序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
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221 | Impact sensor | EP86104485 | 1986-04-02 | EP0196662A3 | 1987-08-19 | Brown, Milton F., Jr. |
An impact sensor has a housing With an inner chamber. A first electrical contact extends from the housing and has a contact portion disposed in the chamber. A second eleotrical contact extends from the housing and is spaced from the first contact and has an aperture in the housing surrounding the contact portion. An insulating material is disposed between the contacts for maintaining electrisal isolation of the contacts. A plastically deformed conductive arcuate spring is in electrical connection with the second contact along generally the periphery of the aperture and has a first position arched away from the contact portion and a second position arched toward and engaged with the contact portion for thereby establishing electrical connection between the contacts. A mass is movably positioned in the chamber and is engageable with the spring for shifting the spring from the first to the second position upon detection of a collision. |
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222 | Beschleunigungsgrenzwertschalter | EP84104009.0 | 1984-04-10 | EP0125493B1 | 1987-07-15 | Burmester, Heino |
223 | Impact sensor | EP86104485.7 | 1986-04-02 | EP0196662A2 | 1986-10-08 | Brown, Milton F., Jr. |
An impact sensor has a housing With an inner chamber. A first electrical contact extends from the housing and has a contact portion disposed in the chamber. A second eleotrical contact extends from the housing and is spaced from the first contact and has an aperture in the housing surrounding the contact portion. An insulating material is disposed between the contacts for maintaining electrisal isolation of the contacts. A plastically deformed conductive arcuate spring is in electrical connection with the second contact along generally the periphery of the aperture and has a first position arched away from the contact portion and a second position arched toward and engaged with the contact portion for thereby establishing electrical connection between the contacts. A mass is movably positioned in the chamber and is engageable with the spring for shifting the spring from the first to the second position upon detection of a collision. |
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224 | MINIATUR-WIPPSCHALTER MIT IMPULSAUFBEREITER | EP85901959.0 | 1985-05-07 | EP0179826A1 | 1986-05-07 | Weiss, Matthias |
Cet interrupteur micromécanique est caractérisé par une structure plus simple, par des relations spécifiques à utilisation plus simples des composants individuels, par un déplacement du ou des corps de contact le plus petit possible, par un composition des matériaux propre à son utilisation, ainsi que par une réalisation micromécanique avec un traitement de surface moderne de haute qualité. Cet interrupteur peut être utilisé comme suit: comme interrupteur de fermeture ou d'ouverture de circuit, comme commutateur monopole, comme transmetteur de position uni-, bi- ou tridimensionnel, ce dernier comme élément unique et/ou en forme de circuit parallèle ou série de plusieurs interrupteurs standards. D'autres domaines d'utilisation sont: interrupteur magnétique et/ou relais, ainsi qu'élément de commutation et/ou d'affichage pour champs électriques dans un agencement électronique approprié. Dans un volume d'environ 5 mm3 peuvent être placés trois types standards et/ou un modèle spécial integrés en forme d'un transmetteur de position miniature 3 - 0. En outre, on peut réaliser en liaison avec des préparateurs d'impulsions appropriés et/ou des circuits logiques de nouveaux et excellents dispositifs de commande et/ou de positionnement. | ||||||
225 | MICROMINIATURE FORCE-SENSITIVE SWITCH | EP85901154.0 | 1985-01-24 | EP0168493A1 | 1986-01-22 | PETERSEN, Kurt, E.; ALLEN, Henry, V.; KNUTTI, James, W. |
