| 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 | Elektrischer Schalter | EP92112030.9 | 1992-07-15 | EP0523645B1 | 1996-09-18 | Butzbach, Karl F. |
| 22 | Elektrischer Schalter | EP92112030.9 | 1992-07-15 | EP0523645A3 | 1993-05-26 | Butzbach, Karl F. |
Bei einem elektrischen Schalter mit einem in einem Gehäuse (1) federbelastet geführten Betätigungsstößel (29) ist ein durch einen Permanentmagneten (19) berührungslos beaufschlagbares Schaltelement (23) vorgesehen, das mit sich durch einen in das Gehäuse (1) eingesetzten Sockel (10) erstreckenden Anschlußkontakten (27) verbunden ist. Hierbei sind der Permanentmagnet (19) und das Schaltelement (23) unter Bildung eines Freiraumes (45) zwischen denselben an dem Sockel (10) festgelegt, wobei der Betätigungsstößel (29) mit seinem unteren, aus einem ferromagnetischen Material bestehenden Bereich in diesen Freiraum (45) zur Änderung des Schaltzustandes des Schaltelementes (23) verschiebbar ist. Das Schaltelement kann als Hallgenerator, Reedschaltampulle oder dergleichen ausgeführt sein. |
||||||
| 23 | スイッチ構造および防爆機器 | JP2014219937 | 2014-10-29 | JP6317661B2 | 2018-04-25 | 本田 善郎; 渡辺 隆 |
| 24 | Switch device | JP2005209003 | 2005-07-19 | JP2007026956A | 2007-02-01 | KAWASE TATSUAKI |
| PROBLEM TO BE SOLVED: To provide a switch device capable of preventing slip drop and breakage of a magnet and of executing a stable switching operation even in temperature fluctuation or the like. SOLUTION: This switch device is provided with: the magnet 9 and a magneto-electric conversion element 6 arranged oppositely to each other; an operation member 2 displaceable by an pressing operation; and a holder member 7 having the magnet 9 or the magneto-electric conversion element 6 housed therein and movable with displacement of the operation member 2; and is so structured that the output signal of the magneto-electric conversion element 6 is changed over by displacement of a relative position of the magnet 9 with respect to the magneto-electric conversion element 6 with the movement of the holder member 7. In the switch device, a reception member coming into contact with the holder member 7 to stop its movement is provided; the front surface of the holder member 7 in the moving direction comprises an area 22 overlapping with an end face of the magnet 9 or the magneto-electric conversion element 6 and an area 23 without overlapping with them; and projecting parts 19 are formed in the area 23 without overlapping with them and/or an area of the reception member in contact with it. COPYRIGHT: (C)2007,JPO&INPIT | ||||||
| 25 | Small magnetically sensitive switch | JP2001343194 | 2001-11-08 | JP3794948B2 | 2006-07-12 | 幸啓 麻 |
| 26 | JPS572510B2 - | JP13801977 | 1977-11-18 | JPS572510B2 | 1982-01-16 | |
| A bounce dampening system reduces switch actuator bounce when the actuators are restored to their home position. Included are selection interposers, one of which is selectively driven to thereby effect motion of selection bails and corresponding switch actuators. A reverse interposer is simultaneously driven. A spring restores the reverse interposer after the actuation cycle thereby carrying the bails and switch actuators to their home position. The return spring and the mass of the reverse interposer prevents actuator bounce and insures a timely return of the actuators. | ||||||
| 27 | JPS5429702B1 - | JP7514571 | 1971-09-28 | JPS5429702B1 | 1979-09-26 | |
| 28 | Electric or electronic changeeover control device | JP6175378 | 1978-05-25 | JPS53146185A | 1978-12-19 | EDOUAARU SERASU POORE |
| 29 | JPS4877374A - | JP812372 | 1972-01-21 | JPS4877374A | 1973-10-17 | |
| 30 | JPS4816732B1 - | JP7476366 | 1966-11-15 | JPS4816732B1 | 1973-05-24 | |
