| 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 | Tilt sensor | EP87115618.8 | 1987-10-23 | EP0265877B1 | 1993-04-07 | Odagawa, Yoshimoto; Yanagisawa, Yasushi; Imaizumi, Hiraku; Mori, Teruo; Shioura, Takashi TDK Narita-ryo; Okada, Kazuhiro; Yanagisawa, Kiyoshi |
| 162 | Magnetic tilt sensor wherein the magnetic sensing element is displaceable | EP92113270.0 | 1987-10-23 | EP0513866A3 | 1992-12-23 | Odagawa, Yoshimoto; Yanagisawa, Yasushi; Imaizumi, Hiraku; Mori, Teruo; Shioura, Takashi; Okada, Kazuhiro; Yanagisawa, Kiyoshi |
There is proposed a tilt sensor in which a permanent magnet (3) having a surface coated with a magnetic fluid (4) is housed in a hollow portion of a nonmagnetic case (11), a magnetic sensing element (7) is disposed outside a bottom portion of the case for detecting the movement of the magnet and the magnetic sensing element is displaceable to compensate adverse influences due to magnetic attraction between the permanent magnet and the magnetic sensing element. |
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| 163 | Neigungsschalter | EP91102785.2 | 1991-02-26 | EP0463291A3 | 1992-08-19 | Abendroth, Manfred, Dr.Dr.-Ing.; Gillert, Joachim, Dipl.-Ing.; Keller, Herbert |
2.1 Ausgehend von einem Neigungsschalter mit beweglichem Kontaktelement soll der Schalter derart weitergebildet werden, daß die Kontaktkraft bei der Kontaktgabe erhöht wird. 2.2 Die Lösung der Aufgabe besteht darin, daß das bewegliche Kontaktelement (14) beim Neigen des Neigungsschalters die erste stabile Lage verläßt und über eine labile Lage in eine zweite stabile Lage fällt. 2.3 Ein bevorzugtes Anwendungsgebiet für den Neigungsschalter ist ein in der Hand oder am Körper zu tragendes Funkgerät. 3. Die Zeichnung zeigt eine Schnittansicht eines Neigungsschalters in der zweiten stabilen Lage. |
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| 164 | SICHERHEITSAUSSCHALTVORRICHTUNG | EP87901036.1 | 1987-01-14 | EP0254740B1 | 1991-10-16 | MÜLLER, Manfred, K. |
| Safety disconnection device for electrical users, in particular for use in smoothing irons and portable heaters. It comprises a thermal switch (1) with another switch (22) connected in parallel with the user (R), a dropping resistor (R1) for the other switch (22) heating the thermal switch (1), also connected in parallel with the user (R), and another resistor (R2) which permanently short-circuits and heats the thermal switch (1). | ||||||
| 165 | Electrical tilt switch | EP86112590.4 | 1986-09-11 | EP0223947A3 | 1989-07-26 | Canevari, Ronald D. |
An electrical tilt switch includes a generally cylindrical cap member having a hollow interior with an internal inwardly extending ridge positioned a significant distance above its lower edge, a flat, generally cylindrical base member having a concave dished upper face, an annular insulating member interposed between the base and cap and fastened to each, electrical leads attached to the base and cap members, and a spherical contact member carried on the dished surface and movable against the ridge when the switch is titlted to a specified angle. For severe environmental conditions the preferred material for the cap, base and spherical contact member is a K Monel alloy. |
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| 166 | SICHERHEITSAUSSCHALTVORRICHTUNG | EP87901036.0 | 1987-01-14 | EP0254740A1 | 1988-02-03 | MÜLLER, Manfred, K. |
| Coupe-circuit pour consommateurs électriques, en particulier destiné aux fers de repassage et appareils de chauffage portatifs. Il comporte un thermorupteur (1) avec un autre interrupteur (22) connecté en parallèle avec le consommateur (R), une résistance self (R1) pour l'autre interrupteur (22), qui chauffe le thermorupteur (1), également reliée en parallèle avec le consommateur (R) et une autre résistance (R2) qui court-circuite et chauffe le thermorupteur en permanence. | ||||||