Commutateur microminiature (104) pour coder numériquement des conditions extérieures de valeurs différentes, par exemple la pression, la température ou l'accélération. Le commutateur (104) comporte une tranche de silicium (108) dotée d'une membrane déviable (106) d'épaisseur réduite, conçue pour quitter une position de relâchement et prendre des positions toujours plus fléchies ou bombées en réponse aux modifications importantes d'une telle condition extérieure. Le déplacement de la membrane (106) de sa position de relâchement à des positions plus tendues établit un contact électrique entre un élément d'expansion conducteur (130) connecté à un terminal commun et tout d'abord un, puis progressivement plusieurs terminaux d'états de commutateurs (118) dans le commutateur, le nombre d'états de commutateurs qui sont fermés correspondant à la condition extérieure agissant sur le commutateur. Cette construction répond au besoin de dispositifs de commutation fiables et bon marché dans un système de détection microminiature. | ||||||
226 | An inertia switch impact sensor | EP84301551.2 | 1984-03-08 | EP0119064A1 | 1984-09-19 | Jackman, Peter Ronald; Stratton, Paul Philip |
A ferromagnetic ball (1) is mounted between dished first and second contacts 2 and 5 and subjected to magnetic restraint tending to retain the ball 1 in its central, rest position by means of a rare earth type magnet 7 which is accurately positioned relative to the ball 1 by means of a polyester shim 6 clamped between the first contact 2 and the magnet 7 as a result of resilient deformation of an annular portion 9 of a cap 8 attached to a housing member 11 enclosing the first and second contacts 2 and 5. Lugs 18 extending from the first and second contacts 2 and 5 pass through openings in the housing member 11 and through apertures in a printed circuit board 16 to which the sensor is attached by dowels 19. The lugs 18 are then attached to the printed circuit board 16 by soldering. |
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227 | Shock and vibration responsive contact device incorporating two or more seismic elements | EP78300189.4 | 1978-07-24 | EP0001154B1 | 1981-08-12 | Weale, John Lewis; Wiles, Stephen Philip |
228 | センサ | JP2016198846 | 2016-10-07 | JP2018060738A | 2018-04-12 | 嶋瀬 照雄 |
【課題】導電球の耐久性を向上させる。 【解決手段】第1電極1は、金属製の電極であり、円筒状に成形されている。第1電極1には、金属製の電極を採用するため、セラミック製基材の表面をメタライズした電極に比べて表面に凹凸が現れ難い。図2に示す第1電極1は、z軸方向に沿って配置された円筒部材であり、直径D1の内周面を有する。第2電極2は、第1電極1の少なくとも一方の開口の側に配置された電極であり、例えば、xy平面に平行な平板状に成形されている。導電球3は、第1電極1及び第2電極2の両方に同時に接触する位置と、これら両方の少なくともいずれか一方に接触しない位置のいずれにも移動し得るように、サイズや配置が決められている。 【選択図】図2 |
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229 | センサ | JP2016198846 | 2016-10-07 | JP6301424B1 | 2018-03-28 | 嶋瀬 照雄 |
【課題】導電球の耐久性を向上させる。 【解決手段】第1電極1は、金属製の電極であり、円筒状に成形されている。第1電極1には、金属製の電極を採用するため、セラミック製基材の表面をメタライズした電極に比べて表面に凹凸が現れ難い。図2に示す第1電極1は、z軸方向に沿って配置された円筒部材であり、直径D1の内周面を有する。第2電極2は、第1電極1の少なくとも一方の開口の側に配置された電極であり、例えば、xy平面に平行な平板状に成形されている。導電球3は、第1電極1及び第2電極2の両方に同時に接触する位置と、これら両方の少なくともいずれか一方に接触しない位置のいずれにも移動し得るように、サイズや配置が決められている。 【選択図】図2 |
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230 | 加速度スイッチ | JP2011123326 | 2011-06-01 | JP5897822B2 | 2016-03-30 | 下田 貞之 |
231 | Acceleration switch and electronic devices | JP2012108858 | 2012-05-10 | JP5497835B2 | 2014-05-21 | 貞之 下田; 和男 戸田 |
232 | 電子デバイス | JP2011529396 | 2011-03-02 | JPWO2011108559A1 | 2013-06-27 | 下田 貞之; 貞之 下田; 和男 戸田 |
この加速度スイッチは、内側に空間を備える質量体と、前記質量体を支え、前記質量体を取り囲むように配置される円弧状の梁と、前記梁を固定した状態で前記質量体の周囲に配置される支持部と、前記質量体の内側の空間内に質量体との接触を検出する対向電極とを備え、前記質量体を支える梁は1本であり、前記質量体の内側面と対向電極の外側面の距離、つまり電極間隔は1μm以上、かつ20μm以下である。 | ||||||
233 | To provide impact resistance, electrically assisted safety of the linear actuator | JP2012532297 | 2010-09-30 | JP2013507006A | 2013-02-28 | エドワード, エル. ウェルナー,; アルヴィン, アール. ゼムリカ,; リチャード, エフ. シュメーダ, |
ソレノイドリニアアクチュエータにおける、耐衝撃性を提供するための電気的に補助された安全化が、接極子と少なくとも1つの電磁誘導コイルとを有するソレノイドアクチュエータのために提供される。 運動センサからの出力を受信するコントローラは、電磁誘導コイルへの電力入力を調整する。 運動センサの出力が、強度における所定のしきい値を超える周囲の一時的変化の発生を示す場合に、周囲の一時的変化の間、コイルによって生成される電磁場が接極子を所望の位置に拘束するのに十分となるように、コントローラは電力入力を調整する。
【選択図】 図3 |
