detection signals generated from the light receiving section, a board connecting these components thereto, a body casing, a bracket served for fixing the motor to the body casing, and a control unit for controlling the motor in response to detection signals from the light receiving section. | ||||||
| 108 | Protection device and battery cell using this protection device | US09167365 | 1998-10-07 | US06287718B1 | 2001-09-11 | Tadamitsu Azema |
| A protection device for preventing swelling or breakage of a battery cell in response to over-charging and/or an over-current condition. The protection device is connected between an internal electrode and an external electrode within the battery cell and includes an electrically insulating casing and an electrically insulating and flexing lid member for sealing an inner portion of the casing. A breakable electrically conductive member is positioned within the sealed inner portion that electrically connects wiring members. The lid member includes a projection which abuts against a central portion of the electrical conductive member. In an over-charge or over-current condition, increased pressure within the battery cell causes the projection of the lid member to press against the electrically conductive member, thereby causing the electrically conductive member to break such that the electrical connection between wiring members is broken. | ||||||
| 109 | Protection device and battery cell using this protection device | US499051 | 1995-07-06 | US6120928A | 2000-09-19 | Tadamitsu Azema |
| A protection device for preventing swelling or breakage of a battery cell in response to over-charging and/or an over-current condition. The protection device is connected between an internal electrode and an external electrode within the battery cell and includes an electrically conducting casing and an electrically conducting and flexing lid member which are connected through a holding member so as to seal an inner portion of the casing. A breakable electrically conductive member is positioned within the sealed inner portion which electrically connects the casing and the lid member. The lid member includes a projection which abuts against a central portion of the electrical conductive member. In an over-charge or over-current condition, increased pressure within the battery cell causes the projection of the lid member to press against the electrically conductive member, thereby causing the electrically conductive member to break such that the electrical connection between the casing and the lid member is broken. | ||||||
| 110 | Operating device | US677138 | 1996-07-09 | US5944151A | 1999-08-31 | Hasko Jakobs; Heinz Bernhard Abel |
| An operating device with haptic response for the manual entering of information into a device comprises a setting member having a position which is variable under the action of an actuating force, and with which there is connected a transducer for producing electric signals which characterize the position of the setting member. There is connected with the setting member a braking element which, under control by the electric signals, exerts a force on the setting member, the value of which force depends on the position of the setting member. The braking element has at least two surfaces which are movable relative to each other and between which there is provided a force transmitting fluid the transmission properties of which can be varied by the electric signals. | ||||||
| 111 | Pressure actuated circuit breaker with frangible printed circuit board | US646655 | 1996-05-08 | US5773775A | 1998-06-30 | Tadamitsu Azema |
| A pressure actuated breaker for cutting-off current flow in and from a battery in response to a relatively low internal pressure rise within the battery. The pressure cut-off sensor includes a box having an opening and being formed of an insulating material, a bendable packing for covering the opening and which is deformed into the box by external pressure, an actuator having a higher elasticity than the packing and being pressed by the deformation of the packing, and a breakable element supported in the box, the breakable member including a substrate and a conductive path formed on the substrate. When pressure within the battery exceeds a predetermined amount, the packing is pressed inward into the box, thereby pressing the actuator against the breakable member such that the substrate is cracked, thereby breaking the conductive path. | ||||||
| 112 | Non-resettable, pressure-actuated switch | US074056 | 1993-06-09 | US5378864A | 1995-01-03 | Andre W. Olivier; Oneil J. Williams, Jr. |
