| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 61 | Electrical switch method operating such and indexing system | US579949 | 1975-05-22 | US4038508A | 1977-07-26 | George C. Mapelsden |
| An electrical switch has a housing with means operable generally therein for switching power through the switch. Means is rotatable in the housing between a plurality of indexed positions for actuating the switching means, and means is provided for releasably holding the actuating means in each of its indexed positions. Means is also provided for retarding the rotation of the actuating means between at least some of its indexed positions.A method of operating an electrical switch, and an indexing system for an electrical switch are also disclosed. | ||||||
| 62 | Momentary contact switch | US81144759 | 1959-05-06 | US2989600A | 1961-06-20 | CLAYTON FYFE |
| 63 | Switch | US70389724 | 1924-04-03 | US1594568A | 1926-08-03 | SEISS GEORGE J |
| 64 | ROTARY SENSOR ARRANGEMENT FOR DRUG DELIVERY DEVICE | EP16723072 | 2016-05-11 | EP3294385A1 | 2018-03-21 | RADMER BO; HARRINGTON ROGER; BYSKOV NIKOLAI; PEDERSEN BENNIE PEDER SMISZEK |
| A rotary sensor assembly comprises an indicator member adapted to rotate and having first and second axial positions, input means adapted to be actuated by movement of the indicator member, and a processor adapted to receive input from the input means. The indicator member comprises a plurality of actuator structures, and the input means comprises one or more switches adapted to be actuated by an actuator structure. Zero or more switches is/are actuated when the indicator member is moved from the first to the second axial position, this corresponding to a first switch pattern, and zero or more switches is/are actuated when the indicator member is moved from the second to the second axial position, this corresponding to a second switch pattern. Based on input from one or more switches corresponding to the first and second switch patterns, the processor is adapted to determine rotational movement of the indicator member. | ||||||
| 65 | Rotation switch and electronic timepiece | EP10162608.3 | 2010-05-12 | EP2261938B1 | 2016-10-19 | Kimura, Soh; Machida, Syuuichi |
| 66 | DREHSTELLER | EP13708092.5 | 2013-03-04 | EP2822799A1 | 2015-01-14 | KANDLER, Maximilian |
| A rotary actuator (1), in particular for a motor vehicle, comprises an actuating element (2) which can rotate about an axis (3), and a position sensor (8) which detects the position of the actuating element in circumferential direction, the rotary actuator being disposed such that the rotational movement of the actuating element is continued a certain distance in the released state after manual actuation and is slowly decelerated. | ||||||
| 67 | Rotation switch and electronic timepiece | EP10162608.3 | 2010-05-12 | EP2261938A3 | 2012-02-08 | Kimura, Soh; Machida, Syuuichi |
In a rotation switch including an operating member (12) that is operable to rotate, a magnet member (14) that rotates integrally with the operating member, and a magnetic sensor (15) that is placed opposite to the magnet member, wherein the magnetic sensor (15) periphery is surrounded by a frame-shaped anti-magnetic shield plate (27, 30 and 31).
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| 68 | Rotation switch and electronic timepiece | EP10162608.3 | 2010-05-12 | EP2261938A2 | 2010-12-15 | Kimura, Soh; Machida, Syuuichi |
In a rotation switch including an operating member (12) that is operable to rotate, a magnet member (14) that rotates integrally with the operating member, and a magnetic sensor (15) that is placed opposite to the magnet member, wherein the magnetic sensor (15) periphery is surrounded by a frame-shaped anti-magnetic shield plate (27, 30 and 31).
