| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 继电器中的开关装置 | CN87101694 | 1987-03-05 | CN1007299B | 1990-03-21 | 詹姆斯·托尔斯·汉隆; 保罗·威廉姆·里诺特 |
| 一个用于小型继电器(3)的多位水银开关(1),它具有支持在一密封容器(10)上的导磁接点构件(11、13、16、17),这些构件的自由端设在容器内且处于容器外面环绕的线圈中出现电流时产生的磁场作用下相互能接触或分开的位置。一个导磁接点构件(11)具有一个可浸水银的表面(113)和一个在其自由端上有一个开口(111)从可浸水银的表面延伸穿过导磁接点构件,以与其对面的可浸水银表面形成水银接触(117)。 | ||||||
| 2 | 具有簧片继电器的高压互锁回路(“HVIL”)开关 | CN201310399318.7 | 2013-09-05 | CN103660953A | 2014-03-26 | M.徳默勒; H.罗伊斯 |
| 本发明涉及具有簧片继电器的高压互锁回路(HVIL)开关。提供用于车辆的高压(HV)系统,并且其包括提供HV功率的HV源、低压源、高压互锁回路(HVIL)开关和至少一个控制模块。低压源提供小于HV功率的低压功率。HVIL开关与低压源通信。HVIL开关包括簧片继电器和磁性元件。磁性元件被选择性地定位于距簧片继电器在致动距离内。当磁性元件被定位于距簧片继电器在致动距离内时,HVIL开关处于通路条件,并且当磁性元件被定位于距簧片继电器在致动距离外时,HVIL开关处于断路条件。所述至少一个控制模块与HVIL开关通信并监测HVIL开关。 | ||||||
| 3 | 继电器开关装置 | CN87101693 | 1987-03-05 | CN87101693A | 1987-11-04 | 温德尔·爱德华·阿彻尔; 詹姆斯·洛德·米尔顿; 保罗·威廉姆·里诺特; 尼尔森·霍华德·温奎斯特 |
| 一种用于小型继电器的多位置水银开关(1)。水银开关装置具有可润湿水银的磁性触头构件(11、12),它们被支承在密封外壳(10)中且带有从外壳延伸出来的端部,以便与继电器的端子相互连接。水银存储组件(13,14)可滑动地装在密封外壳中靠近磁性触头构件处。它们对由一个线圈(该线圈绕在密封外壳外边)的电信号产生的磁场敏感,以接通磁性触头构件,并在磁性触头构件之间形成导电通路。 | ||||||
| 4 | 触点间隙可调的密封触点装置 | CN97103672.1 | 1997-03-26 | CN1044168C | 1999-07-14 | 鱼留利一; 忠泽孝明; 户口武彦; 铃木俊行; 后藤洁; 山本律; 伊东督裕 |
| 一种密封开关设有一容器,其中形成的充注氢气以抑制定动触点间产生弧的密封空间中装有一对定触点和一动触点。挺杆一端装有动触点,另一端连接致动器,后者轴向驱动挺杆使动触点从断开到接通。由一紧固在挺杆上的弹簧保持件支承着的越程弹簧推动动触点相对于挺杆动作。挺杆设有螺纹部与致动器配合以相对其作轴向运动,从而调节触点间隙。弹簧保持件可限制动触点随致动器一起转并设有止挡凸起部以防止动触点与挺杆一起转。 | ||||||
| 5 | 触点间隙可调的密封触点装置 | CN97103672.1 | 1997-03-26 | CN1161556A | 1997-10-08 | 鱼留利一; 忠泽孝明; 户口武彦; 铃木俊行; 后藤洁; 山本律; 伊东督裕 |
| 一种密封开关设有一容器,其中形成的充注氢气以抑制定动触点间产生弧的密封空间中装有一对定触点和一动触点。挺杆一端装有动触点,另一端连接致动器,后者轴向驱动挺杆使动触点从断开到接通。由一紧固在挺杆上的弹簧保持件支承着的越程弹簧推动动触点相对于挺杆动作。挺杆设有螺纹部与致动器配合以相对其作轴向运动,从而调节触点间隙。弹簧保持件可限制动触点随致动器一起转并设有止挡凸起部以防止动触点与挺杆一起转。 | ||||||
| 6 | 밀봉접점장치 | KR1019930011388 | 1993-06-22 | KR100137746B1 | 1998-06-15 | 도구찌다께히꼬; 곤도오히데야; 다떼노마모루; 요꼬야마요오이찌; 후까자와히로후미; 우오또메리이찌; 고또오기요시 |
| 밀봉접점장치는 안정된 접점 스위칭 동작과 배열에 대한 효율적인 차원 최소화를 얻게 한다. 여기서, 스위칭 접점부위는 전기적 절연가스, 접점-압력스프링력과 리셋팅 스프링력을 수용하는 접점부위의 이동 접촉자, 이동 접촉자에 맞물리며 더욱이 두 접촉자의 이동 및 고정접점을 스위칭하는 구동부위에 맞물리는 이동 샤프트, 및 이동 접촉자상에 접점-압력스프링력을 발휘하기 위해서 동축상에 이동 샤프트를 둘러싸도록 제공된 접점압력스프링과 함께 밀봉용기내에 수용된다. | ||||||
| 7 | 電磁リレー | JP2016169589 | 2016-08-31 | JP2018037287A | 2018-03-08 | 伊東 督裕 |
| 【課題】固定接点から可動接点を開離させるときの開離速度を増大させる。 【解決手段】電磁リレー1において、電磁石装置31は、コイル36に流れるコイル電流I1によって第1磁束φ1を発生させる。接極子32は、一の方向の第1端において第1磁束φ1によって電磁石装置31に接離し、一の方向の第2端において可動接点22と接続されており、コイル電流I1に応じて可動接点22を固定接点21と接離させる。固定端子41は、固定接点21に電気的に接続されている。固定端子41は、接極子32が可動接点22を固定接点21に接触させている状態において接極子32の一の方向と直交する方向から見たときに接極子32と交差するように接極子32の周囲に設けられている。固定端子41は、固定端子41に流れる通電電流I2によって、接極子32に対して第1磁束φ1とは反対向きとなる第2磁束φ22を発生させる。 【選択図】図1 |
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| 8 | Low cross-sectional profile current drive relay for an integrated circuit tester | JP2001554361 | 2001-01-16 | JP2003521090A | 2003-07-08 | ヴォールファース・ポール・デイナ; エリス・トラヴィス・スコット; ヘイル・ロバート・アール |
| (57)【要約】 リレー(70)が、ガラス管(72)中に入っている接点(73)を有している。 その管(72)を囲繞するコイル(76)とスイッチ(66)がリレー(70)の二つの端子(77)の間で並列接続されている。 電流源が電流をコイル(76)とスイッチ(66)に供給する。 スイッチ(66)が開成されたときには、ほとんどすべての電流がコイル(76)を通して流れ、コイル(76)が十分な量の磁束を生成してリレー接点(73)を閉じる。 スイッチ(66)が閉成されたときには、コイル(76)から十分な量の電流を分流し、それが生成する磁束を接点(73)を閉成しておくのに必要なレベルよりも少なくする。 コイル(76)がほとんど小数の巻回しか必要としないような大きさに電流源が構成され、それによって、リレー(70)を比較的に扁平にすることができる。 コイル(76)は、管(72)を囲繞する絶縁基板(128)に埋め込められた導体(140)によって構成される。 | ||||||