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234 | Acceleration switch | JP2011123326 | 2011-06-01 | JP2012251819A | 2012-12-20 | SHIMODA SADAYUKI |
PROBLEM TO BE SOLVED: To solve the problem that an acceleration sensor is large in current consumption and battery-driven portable equipment thereby has an extremely short lifetime.SOLUTION: The acceleration switch including a mass body having a space inside, an arcuate beam which bears the mass body and is arranged surrounding the mass body, and a counter electrode in the space of the mass body has acceleration sensitivity adjusted by varying the volume of the mass body. Consequently, a plurality of acceleration switches each having a single threshold of acceleration sensitivity are prepared in steps of, for example, 0.2G and a multi-sensitivity acceleration switch can be supplied to a user. | ||||||
235 | Mechanical fuse and method sensitivity setting | JP2008002732 | 2008-01-10 | JP5050266B2 | 2012-10-17 | 政幸 匹田; 信也 大塚; 茂 御手洗; 広樹 末富; 史博 秋吉; 浩雄 蟻川 |
236 | Internal switch based on the Mems | JP2005235584 | 2005-08-16 | JP4718931B2 | 2011-07-06 | エス.グレイウォール デニス |
237 | Micromechanical latching switch | JP2005019084 | 2005-01-27 | JP4718846B2 | 2011-07-06 | エス.グレイウォール デニス |
238 | Power supply | JP2009282751 | 2009-12-14 | JP2011125183A | 2011-06-23 | ISHIGAKI HIROTATSU |
<P>PROBLEM TO BE SOLVED: To provide a power supply of a vehicle for securing safety when collision occurs. <P>SOLUTION: Since a smoothing capacitor 15 is discharged even if a discharge command is not issued by a control system by using that the power supply (PCU 30) is displaced when the collision occurs, a movable electrode 16 is brought into contact with a first contact connected to a high potential bus 26 and the smoothing capacitor 15 is connected in parallel to a converter 13 and an inverter 21 when a locking rod 19 is positioned by a stopper ring 18. When the locking rod 19 is removed from the stopper ring 18 and the locking rod 19 is removed from a relay 20, the movable electrode 16 is brought into contact with a second contact by a depression spring 17 and a charge left in the smoothing capacitor 15 is discharged to a low potential bus 27 through a discharge resistor 14. <P>COPYRIGHT: (C)2011,JPO&INPIT | ||||||
239 | Acceleration switch | JP2008174490 | 2008-07-03 | JP2010014532A | 2010-01-21 | TODA KAZUO |
PROBLEM TO BE SOLVED: To detect an acceleration direction, in an acceleration switch having a space inside a weight and an opposed electrode in the space. SOLUTION: An acceleration switch 001 has only one opposed electrode on the center of the weight in order to acquire non-directional sensitivity, and cannot detect the acceleration direction. On the contrary, an acceleration switch 002 has a plurality of opposed electrodes, and therefore can detect the acceleration direction as many as the number of the opposed electrodes. COPYRIGHT: (C)2010,JPO&INPIT | ||||||
240 | Remote control transmitter | JP2008113070 | 2008-04-23 | JP2009267643A | 2009-11-12 | OTSUKA KENJI |
PROBLEM TO BE SOLVED: To provide a remote control transmitter capable of detecting a motion operation, in a specific axial direction or in a direction of rotation around a specific axis with the vertical direction as a reference, using a simple structure. SOLUTION: A stable portion for causing a case to be oriented stably is formed, by placing a battery on the outer peripheral surface of the bottom surface side inside the case so that the center of curvature C coincides in the upward of a direction of gravity, from the center of gravity G. Since the vertical direction, when the remote control transmitter at a stable orientation, is grasped in order to perform the motion operation is assumed as the axial line direction joining the center of curvature C of the stable portion to the center of gravity G, a motion sensor is made to detect the motion operation of the case itself, on the basis of the vertical direction which is an absolute direction. COPYRIGHT: (C)2010,JPO&INPIT |