| A general-purpose, pressure-sensitive electrical switch, having a frangible electrically conductive path that is irreversibly broken by an excessive applied pressure differential, The switch includes a pressure-deflectable diaphragm and an interior chamber. The diaphragm forms an interface between the internal chamber and the external environment. As the pressure differential across the diaphragm exceeds a specified level, the diaphragm deflects. The internal chamber can also be sealed with an internal pressure P.sub.1 so that the diaphragm deflects for a specified absolute external pressure P.sub.2. The force of the deflection is transmitted to brittle, inelastic structure within the switch through an intermediate load transmission element. The electrical path, which is along the brittle structure, terminates in a pair of externally-accessible terminals. The force of deflection stresses the brittle structure beyond its fracture stress level, causing it to break and opening the electrical path between the terminals. A ceramic bar traversing the switch through the sealed chamber or the base itself can serve as the frangible structure. The electrical terminals can be connected into an external alarm circuit for positive indication of the occurrence of a preselected pressure condition. | ||||||
| 113 | Electrical wire cutting circuit breaker | US676695 | 1976-04-14 | US4030061A | 1977-06-14 | Clifford R. Gaskell; Stephen E. Houghland |
| An electrical wire cutting circuit breaker in which a wire cutting piston within a housing moves from a rest position to a wire cutting position under the impetus of a compression spring. The piston is normally retained in its rest position against the force of the compression spring by a retainer held in the path of the piston by a fusible stop. The retainer is resiliently biased out of the path of the piston so that when the fusible stop melts and flows at a predetermined elevated temperature the retainer will release the piston which is propelled by the compression spring and builds up kinetic energy sufficient to cut an electrical wire. | ||||||
| 114 | Discharge indicator for fluid containers | US52829766 | 1966-02-17 | US3333641A | 1967-08-01 | HANSOM BERNARD S; LEONARD ABIGAIL WALTER |
| 115 | Force responsive switch | US2797960 | 1960-05-09 | US3049601A | 1962-08-14 | HARDESTY THOMAS K C |
| 116 | Thermal relay normally closed, with guillotine for opening | US74076658 | 1958-06-09 | US2934622A | 1960-04-26 | MASSAR JULIUS C |
| 117 | Electric switch | US10669816 | 1916-06-29 | US1327009A | 1920-01-06 | ANDREE WILLIAM E |
| 118 | Stationary contact arm assembly for molded case circuit breaker | EP13183128.1 | 2013-09-05 | EP2706552B1 | 2018-01-10 | Jang, Jun Yong |
| The present disclosure is to provide a stationary contact arm assembly (100) for a molded case circuit breaker, and the stationary contact arm assembly may include a stationary contact arm (10) having a terminal portion (10b) and a contact portion (10a) provided at both end portions thereof in the length direction, and an inclined extension portion (10e) provided between the contact portion and the terminal portion, a flat extension portion (10c) forming a space between the flat extension portion and a bottom surface of the contact potion, a bent portion (10f) formed from the flat extension portion to the terminal portion; a magnet assembly (30) 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 (20) having an elastic support portion (20a) installed on the flat extension portion of the stationary contact arm to support the magnet assembly. | ||||||
| 119 | ELECTRICAL SWITCHING DEVICE WITH A TRIPLE MOTION CONTACT ARRANGEMENT | EP13814123.9 | 2013-12-19 | EP2936531B1 | 2017-11-08 | HEIERMEIER, Helmut; KOSTOVIC, Jadran; KORBEL, Jakub; KARRER, Reto; KOTILAINEN, Sami; SUTHERLAND, Timothy; SUHRIE, Brant |
| 120 | Stationary contact arm assembly for molded case circuit breaker | EP13183128.1 | 2013-09-05 | EP2706552A3 | 2016-02-17 | Jang, Jun Yong |
The present disclosure is to provide a stationary contact arm assembly (100) for a molded case circuit breaker, and the stationary contact arm assembly may include a stationary contact arm (10) having a terminal portion (10b) and a contact portion (10a) provided at both end portions thereof in the length direction, and an inclined extension portion (10e) provided between the contact portion and the terminal portion, a flat extension portion (10c) forming a space between the flat extension portion and a bottom surface of the contact potion, a bent portion (10f) formed from the flat extension portion to the terminal portion; a magnet assembly (30) 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 (20) having an elastic support portion (20a) installed on the flat extension portion of the stationary contact arm to support the magnet assembly.
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