| 9 | Magnetic resin mold lead relay | JP12551389 | 1989-05-18 | JPH02304834A | 1990-12-18 | KONNO AKIRA |
| PURPOSE: To improve mass productivity, uniformalize and stabilize operating characteristics, improve freedom for selecting characteristics and enable employment of a heat sensitive relay structure by composing a magnetic resin mold of a multi-color magnetic resin plastic consisting of a soft magnetic resin mold and magnetized hard magnetic resin mold. CONSTITUTION: A magnetic resin mold 5 comprises a multi-color magnetic resin mold of a soft magnetic resin mold 5A and a magnetized hard magnetic resin mold 5B. With this constitution, molding is done with necessity of using a specific case eliminated to improve mass productivity. Since the entire mold 5 is magnetic, a relay coil having desired operating characteristics can be correctly and uniformly obtained after lead relay assembly. Further by appropriately selecting Curie temperature of the soft magnetic resin mold 5A, a heat sensitive lead relay can be also structured. Thus mass productivity can be improved and desired operating characteristics can be correctly uniformed and stabilized while also a heat sensitive lead relay can be also structured. COPYRIGHT: (C)1990,JPO&Japio | ||||||
| 10 | Switch | JP14821589 | 1989-06-09 | JPH0240822A | 1990-02-09 | MITSUCHIERU BII JIEUERU |
| PURPOSE: To eliminate impedance mismatching by installing connectors at the inside of a crust after switch lead are partially covered with a dielectric tube- like material and connectors are mounted on each lead by joining the center contacts of the connectors to the external ends of the leads and forming a coaxial conductive material connecting two RF connector external conductors. CONSTITUTION: Removed center contacts 26 and 30 are soldered on the external end of each switch leads 20 and 21. Next the external conductors 27 and 31 of each RF connector 24 and 25 are soldered on the short length of a tube-like conductive material 33 surrounding the external part of a dielectric tube-like material 23. Next, the junction part formed between each end of an outer peripheral body 11 and the length of the dielectric tube-like material 23 adjacent to this end is sealed and an assembly is completed. After this assembly is installed at the inside of a hole 37 formed through a crust 36, conductive resin 39 is injected into space left within the hole 37 through the vertical hole 38 of the crust 36 and the assembly is completely conformed to the external conductor surrounding the assembly. Thus, impedance mismatching of a switch terminal part can be removed. COPYRIGHT: (C)1990,JPO | ||||||
| 11 | Magnetic control mercury switch and electric relay including same switch | JP64081 | 1981-01-06 | JPS56103829A | 1981-08-19 | JIERAARU ORUBUOE; JIYATSUKU RUGURAN |
| 12 | Metal sealing type magnetic switch matrix | JP10063675 | 1975-08-21 | JPS5225511A | 1977-02-25 | ISHIGURO KANEYA; KATOU KATSUHIRO; MIHASHI SADAYUKI; WAKAMATSU KAZUTOSHI |
