| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 41 | 具有滑块且形成断流开关或转换开关的电开关 | CN201080062125.7 | 2010-11-26 | CN102870183A | 2013-01-09 | 埃夫拉尔·博格 |
| 本发明涉及一种电开关(10),所述电开关(10)包括:中空体(12),其限定出腔(14);致动器(16);以及滑块(18),其安装于所述腔(14)中。在致动器(16)的作用下,滑块(18)适于从第一位置前进至第二位置,在所述第一位置处,滑块(18)的至少一个导电部(19)经由各个可破坏的永久性电接合件而电连接于从横向伸入所述腔(14)中的至少两个主导电柱(20a,20b),在所述第二位置处,所述主导电柱(20a,20b)中的至少一个不再电连接于所述滑块(18)的导电部(19)。 | ||||||
| 42 | 切断装置、电流断路开关、接触器以及电路遮断器 | CN200880108883.0 | 2008-09-03 | CN101809703B | 2013-01-02 | 右近哲哉; 土屋晃章; 奥川太志 |
| 本发明公开了一种切断装置、电流断路开关、接触器以及电路遮断器。作为切断装置(10)的刀体(11),使用了包括具有刃部的金属制切断部(21)和由绝缘性的部件构成且构成比刃部更靠进入方向相反侧部分的绝缘部(22)的刀体(11)。并且,切断装置(10)构成为在切断通电用部件(15)之际从由切断部(21)切断通电用部件(15)起到绝缘部(22)接触到通电用部件(15)的切断面位置进入刀体(11)。 | ||||||
| 43 | 切断装置、电流断路开关、接触器以及电路遮断器 | CN200880108883.0 | 2008-09-03 | CN101809703A | 2010-08-18 | 右近哲哉; 土屋晃章; 奥川太志 |
| 本发明公开了一种切断装置、电流断路开关、接触器以及电路遮断器。作为切断装置(10)的刀体(11),使用了包括具有刃部的金属制切断部(21)和由绝缘性的部件构成且构成比刃部更靠进入方向相反侧部分的绝缘部(22)的刀体(11)。并且,切断装置(10)构成为在切断通电用部件(15)之际从由切断部(21)切断通电用部件(15)起到绝缘部(22)接触到通电用部件(15)的切断面位置进入刀体(11)。 | ||||||
| 44 | 用于接通和中断电路的装置 | CN200880006066.4 | 2008-01-16 | CN101622684A | 2010-01-06 | 休格斯·菲利普提; 马塞厄斯·拉米恩 |
| 本发明涉及一种用于接通和断开电路的装置,该装置包括:火药(5),该火药可以被点燃,其燃烧引起所述电路的中断和接通;用于火药(5)的点火装置;其特征在于:所述点火装置连接到所述电路,所述点火装置包括用于控制所述火药(5)的点火的具有磁作用的微动开关(M,M’)。 | ||||||
| 45 | 断路装置 | CN99105888.7 | 1999-02-15 | CN1155038C | 2004-06-23 | 谷川满; 宫崎顺之; 松丸彰男 |
| 一种断路装置,包括:用于容纳响应触发信号爆炸的爆炸物的套,所述套具有一个开口,用于引导爆炸力;及待由所述爆炸物的所述爆炸力断开的电导体,所述电导体设在电路路径中;其中所述电导体设在所述开口对面;及在所述电导体上形成有助于所述电导体断开的易开断部分;其特征在于所述装置还包括:一个重接电导体,借助它可使所述电导体断开部分的两侧能在所述电导体断开后彼此重新连接;和可在外壳上安装的一个盖,所述重接电导体设在所述盖上,当所述盖正常连接在所述外壳上时,所述重接电导体不与所述电导体接触,当所述盖从正常位置移开时所述重接电导体与所述电导体的断开部分两侧相接触。 | ||||||
| 46 | ASSEMBLIES INCLUDING EXTENDABLE, REACTIVE CHARGE-CONTAINING ACTUATOR DEVICES | PCT/US2006015800 | 2006-04-26 | WO2006137975A3 | 2009-04-23 | SMITH BRADLEY W |
| An assembly including a support housing and an actuator device. The actuator device includes an extendable initiator cup including at least one non-random fold and at least in part defining a storage chamber containing a reactive charge reactable to produce reaction products. The extendable initiator cup is folded to form a pocket that contains a portion of a moveable element. The extendable initiator cup longitudinally extends from a first length to a second, greater length upon reaction initiation of the reactive charge. The extendable initiator cup and the moveable element are at least partially disposed within a longitudinally extending bore of the support housing. The extending initiator cup moves the moveable element within the bore. The support housing is effective to limit lateral expansion of the extendable initiator cup upon reaction initiation of the reactive charge. | ||||||
| 47 | 에너지 저장장치 및 에너지 저장장치의 전기 결선 차단 또는 단절 방법 | KR1020127013709 | 2010-10-18 | KR101333170B1 | 2013-12-02 | 데이다안드레아스 |
| 본 발명은 전기 결선(4)을 통해 연결되는 적어도 2개의 에너지 소스들(1) 및 안전 요소(2)를 구비한 에너지 저장 장치, 특히 자동차용 에너지 저장 장치에 관한 것으로, 안전 요소(2)는 에너지 소스들(1) 사이의 전기 결선(4)을 단절하기 위해 변형 및/또는 팽창할 수 있다. 또한, 본 발명은 적어도 2개의 에너지 소스들(1)을 구비한 에너지 저장 장치 전기 결선들을 단절하는 방법에 관한 것으로, 본 방법은 적어도 하나의 검출 수단에 의해 에너지 저장 장치의 단락 위험을 검출하는 단계, 검출 수단의 검출 결과에 따라 추진제(3)를 활성화하는 단계, 에너지 저장 장치의 적어도 하나의 전기 결선(4)을 단절하기 위해 추진제(3)를 활성화함으로써 적어도 하나의 안전 요소(2)를 변형 및/또는 팽창시키는 단계를 포함한다.