| 167 | Gravity switch and method of making same | EP84302977.8 | 1984-05-03 | EP0125839B1 | 1988-01-07 | Hill, Clinton Wallace |
| 168 | Levier de commande pour jeux électroniques | EP82401392.4 | 1982-07-27 | EP0074289B1 | 1985-11-06 | Henrard, José; Jaquemin, Marie Noelle; Leduc, Michel |
| 169 | Gravity switch and method of making same | EP84302977.8 | 1984-05-03 | EP0125839A2 | 1984-11-21 | Hill, Clinton Wallace |
@ A moulded cup-shaped insulator (19) and a cup-shaped conductor (26) are pressed together in telescoping relationship at an interference fit, whereby the two cup-shaped members comprise an integral dimensionally stable sealed enclosure for a contact member (28) movable axially therein for selectively making or breaking an electrical connection between the cup shaped conductor and a second conductor (22) extending axially through and sealed within the base (21) of the cup-shaped insulator. The axially outer surfaces of the base of the cup-shaped insulator and the second conductor comprise electrical contacts for a gravity-actuated switch adapted to be selectively and releasably confined between a pair of axially spaced contacts within a container for the switch. The overall axial dimension between the axially outer surfaces is preselected without recourse to close axial tolerances in the fabrication of the cup-shaped members, merely by telescoping the cup-shaped members coaxially together until the preselected axial dimension is obtained. In one embodiment the cup-shaped insulator has a cylindrical base and a coaxial diametrically reduced cylindrical portion extending from the base to an upper opening. The conductor is telescoped over the diametrically reduced portion in fluid sealing relationship, whereby said enclosure has an interior cylindrical surface of optimum diameter for the axially movable contact member comprising a metallic ball also of optimum diameter for any given size switch. |
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| 170 | Levier de commande pour jeux électroniques | EP82401392.4 | 1982-07-27 | EP0074289A1 | 1983-03-16 | Henrard, José; Jaquemin, Marie Noelle; Leduc, Michel |
L'invention a pour objet un dispositif dénommé manette de jeu, c'est-à-dire qui convertit au moins une position en informations sous l'action d'au moins un élément mobile susceptible d'influer sur au moins un détecteur. L'élément mobile par example un pendule (1) et le détecteur (7, 8) sont susceptibles d'être animés d'un mouvement relatif sous l'action de la gravité par orientation de la manette de jeu, et/ou par inertie. |
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| 171 | 倾斜开关 | CN201020593469.8 | 2010-11-05 | CN201886963U | 2011-06-29 | 王永佳; 孙亮 |
| 一种倾斜开关,其包括开设端子收容槽的绝缘本体、固持于端子收容槽的若干端子、由导电材质制成且与端子选择性接触的滚珠及遮覆固持于绝缘本体上的顶盖。所述绝缘本体包括底壁及自底壁边缘向上竖直延伸的侧壁,所述底壁及侧壁围设形成容置空间。所述滚珠收容于所述容置空间并可于容置空间内滚动。所述底壁开设若干连通端子收容槽及外部且具有上小下大形状的销孔。销孔靠近端子的部分直径小,远离端子的部分直径大,从而可以降低助焊剂通过销孔进入到开关内部的风险。 | ||||||
| 172 | 一种倾覆传感器及使用该倾覆传感器的智能割草机 | CN200920196869.2 | 2009-09-22 | CN201518292U | 2010-06-30 | 陈勇 |
| 本实用新型公开了一种倾覆传感器及使用该倾覆传感器的智能割草机。倾覆传感器包括传感器本体,传感器本体在行走式机器竖直方向设有一个圆柱槽,圆柱槽上端开口并设有传感触片,所述传感触片为两个分别设于圆柱槽上端开口两侧且分离一段间隙的金属触片,两金属触片各自连接导线至刀盘控制系统电路中,圆柱槽内设有一金属圆球。智能割草机包括设在外界的信号接收装置、设在割草机本体内的信号发送装置,所述智能割草机本体内安装有所述的倾覆传感器。当智能割草机倾覆,金属圆球顺着圆柱槽滚到圆柱槽上端正好卡在两片金属触片之间,将两片金属触片接通,电路导通,传感器触发。因而此倾覆传感器体积小,质量轻,结构简单,成本低。 | ||||||
| 173 | MOVEMENT AND POSITION IDENTIFICATION SENSOR | PCT/EP2011069734 | 2011-11-09 | WO2012062800A2 | 2012-05-18 | BLANK THOMAS; HAGER MARCO; HUBER DOMINIC |