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| 69 | Manual input device | EP03024586.4 | 2003-10-28 | EP1416505A2 | 2004-05-06 | Maeda, Takuya, Alps Electric Co., Ltd |
Four projections abutting respectively against the corner formed by side surfaces on the side surfaces of the end portion of a motor on the side opposite from an output shaft and the periphery thereof, the corner formed by side surfaces and the periphery thereof, the corner of the motor formed by side surfaces and the periphery thereof, and the corner of the motor formed by side surfaces and the periphery thereof are provided on the side plates of a motor holder, so that the motor stored in the motor holder can be pivoted about the projections. |
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| 70 | Vorrichtung und Verfahren zur sicheren Schalterstellungserkennung eines Drehschalters | EP03016435.4 | 2003-07-21 | EP1387463A2 | 2004-02-04 | Schwesig, Günter; Seeger, Guido, Dr. |
Die Erfindung bezieht sich auf eine Vorrichtung und ein Verfahren zur sicheren Schalterstellungserkennung eines Drehschalters, wobei zwei analoge, schalterstellungswinkelabbildende Schalterstellungsistwertsignale (2a,2b) jeweils an eine von zwei redundant aufgebauten Messwerterfassungseinrichtungen (3a,3b) führbar sind, wobei die von der ersten Messwerterfassungseinrichtung (3a) digitalisierten Schalterstellungsistwertsignale (5a,5b) an eine erste Recheneinheit (4a) weiterleitbar sind, wobei die von der zweiten Messwerterfassungseinrichtung (3b) digitalisierten Schalterstellungsistwertsignale (5c,5d) an eine zweite, zur ersten Recheneinheit (4a) redundant aufgebaute Recheneinheit (4b) weiterleitbar sind, wobei jeweils mittels zweier redundant aufgebauten Recheneinheiten (4a,4b) diskrete Schalterstellungen des Drehschalters (1) bestimmt und von jeder Recheneinheit (4a,4b) separat auf Plausibilität überprüft werden, wobei mittels eines Vergleiches der von der ersten und zweiten Recheneinheit bestimmten Schalterstellungen, fehlerhafte Schalterstellungen erkannt werden. Die Vorrichtung und das Verfahren ermöglicht eine einfache, sichere und kostengünstige Schalterstellungserkennung eines Drehschalters. |
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| 71 | POWER SEAT OPERATION DEVICE AND POWER SEAT | EP16779921.2 | 2016-03-30 | EP3285274A1 | 2018-02-21 | NAKAMURA, Takeshi; KATSUBE, Kenichi; NAKAYAMA, Souichi; TAKASHIMA, Takenori; MYOJIN, Satoshi; TANABE, Tomonori |
Malfunction due to simultaneous operation of a dial and a knob is prevented. In a power seat operation device (10), a slider (78) that is supported so as to be slidable in a radial direction with respect to a dial (58) slides toward the radial direction center of the dial (58) during rotation of the dial (58). A knob engagement portion (80A) that is provided to the slider (78) is thereby disposed between a pair of slider engagement portions (122A, 122B) that are provided to a knob (110). This enables rotational operation of the knob (110) to be restricted. However, during rotational operation of the knob (110), one out of the pair of slider engagement portions (122A, 122B) opposes the knob engagement portion (80A) from toward the radial direction center of the dial (58). This enables rotational operation of the dial (58) in conjunction with sliding of the slider (78) to be restricted. |
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| 72 | SWITCH DEVICE | EP16157000.7 | 2016-02-23 | EP3062325B1 | 2018-01-03 | ISHIGURE, Nobuyuki; CHIBA, Yoshio; NISHIYAMA, Akio |
| Provided is a switch device including rotor members 20, 60 mounted so as to be rotatable about a longitudinal axis CL of a lever main body 10, knob members 30, 50 mounted so as to be integrally rotatable with the rotor members, the knob members including cam surfaces 30b, 50f that face the cam surfaces 20b, 60c of the rotor members with a gap therebetween, a movable contact member 130, 140 being movable in the longitudinal axis direction by a rotational operation of the rotor members and the knob members about the longitudinal axis, and a flexible substrate 70 linearly disposed in the longitudinal axis direction in at least a movable range of the movable contact member, the flexible substrate including a contact portion (71a, 71b), a contact terminal 133, 143 of the movable contact member being brought into contact with and separated from the contact portion in association with the movement in the longitudinal axis direction of the movable contact member. | ||||||
| 73 | SWITCHING APPARATUS PROVIDED WITH SWITCHES AND LEVER | EP11773907.8 | 2011-09-30 | EP2622619A1 | 2013-08-07 | KIKUCHI, Yukihisa; MOTOSHIGE, Yuichi; KAWAI, Nobuyuki; HORII, Naoyuki; TANEDA, Ryoji; TONE, Takehide |
| There is provided a switching apparatus (1) for capable of facilitating a disconnecting operation, achieving miniaturization and preventing occurrence of sparks at the time of disconnection and connection. A switching apparatus includes a base (3), a housing (5), a main switch (9a, 9b) for mechanically disconnecting a power supply circuit and an interlock switch (11) for electrically disconnecting the power supply circuit. The switching apparatus also includes a lever (7) which is rotatably supported by one of the base and the housing and also is engaged with an engaging section (49, 51) formed in the other of the base and the housing. The lever causes a wall of the housing to be slid in a depth direction of an annular groove (19) of the base in accordance with a rotation of the lever. The interlock switch is disconnected ahead of the main switch by separating a movable terminal (31a, 31b) of the interlock switch away from a fixed terminal (27) of the interlock switch when the lever is rotated to cause the housing slid in a direction away from the base. | ||||||
| 74 | Vorrichtung und Verfahren zur sicheren Schalterstellungserkennung eines Drehschalters | EP03016435.4 | 2003-07-21 | EP1387463B1 | 2008-07-16 | Schwesig, Günter; Seeger, Guido, Dr. |
| 75 | Manual input device | EP03024586.4 | 2003-10-28 | EP1416505A3 | 2006-04-12 | Maeda, Takuya, Alps Electric Co., Ltd |
Four projections abutting respectively against the corner formed by side surfaces on the side surfaces of the end portion of a motor on the side opposite from an output shaft and the periphery thereof, the corner formed by side surfaces and the periphery thereof, the corner of the motor formed by side surfaces and the periphery thereof, and the corner of the motor formed by side surfaces and the periphery thereof are provided on the side plates of a motor holder, so that the motor stored in the motor holder can be pivoted about the projections.