|
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| 48 | 반응성 장전물을 포함하고 연장가능한 엑츄에이터 장치를포함하는 조립체 | KR1020077029006 | 2006-04-26 | KR101289756B1 | 2013-07-26 | 스미스브래들리더블유. |
| 조립체는 지지 하우징과 엑츄에이터 장치를 포함한다. 엑츄에이터 장치는 적어도 하나의 비-임의적 접힘부를 포함하고 적어도 부분적으로 저장 챔버를 한정하는 연장가능한 개시기 컵을 포함하는데, 그 저장 챔버는 반응 생성물을 생성시키기 위하여 반응할 수 있는 반응성 장전물을 포함한다. 그 연장가능한 개시기 컵은 접혀짐으로써 주머니를 형성하는데, 그 주머니는 이동가능 요소의 일부분을 수용한다. 반응성 장전물의 반응 개시 시에, 연장가능한 개시기 컵은 제1 길이로부터 그보다 더 큰 제2 길이가 되도록 길이방향으로 연장된다. 연장가능한 개시기 컵 및 이동가능 요소는 지지 하우징의 길이방향으로 연장된 보어 내에 적어도 부분적으로 배치된다. 그 연장된 개시기 컵은 이동가능 요소를 보어 내에서 이동시킨다. 반응성 장전물의 반응 개시 시에, 그 지지 하우징은 연장가능한 개시기 컵의 측방향 팽창을 효과적으로 제한한다. | ||||||
| 49 | 회로 차단 장치와, 전기 회로의 접속을 위한 안전 장치와, 전기 회로의 안전을 향상시키는 방법 | KR1020067002590 | 2004-08-06 | KR100851478B1 | 2008-08-08 | 죠지테리에이.; 클레자프란에이.; 로즈만아킴; 홀트클라우스 |
| 차단 소자와 휴즈 소자가 병렬로 전기 접속하도록 구성된 회로 차단 장치가 제공된다. 차단 소자는 도전체, 및 그 수용 전류를 제거하기 위해 상기 도전체를 절단할 수 있는 전류 차단기를 포함한다. 차단 소자는 초기 상태와 작동 상태를 가진다. 차단 소자가 초기 상태에 있으면, 도전체는 휴즈 소자와 평행한 도전 경로를 제공한다. 차단 소자가 작동 상태에 있으면, 전류 차단기에 의해 도전체에 생성된 간극은 도전체를 통해 전류가 유동하지 않도록 한다. 회로 차단 장치의 예시적 실시예는 차단 제어 신호를 탐지하고 상기 신호에 응답하여 작동한다. 차단 소자, 휴즈 소자, 회로 차단 장치, 도전체, 전류 차단기 | ||||||
| 50 | 회로 차단기 | KR1019990000208 | 1999-01-07 | KR100323634B1 | 2002-02-07 | 구메마사히로; 기도모토노리; 미야자키요시유키; 도야마히데아키; 마츠마루아키오; 야수쿠니준; 니시다켄지로; 아마노준야; 기무라아유무; 호리히로시; 다니가와미츠루 |
| 회로차단기는, 화약을가지며적어도한쪽끝에개구가설치되는원통부및 화약에전원의인가하여그 화약을폭발시키는폭발유닛과, 적어도하나의표면이절연재로이루어지고원통부를고정시키는기재와, 화약의폭발력에의해파단(破斷)되며원통부의상기개구의반대쪽위치에위치된파단부를가지며상기기재에고정되는도체와, 원통부와파단부를피복하는제1 금속커버부와, 원통부의반대쪽으로부터기재를피복하는제2 금속커버부를포함하고, 상기제1 및제2 커버부는서로직접접속됨으로써기재에고정된다. | ||||||
| 51 | 회로 차단기 | KR1019990000208 | 1999-01-07 | KR1019990067779A | 1999-08-25 | 구메마사히로; 기도모토노리; 미야자키요시유키; 도야마히데아키; 마츠마루아키오; 야수쿠니준; 니시다켄지로; 아마노준야; 기무라아유무; 호리히로시; 다니가와미츠루 |
| 회로차단기는, 화약을가지며적어도일단에개구가설치되는원통부및 화약에전원의적용에의해그 화약을폭발시키는폭발유닛과; 적어도하나의표면이절연재로이루어지고원통부를고정시키는기재와; 화약의폭발력에의해파단(破斷)되며원통부의개구와대항하는위치에위치된파단부를가지며기재에고정되는도체와; 원통부와파단부를피복하는제1 금속커버부와; 원통부와대항하는측으로부터기재를피복하는제2 금속커버부를포함하는데, 상기제1 및제2 커버부는서로직접접속됨으로써기재에고정된다. | ||||||
| 52 | 전류차단기 | KR1019840001142 | 1984-03-07 | KR1019840009017A | 1984-12-20 | 앨리그잰더죠오지프베인즈 |
| 내용없음 | ||||||
| 53 | PYROTECHNIC ISOLATOR | US15764352 | 2016-10-19 | US20190051478A1 | 2019-02-14 | Peter WARENITS; Leyton MUNOZ |
| The pyrotechnic isolating apparatus (1) for isolating a conductor (8) using an isolating punch (14) has a housing, in which the isolating punch (14) is routed, and an ignition unit (6) for driving the isolating punch (14). According to the invention, a quenching means (13) for suppressing or quenching an arc is arranged between the isolating punch (14) and the ignition unit (6). Therefore, the quenching means (13) also transmits the drive force to the isolating punch (14). The isolating punch (14) can have at least one cutting edge, so that a printed circuit board (18) is stamped out of the conductor (8) and the conductor ends (8a, 8b) are at a large distance. The isolating punch (14) is preferably composed of electrically conductive material with a melting point of greater than 2000° C. It is advantageous when a thrust piston (12) is provided between the ignition unit (6) and the quenching means (13) in order to shield the hot combustion gases from the quenching means (13). In order to brake the isolating punch (14), a damping element (16) can be provided on the opposite side of the conductor (8). When the isolating punch is at a lateral distance from the housing at least in regions there, the quenching means (13) can continue to flow even after the isolating punch (14) is braked. | ||||||