| The invention relates to a movement sensor comprising a plurality of plate-type layers on which individual sensors are arranged and which are embodied in such a way that: the sensor comprises a top plate (2) and a bottom plate (3); the sensor comprises corner points in which connection contacts (8, 8a) are arranged; the top plate (2) and the bottom plate (3) each have a sensor surface (14, 15) connected to the connection contacts (8, 8c) by means of strip conductors (9, 9c); at least one chamber plate (3) comprising a recess is arranged between the cover plate (2) and the bottom plate (4); said chamber plate (3) comprises corner points in which connection contacts (8a, 8b) are arranged; the sensor surfaces (14, 15) of the top plate (2) and the bottom plate (4) are fitted above the recess of the chamber plate (3), such that a closed cavity (5) is produced, that has inner surfaces (7) to which connection contacts (8a, 8b) arranged in the corner points thereof are electroconductively connected by means of strip conductors (9a, 9b); an electroconductive ball (6) is arranged in the cavity (5); the connection contacts (8, 8a, 8b, 8c) are embodied as contact columns guided through all of the plate-type layers (2, 3, 4); the cover plate (4) has a strip conductor (9) embodied in such a way that it is connected to the connection surface of the bottom plate (4) by means of the contact columns (8), without creating an electrical connection to the contact surface (14) of the bottom plate; and the top plate, bottom plate and inner surfaces (7) of the cavity (5) of the chamber plate are electrically isolated from each other, preferably by a thin insulating layer (10, 16). | ||||||
| 174 | TILT-SENSING APPARATUS, AND AUTOMATIC POSTURE CONTROL APPARATUS USING SAME | PCT/KR2009006922 | 2009-11-24 | WO2010067972A3 | 2010-08-05 | NO IK HWAN |
| The present invention relates to a tilt-sensing apparatus for sensing whether the tilt of an object exceeds a predetermined level, and to an automatic posture control apparatus using same. The present invention provides a tilt-sensing apparatus and an automatic posture control apparatus using same, which can sense the tilt of the object in an accurate manner as described below. An amplifying lever moves along with a tilt lever which rotates in accordance with the level of fluid. In a balanced state, the end of the amplifying lever is spaced apart by a predetermined gap from a contact of a case. When the tilt of the object significantly exceeds a predetermined level, the case fixed at the object is tilted together with the object. The tilt lever in the case keeps the balanced state by the level of fluid, the tilt lever rotates in one direction relative to the case, and the rotational displacement of the tilt lever is amplified by the amplifying lever to enable contact sensors and contacts to be interconnected and turned to the ON state, which indicates that the object to be measured is tilted in one direction, exceeding the preset range. | ||||||
| 175 | AUTOMATED LEVELING APPARATUS | PCT/US2007064430 | 2007-03-20 | WO2007109680A3 | 2008-05-15 | VAN LUCHENE ANDREW; MUELLER RAY J |
| Various embodiments of the present invention provide an inexpensive and easy to use apparatus and method that permits a user to attach an apparatus to existing picture frames or other objects with various advantages. Such embodiments will keep a picture, object or frame in a substantially continuously level position or otherwise aligned position. Thus, using the disclosed apparatus, a user can ensure that any picture, frame or other hanging and relatively flat object will generally remain in a pleasantly horizontal or other desired aspect, without need for ongoing user inspection or manual adjustment. | ||||||
| 176 | OMNIDIRECTIONAL TILT AND VIBRATION SENSOR | PCT/US2006001503 | 2006-01-17 | WO2006078602A3 | 2007-03-01 | KELLEY JR WHITMORE B; BLADES BRIAN |