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| 76 | STELLELEMENT AUF DER BASIS EINES FOLIENSCHALTERS | EP03731668.4 | 2003-01-11 | EP1485929A1 | 2004-12-15 | Völckers, Oliver |
| The aim of the invention is to improve a control element which is used to operate an electronically controlled electrical appliance, said control element being suitable for combining with digital circuits and operating on the basis of a membrane switch. To this end, a movable knob (14, 15, 16, 17) comprising elastic contact springs (19) on its lower side is arranged in an opening of a front plate (11), and a membrane switching element (13) comprising a base layer, an upper layer consisting of a deformable material, and an elastic spacer layer is provided. The base layer and the upper layer are provided with strip conductors on their opposing surfaces, said strip conductors comprising contact points at defined points of intersection. The inventive control element is provided with an integrated circuit which continuously scans the electrical connections of all contact points in quick succession and is always operative, even in standby mode, in addition to an electronic, non-volatile memory which is used to store information about the respective switching position of the knob. | ||||||
| 77 | MICROELECTROMECHANICAL ROTARY STRUCTURES | EP00911817.5 | 2000-02-16 | EP1088163A1 | 2001-04-04 | HILL, Edward, A. |
| MEMS (Microelectromechanical System) structures are provided that are designed to rotate in response to thermal actuation or the like. In one embodiment, the MEMS rotary structure includes a hub having one or more radial spoke members that impose a rotational force upon the hub in response to applied changes in temperature. The MEMS rotary structure can also include a ring at least partially encircling the hub and connected to the hub by means of one or more hub spoke members. Controllable clockwise, counterclockwise, or both clockwise and counterclockwise rotation of the hub or ring are provided. The MEMS rotary structures can also include thermal arched beam actuators that are operably connected to the spoke member. As the temperature changes, the thermal arched beam actuators move the spoke members in order to rotate the MEMS structure. Various applications are provided for these rotating MEMS structures, including but not limited to rotary actuators, rotary switches and relays, variable capacitors, variable resistors, shutters, and valves. | ||||||
| 78 | Electronic device | US14933480 | 2015-11-05 | US10095203B2 | 2018-10-09 | Haklim Lee; Jaehyuk Seol |
| Electronic devices are disclosed. According to the present invention, an electronic device may comprise a base; a rotor rotating on the base; a first magnetic body positioned at a center of rotation of the rotor; a second magnetic body having a different polarity from the first magnetic body, facing the first magnetic body, and positioned in the base; a first plurality of magnetic bodies positioned around the second magnetic body and having at least two different polarities; a hall sensor embedded in the rotor and sensing a change in magnetic property provided from the first plurality of magnetic bodies according to the rotation of the rotor; a wireless communication unit embedded in the rotor or the base; and a controller embedded in the rotor or the base and transmitting information obtained by the hall sensor through the wireless communication unit. | ||||||
| 79 | HAPTIC INTERFACE PROVIDING IMPROVED CONTROL OF THE HAPTIC SENSATION | US15514741 | 2015-09-29 | US20180229704A1 | 2018-08-16 | Laurent ECK; Jose LOZADA |
| A haptic interface, including: a button moving in a first direction or in a second direction; an interaction element interacting with a magnetorheological fluid with a viscosity that varies in accordance with a magnetic field; a brake including a magnetorheological fluid and a generation system to generate a magnetic field on command; a sensor detecting the current position of the button; a mechanism determining speed of the button; and a controller configured to send orders to the system to generate a magnetic field, the orders being generated according to the current position of the button and the current actuation speed of the button. | ||||||
| 80 | INPUT DEVICE HAVING AN OPERATION KNOB | US15730809 | 2017-10-12 | US20180105068A1 | 2018-04-19 | Yoshiteru TAKAYANAGI |
| An input device has operation shafts whose tips project through a first elongate hole and a second elongate hole formed through an upper plate portion of a case main body and that are movable along the upper plate portion of the case main body. An operation knob is movably attached to the tips of the operation shafts. The case main body is provided with elastic support pieces that deform following the movement of the operation knob and elastically support the operation knob. | ||||||