| 54 | SYSTEM WITH A HIGH-VOLTAGE BATTERY AND A COUPLING DEVICE, MOTOR VEHICLE, AND METHOD FOR OPERATING A COUPLING DEVICE | US15909192 | 2018-03-01 | US20180281602A1 | 2018-10-04 | Roman STRASSER |
| A system with a high-voltage battery and a coupling device that couples the high-voltage battery to a high-voltage onboard power supply system of a motor vehicle. The coupling device couples a positive pole and a negative pole with corresponding phases of the high-voltage power supply system. The coupling device includes a current measurement device that measures the current flowing between a first electrically conductive connection and a first interface and/or the current flowing between a second electrically conductive connection and a second interface, an actuating device, and at least one first semiconductor switch, as well as at least one second semiconductor switch, which is coupled between the second electrically conductive connection and the second interface. The first semiconductor switch includes a first control electrode and the second semiconductor switch includes a second control electrode, which are coupled to the actuating device. | ||||||
| 55 | Fuse having an explosion chamber | US15154901 | 2016-05-13 | US09953783B2 | 2018-04-24 | Marko Fellmer; Christian Gruber; Peter Faltermeier |
| Embodiments disclose a fuse comprising a one power lead, an explosion chamber and an isolating chamber, wherein the fuse is designed such that a power lead can be broken into at least two parts by an explosion triggered in an explosion chamber. The two parts are separated from each other in an associated isolating chamber by a respective electrically insulating partition. Embodiments disclose a method comprising a power lead, an explosion chamber and an isolating chamber, wherein an explosion is triggered in the explosion chamber so that the power lead is broken into at least two parts and bent into the isolating chamber such that at least two parts are separated from one another by an electrically insulating partition. The present disclosure can be applied to pyrotechnic fuses for vehicles and to high-voltage fuses. | ||||||
| 56 | Conduction-breaking device | US15238770 | 2016-08-17 | US09905383B2 | 2018-02-27 | Keisuke Hori; Yoshiki Nakamura; Takaki Fukuyama |
| A conduction-breaking device breaks conduction between a pair of devices in an electric circuit. The conduction-breaking device includes a conductive body having a cuttable portion, an arc-extinguishing chamber having a pair of fixed blades, a gas generator, a cutting member having a pair of movable blades, and a deforming mechanism. When the cuttable portion is cut at two positions by the fixed blades and the movable blades, the cuttable portion forms a separated piece, which is separated from the electric circuit, and first and second remaining portions, which remain connected with the electric circuit. The separated piece has cut ends at opposite ends. The deforming mechanism deforms the separated piece such that the cut ends of the separated piece are located on a leading side in a moving direction of the cutting member with respect to a part of the separated piece between the cut ends. | ||||||
| 57 | Safe operation of an LED lamp | US15116519 | 2015-02-03 | US09791139B2 | 2017-10-17 | Martinus Hermanus Wilhelmus Maria Van Delden; Reinier Imre Anton Den Boer; Siebe-Jan Van Der Hoef |
| A lamp and an operating method for a lamp with an LED element 22 are described. An electrical circuit with the LED element 22 is covered by a cover member 12. A separation device 28 is provided to mechanically severe the electrical conductor 16a, 16b arrange to supply electrical power to the LED element 22 if the detector element 24 detects a defect of the cover member 12. | ||||||