| PURPOSE: To improve magnetic performance and prevent contact surface polution by enclosing many contacts in a sealed housing. COPYRIGHT: (C)1977,JPO&Japio | ||||||
| 13 | EP0587611A4 - | EP92910682 | 1992-03-26 | EP0587611A4 | 1994-04-20 | PERREIRA, G., STEPHEN; BUSH, BERNARD, V.; KUTIN, RICHARD, L.; MACK, PATRICK, A. |
| A relay device of the DC contactor type which utilizes a linear 'impact break' method to achieve contact break. An armature (4) has attached at one end a plunger (10) situated at the base of the core (9) of the relay. A first spring (14) serves to provide a biasing force so as to maintain the plunger (10) and the armature (4) in an open state. Attached to the armature shaft (13) at its end opposite the core base (9) is a moving contact disk (21) which is rotatable about the armature shaft (13) which is capable of coming into contact with two stationary contacts (22) so as to complete or close an electrical circuit. A movably mounted second spring (18) is located about the armature shaft (13) and situated between a first washer (19) and second washer (20). The moving contact disk (21), the second spring (18) and associated washers (19, 20) are rotatable about the armature shaft (13). The second spring (18) rotates freely upon its compression. | ||||||
| 14 | Hochfrequenz-Leistungsschalter | EP88110425.1 | 1988-06-30 | EP0303807B1 | 1992-03-04 | Rewitzer, Herbert, Dipl.-Ing; Weigenthaler, Bernd, Dipl.-Ing. |
| 15 | High switching speed, coaxial switch for R.F. signals | EP89304931.2 | 1989-05-16 | EP0345954A3 | 1991-07-10 | Jewell, Michael B. |
A coaxial switch assembly includes a conventional reed switch (10) having a somewhat irregular enclosure (11) and protruding leads (20, 21). R.F. connectors (24, 25) are mounted at the ends of the leads, which are surrounded by predetermined lengths of dielectric tubular material (23). Electrically conductive flowable material (39) is injected within a surrounded shell (36) to fill the space remaining in shell aperture (37) to rigidify the assembly and provide a continuous coaxial electrical conductor joining the outer body (27, 31) of the R.F. connectors to one another. |
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| 16 | High switching speed, coaxial switch for R.F. signals | EP89304931.2 | 1989-05-16 | EP0345954A2 | 1989-12-13 | Jewell, Michael B. |
A coaxial switch assembly includes a conventional reed switch (10) having a somewhat irregular enclosure (11) and protruding leads (20, 21). R.F. connectors (24, 25) are mounted at the ends of the leads, which are surrounded by predetermined lengths of dielectric tubular material (23). Electrically conductive flowable material (39) is injected within a surrounded shell (36) to fill the space remaining in shell aperture (37) to rigidify the assembly and provide a continuous coaxial electrical conductor joining the outer body (27, 31) of the R.F. connectors to one another. |
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| 17 | Relay switch apparatus | EP87301704.0 | 1987-02-26 | EP0236075A3 | 1989-09-06 | Archer, Wendel Edward; Milton, James Lloyd; Renaut, Paul William; Winquist, Nelson Howard |