| 1,167,548. Telegraphy. WESTERN ELECTRIC CO. 11 Nov., 1966 [15 Nov., 1965], No. 50642/66. Heading H4P. [Also in Division H1] A keyboard sender has sealed magnetic reed contact units A ... Z operated by permanent magnets attached to the keys and restrained in the inoperative position by magnetic keeper circuits which may be rendered ineffective by flux due to energization of coils 304... 306. Operation of a key closing contacts such as 310 energizes selected coils such as 2A to 6A, 8A and ST of magnetic cores to move them in one direction and raise the potential of 311 to a value at which a four-layer diode 316 ceases to conduct. When sufficient time has passed for contact chatter to cease a capacitor 315 will have discharged sufficiently to allow the diode 316 to send a current surge through the coils in series with the closed key contacts. The output from the magnetic cores is fed to a shift register 335 whose output speed is controlled by a selected clock 345, 346 or 347 through a "flipflop" 341. Whilst the code is transmitted from the register 335 an AND gate 336 is earthed and through inverters 337and 343 de-energizes coils 304, 305, 306 so that the magnetic keeper circuits tend to restrain the unoperated keys. The register shown can be used for two speeds of Baudot code (start spacing element, 5 information elements and a 1¢ duration marking stop element) or one speed of ASC II code (start spacing element, 8 information elements and two stop or marking elements). | ||||||
| 31 | JPS4810982B1 - | JP268969 | 1969-01-16 | JPS4810982B1 | 1973-04-09 | |
| 32 | SWITCH STRUCTURE AND EXPLOSION-PROOF DEVICE | EP14858052 | 2014-10-29 | EP3065155A4 | 2017-07-12 | HONDA YOSHIRO; WATANABE TAKASHI |
| Magnetic bodies (4-1 to 4-4) are provided, in correspondence with magnetic sensors (2-1 to 2-4), at a container wall (non-magnetic body) (1 a) between the magnetic sensors (2-1 to 2-4) and magnets (3-1 to 3-4). In this switch structure, the magnetic fields from the outside magnets (3) act on the magnetic sensors (2) through the magnetic bodies (4) provided at the container wall (1 a). | ||||||
| 33 | CONTACTLESS ROTARY PULL SWITCH | EP15716657.0 | 2015-03-31 | EP3127241A1 | 2017-02-08 | LEE, Davin Robert |
| A contactless rotary pull switch includes a switch knob assembly rotatable about an axis to a plurality of rotational positions and actuatable to at least one pull position, with the switch knob assembly including a knob element and a rotational shaft fixedly coupled thereto. A rotational magnet is coupled to the rotational shaft so as to rotate therewith, and at least one pull magnet is positioned separately from the rotational magnet. A rotational sensor senses a magnetic field generated by the rotational magnet to identify a rotational position of the switch knob assembly and at least one pull sensor senses a magnetic field generated by the pull magnet(s) to identify a pull position of the switch knob assembly. A rotatable arm member selectively enables/inhibits sensing of the magnetic field generated by the pull magnet(s) by the at pull sensor(s), to identify distinct pull positions of the switch knob assembly. | ||||||
| 34 | Schaltvorrichtung für ein medizinisches Gerät und Verfahren zum Betrieb der Schaltvorrichtung | EP10191330.9 | 2010-11-16 | EP2455959B1 | 2013-03-06 | Geiger, Peter; Krause, Olaf; Löser, Steffen; Georgi, Falk; Sasse, Joachim |
| 35 | Switch Assembly | EP06118478.4 | 2006-08-04 | EP1763050B1 | 2010-10-06 | Pedersen, Michael S.; Truesdale, Brian |
| 36 | Taster | EP07020699.0 | 2007-10-23 | EP1916686A1 | 2008-04-30 | Hetzer, Michael; Höss, Stefan |
Die vorliegende Erfindung betrifft einen Taster (1) mit einem Drücker (2), einem Gehäuse (3) und einer in diesem angeordneter Schaltplatine (4), der, um ein möglichst einfachen und robusten Aufbau anzugeben, im Gehäuse (2) eine Membran (5) zwischen Schaltplatine (4) und Drücker (2) aufweist.