| A sensor (100) contains a first electrically conductive element (110), a second electrically conductive element ((160), and an electrically insulative element connected to the first electrically conductive element (110) and the second electrically conductive element (160). The sensor (100) also contains a plurality of electrically conductive weights located within a cavity (200) of the sensor (100), wherein the cavity (200) is defined by at least one surface of the first electrically conductive element (110), at least one surface of the electrically insulative element, and at least one surface of the second electrically conductive element (160). | ||||||
| 177 | Remote load control device capable of orientation detection | US15469427 | 2017-03-24 | US10134268B2 | 2018-11-20 | Chris Dimberg; Alexander Wade Gage; Matthew V. Harte; Jason C. Killo; Brad Michael Kreschollek; Matthew Philip McDonald; Daniel L. Twaddell |
| A remote control device is provided that is configured for use in a load control system that includes one or more electrical loads. The remote control device includes a mounting structure and a control unit, and the control unit is configured to be attached to the mounting structure in a plurality of different orientations. The control unit includes a user interface, an orientation sensing circuit, and a communication circuit. The control unit is configured to determine an orientation of the control unit via the orientation sensing circuit. The control unit is also configured to translate a user input from the user interface into control data to control an electrical load of the load control system based on the orientation of the control unit and/or provide a visual indication of an amount of power delivered to the electrical load based on the orientation of the control unit. | ||||||
| 178 | Sensor Switch and Method of Assembly Thereof | US15376712 | 2016-12-13 | US20180102228A1 | 2018-04-12 | Tien-Ming Chou |
| A sensor switch includes an insulated housing having an inner wall surface that defines a through hole. The through hole has a shoulder interconnecting large and small diameter hole sections thereof. A first conductive terminal includes a head portion embedded in the large diameter hole section and having a first contact surface. A plug portion of a second conductive terminal is embedded in the large diameter hole section spaced apart from the head portion and has a second contact surface facing the first contact surface. The inner wall surface and the first and second contact surfaces cooperatively confine a sensing chamber. At least one conductive member is rollably accommodated in the sensing chamber. | ||||||
| 179 | Sensor switch and method of assembly thereof | US15376712 | 2016-12-13 | US09941081B1 | 2018-04-10 | Tien-Ming Chou |
| A sensor switch includes an insulated housing having an inner wall surface that defines a through hole. The through hole has a shoulder interconnecting large and small diameter hole sections thereof. A first conductive terminal includes a head portion embedded in the large diameter hole section and having a first contact surface. A plug portion of a second conductive terminal is embedded in the large diameter hole section spaced apart from the head portion and has a second contact surface facing the first contact surface. The inner wall surface and the first and second contact surfaces cooperatively confine a sensing chamber. At least one conductive member is rollably accommodated in the sensing chamber. | ||||||
| 180 | ULTRAVIOLET BACTERIA-KILLING SYSTEM FOR WATER CLOSET COVER | US15111354 | 2014-12-11 | US20160345789A1 | 2016-12-01 | Gastone VITALI |
| A ultraviolet bacteria-killing system for water closet cover is described, comprising: a supporting base (1); a UV lamp (2) placed on the base (1); a transparent cover (3) adapted to cover the UV lamp (2) and connected to the base (1); supply means (10) of the UV lamp (2) operatively and externally connected to the UV lamp (2); and level sensor means (6) adapted to control the switching-off of the UV lamp (2) when the water closet cover is lifted to use the water closet. | ||||||