A multi-positional mercury switch (1, 2, 3) for use with miniature relays (4). The mercury switch apparatus has mercury wettable magnetic contact structures (11, 12, 211, 212, 222, 311, 312) supported in a sealed envelope member (10, 20, 30) supporting to magnetic contact structures with ends thereof extending from the envelope member for interconnection with terminals of the relay. A mercury holding assembly (13, 14, 23, 24, 33, 34) is slidably located within the sealed envelope member adjacent the magnetic contact structures and is responsive to an external magnetic field generated by electrical signals in a coil (40) surrounding the sealed envelope member for engaging the magnetic contact structures and establishing an electrical conducting path between the magnetic contact structures. |
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| 18 | Elektromagnetisches Relais | EP87108705.2 | 1987-06-16 | EP0251035A1 | 1988-01-07 | Weiser, Josef, Dr.rer.nat.; Lüneburger, Klaus, Dipl.-Ing. |
Das Relais besteht aus zwei halbschalenförmigen, einen Spulenkörper bildenden Grundkörperteilen (1, 2), die eine Wicklung (3) tragen. In einen der Grundkörperteile (2) sind in einer gemeinsamen Ebene zwei Polbleche (6, 7) eingebettet, deren Enden in einen Kontaktraum (4, 5) hineinragen. Parallel zu den Polblechen ist im Kontaktraum ein Brückenanker (8) angeordnet, der über eine rahmenförmige Feder (9) in der Trennebene zwischen den beiden Grundkörperteilen (1, 2) fixiert ist. Die Anschlußelemente sind in den Spulenflanschen jeweils seitlich aus dem Grundkörper herausgeführt und nach unten abgebogen. |
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| 19 | Measuring apparatus and method employing hard X-rays | EP86200879.4 | 1986-05-21 | EP0204365A2 | 1986-12-10 | Fujisaki, Yukio |
A measuring apparatus employing hard X-rays comprises a pair of sensors receiving substantially simultaneously hard X-ray beam emitted from an X-ray source, one of which sensors receives the beam directly from the source and not passed through an object to be measured while the other sensor receives the beam passed through the object. The other sensor comprises an X-ray image receiving camera providing an X-ray image of the object and a spot X-ray sensor for receiving the beam passed through a restricted measuring zone or spot in the object, and the camera and spot sensor are shiftable alternately to a position of receiving the beam passed through the object, whereby, aftervisual observation of the X-ray image for discrimination, the restricted zone or spot can be determined for a higher precision measuring, and a precise quantitative measurement can be carried out by the spot sensor with respect to the restricted zone or spot. |
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| 20 | Interrupteur à contacts mouillés et à commande magnétique, et relais électrique comportant un tel interrupteur | EP80401784.6 | 1980-12-12 | EP0032331B1 | 1983-05-25 | Legrand, Jacques; Holvoet, Gérard |