|
||||||
| 37 | SWITCH ASSEMBLY EMPLOYING MAGNETIC REED SWITCHES | EP03739025.9 | 2003-06-02 | EP1514286A1 | 2005-03-16 | FORSYTHE, Alan, K. |
| A three-position push-pull switch assembly (100) is disclosed that includes two magnetic reed switches (152) mounted to a circuit board (122) located within the switch housing (104, 116). A magnet (130) is mounted to an actuator (114) that extends into the switch housing (104, 116) and is axially translatable from a center position to a pushed in position and a pulled out position. When in the center position, the two magnetic reed switches (152) are in a first closed-open operational state. When force is applied to the actuator shaft (128) to move it into the pushed-in position, the reed switches (152) are in a second closed-open operational state. Similarly, when force is applied to move the actuator shaft (128) to the pulled out position, the magnetic reed switches (152) are in a third closed-open operational state. A detent mechanism maintains the switch assembly in the center position when the actuator shaft (128) is not being pulled or pushed away from that position and returns the switch assembly (100) to the center position after being switched to either the pushed in or pulled out positions to thereby provide momentary push-pull operation. | ||||||
| 38 | MANUALLY ACTUATABLE INTEGRATED CONTROL MODULE AND METHOD OF MAKING SAME | EP95927338.0 | 1995-07-21 | EP0740843A1 | 1996-11-06 | NEWELL, Edwin, R.; CARTER, Michael, B.; SULLIVAN, Jackie, C. |
| A manually actuatable integrated contact module connecting to an output access module by means of a common communications link. The integrated contact module has an electrical contact, a logic circuit, a communications circuit and a communications terminal mounted on a common printed circuit board. The printed circuit board provides communication between the electrical contact and the logic circuit, between the logic circuit and the communications circuit, and between the communications circuit and the communications terminal. The printed circuit board is enclosed within a protective housing. A contact operator is slidably mounted with respect to the printed circuit board such that it is partially enclosed within the housing and movable between a first position and a second position. An operator interface device is mounted on one side of a control panel and the integrated contact module is attached to the operator interface device on the opposite side of the control panel such that the operator interface device is in communication with that portion of the contact operator outside the protective housing. The contact operator, in response to movement of the operator interface device, causes the contact to change state thereby initiating a signal to be processed by the logic circuit and communications circuit prior to being placed on the common communcations link. | ||||||
| 39 | Reedkontaktschalter mit einem Gehäuse und einem Impulsgeber | EP84104955.4 | 1984-05-03 | EP0160710A1 | 1985-11-13 | Hauk, Klaus |
Ein Reedkontaktschalter (10) weist ein Gehäuse (12) und in diesem eine Stufenbohrung (34) zur gleitenden Aufnahme eines Impulsgebers (14) auf, der wiederum mittels einer Längsbohrung (56) ein die eigentlichen Schaltelemente (18) tragendes Glasrohr (16) umgibt und auf diesem längs verschiebbar geführt ist. Diese Längsbohrung (56) ist mit der Umgebung über Druckausgleichsbohrungen (54) verbunden, um somit die Entstehung eines Unterdruckes oder eines Überdruckes in dem Reedkontaktschalter (10) zu vermeiden. Ferner sind im Bereich der Gleitfläche des Impulsgebers (14) in der Stufenbohrung (34) des Gehäuses Auffangtaschen (60) für Schmutzteile vorgesehen. Die Stufenbohrung (34) tritt über eine Phase (38) aus dem Gehäuse (12) aus, so daß dort eine Tropfkante entsteht. |
||||||
| 40 | Taster | EP07020699.0 | 2007-10-23 | EP1916686B1 | 2013-08-07 | Hetzer, Michael; Höss, Stefan |
QQ群二维码
意见反馈
意见反馈