| 58 | Battery module disconnect arrangement | US14895014 | 2014-06-03 | US09789782B2 | 2017-10-17 | Alf Holgers; Christian Cavell; David Sturk; Magnus Berner; Lars Hoffman; Per Gustafsson |
| The arrangement for disconnecting at least one of a plurality of battery modules in an automotive battery comprises a device arranged to detect that at least one battery module is to be disconnected, and a bypass switch arranged at each battery module, wherein the bypass switch arranged at the detected at least one battery module is controllable to bypass the at least one detected battery module via a bypass path. The arrangement further comprises a disconnect switch arranged at each battery module, wherein the disconnect switch arranged at the at least one bypassed battery module is controllable to disconnect the at least one detected battery module from remaining battery modules, either simultaneously as, or after, the bypassing of the detected battery module. | ||||||
| 59 | PYROTECHNIC CIRCUIT BREAKER HAVING AN IMPROVED STRUCTURE FOR ACCOMMODATING A BUS BAR, AND ASSEMBLY METHOD THEREOF | US15506926 | 2015-09-08 | US20170263402A1 | 2017-09-14 | Romain LORENZON; Jean-Paul NADEAU; Frédéric MARLIN |
| A pyrotechnic circuit breaker (1), comprising a body (2), an igniter (4), a piston (5) and a bus bar (6), wherein wherein the piston (5) comprises a cutting edge (51) and is adapted to move along a normal direction (Z-Z) from a raised position to a lowered position to cut a portion of the bus bar (6), thereby separating the bus bar (6) into two distinct portions in order to break the electrical conduction of the bus bar (6), whereinthe body (2) comprises a longitudinal slot (21) arranged through a longitudinal direction (X-X) of the body (2), perpendicular to the normal direction (Z-Z), wherein the bus bar (6) and the longitudinal slot (21) are configured so that the bus bar (6) can be slidably inserted within the insertion slot (21),characterized in that the pyrotechnic circuit breaker (1) further comprises a drawer (7) adapted to be slidably inserted within the longitudinal slot (21) of the body (2), so that once inserted in the body (2), the drawer (7) and the body (2) define an insertion slot through the body (2) where the bus bar (6) is slidably inserted. | ||||||
| 60 | ELECTRIC CIRCUIT BREAKER DEVICE | US15515102 | 2015-10-20 | US20170221662A1 | 2017-08-03 | Toshiyuki SAKAI |
| The present invention provides an electric circuit breaker device, wherein, in a cylindrical space penetrating from a first end to a second end of a housing made of a synthetic resin, an igniter, a projectile made of a synthetic resin, and a conductor piece forming part of an electric circuit are arranged axially in this order from the first end of the housing, and the device has an insulating space for receiving a cut portion of the conductor piece between the second end of the housing and the conductor piece, wherein the conductor piece is a plate piece composed of connection sections at both ends thereof and a cutting section as an intermediate portion, and is disposed so that the cutting section has a surface perpendicular to the axial direction of the housing; the projectile is disposed to face the surface of the cutting section of the conductor piece in the axial direction of the housing; and a cylinder made of a metal for reinforcing the housing is disposed between the projectile and an inner wall surface of the housing. | ||||||
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