| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 61 | Overcurrent switchgear and bridging equipment | JP2008555603 | 2006-02-23 | JP4942771B2 | 2012-05-30 | ドルン、イェルク |
| 62 | Bypass element of the electrical component | JP2009513549 | 2006-11-17 | JP2009540488A | 2009-11-19 | ピエール サバロ,; ジャン−ルイ ストリビッグ, |
| 本発明は、可動の封止手段3、4を有し、端部の一方が電気部品回路の端子の一方に接続され、他方の端部が、ハウジングの壁に締結され、ハウジングの内部に突出するとともに、接点ポストP1、P2、P3を構成する導電性端子T1〜T3を備えたハウジング2と、プランジャー軸体12から成るとともに、プランジャー軸体12とハウジングの内壁6との間に形成された空間D2内に配置されたばね21を含む制御素子を2つの位置の間で転位させるアクチュエータ9と、可溶材料によって適所で保持されたプランジャー軸体の固定素子を含むトリガー10と、ハウジングによって支持された端子の2つの接点ポスト間に電気的連続性をもたらす接点区域を含む転極器11とを備える、電気部品のモジュール式バイパス素子に関する。 本発明は、より具体的には、不具合を起こしているバッテリー要素の隔離および短絡における用途が見出される。 | ||||||
| 63 | Power semiconductor module of the short-circuit device | JP2008555602 | 2006-02-23 | JP2009527877A | 2009-07-30 | ヴュルフリンガー、クラウス; ドルン、イェルク; ドンマシュク、ミケ; プライデル、アクセル; ホルヴェーク、ヨハン; ラング、イェルク |
| 接続手段を介して直列回路構成にて互いに接続されたパワー半導体モジュールを備え、各パワー半導体に、それぞれのパワー半導体モジュールを短絡するための短絡装置が付設されている装置であって、高信頼性かつ同時に低コストの短絡装置を有する装置を提供するために、短絡装置が、起爆装置と起爆装置によって移動可能な作動手段(9)とを有する火工技術的機械要素(1)であることを特徴とする。 | ||||||
| 64 | Safety equipment and excessive current cut-off system using the same | JP2004043880 | 2004-02-20 | JP4237654B2 | 2009-03-11 | 秀昭 武田 |
| 65 | In particular apparatus for preventing failure to become arc for electrical energy distribution for low-voltage switchgear | JP52089995 | 1995-02-06 | JPH09508748A | 1997-09-02 | シャボ ズォルタン; ヴァイ パウル; ボロス フェレンク; ポコルニ ヤノス; ベンツェ ラシュロ |
| (57)【要約】 特に電気エネルギー分配用低電圧開閉装置のための障害となるアークを防止する装置、それも、それぞれ1つのエネルギー蓄積器と、コイルと、コイルとエネルギー蓄積器との間に配置された開閉素子を起動制御する少なくとも1つの障害となるアーク検出器と、真空室を有するトリガカートリッジとから成り、このトリガカートリッジが、コイルによって生ぜしめられる誘導電流の作用下で金属短絡を発生させる形式の保護装置を、次のように改良する。 すなわち、構成部品、特にエネルギー蓄積器の寸法を小型化し得るようにし、かつトリガカートリッジを容易に製造可能にする。 この課題は、次のようにすることによって達成される。 すなわち、トリガカートリッジ(1)が、管状部(4)を有するカップ状の第1カートリッジ部分(1a)と、第2カートリッジ部分(1b)とから成るようにし、また、絶縁管(21)又は絶縁リングを、第1カートリッジ部分の管状部の開放端部と第2カートリッジ部分との間に配置することによって、双方のカートリッジ部分が、機械的には結合されているが、電気的には互いに絶縁されているようにし、更に、トリガのため、コイル(29)を、第1カートリッジ部分(1a)の管状部(4)上に直接に配置するようにした。 | ||||||
| 66 | Thermally-actuated short-circuit switch for short-circuiting battery cell | JP20444996 | 1996-08-02 | JPH09167553A | 1997-06-24 | PIITAA FURECHIEBIRU GASUKOIN; JIEFURII JIYON DADORII |
| PROBLEM TO BE SOLVED: To provide a thermally-actuated short-circuit switch ensuring the highly reliable operation of a battery. SOLUTION: This switch has first contact elements 10, 20 and a second contact element 2 which are connected in parallel to a battery cell and provided independently from the electrode of a diode, and a thermally-actuating means for short-circuiting the first and second contact elements 10, 20, 2. The first and second contact elements 10, 20, 2 having mutually opposed movable contact 6 and fixed contact 3. The thermally actuating means is formed of a U-shaped metal wire 45 having a shape memory function, the end parts corresponding to the tips of both arms of the U-shaped are fixed to connecting terminal parts 41, 42, and the other end part 47 corresponding to the center part of the U-shaped is engaged with the semi-annular groove 39 of a rocking lever 30. The metal wire 45 generates heat by current-carrying, and contracts when it exceeds a transforming point to turn the rocking lever 30. Consequently, the movable contact 6 is pressed onto the fixed contact 3 by the engagement of a slot 34 with a protruding part 26. | ||||||
| 67 | Battery connection assembly | JP12399996 | 1996-04-22 | JPH08298145A | 1996-11-12 | FURITSUTSU JIYOSEFU AROISU KUR |
| PROBLEM TO BE SOLVED: To provide a battery connection assembly which enables automated assembly, while having a mechanism for preventing fire occurrence at the time of an accident. SOLUTION: A battery connection assembly 50 has a terminal 2 to be connected to a battery post 4 and a housing 52 to which a positive electrode and a negative electrode circuit 54, 56 are attached. The terminal 2 has a contact part 6 and a rotatable spring clamp 8 cam-engaged with a periphery of the contact part 6. When the spring clamp 8 is rotated around the battery post 4, the battery post 4 between the spring clamp 7 and the contact part 6 is clamped. Because of this, the terminal 2 can be integrated into the battery post 4 by using a robot. The housing 52 is provided with a short-circuit drive means for short-circuiting a battery at the time of occurrence of an accident. Because a fuse is blown by the short-circuit and power supply is interrupted, fire does not occur. | ||||||
| 68 | Diode switch to short-circuit operated by heat | JP50371084 | 1984-05-24 | JPH0666406B2 | 1994-08-24 | HEENRI JERII |
| 69 | Circuit breaker | JP32653688 | 1988-12-23 | JPH0249322A | 1990-02-19 | MATSUDA JUNICHI; AOYAMA YOICHI |
| PURPOSE: To shorten the time in which an abnormal current flows in a load incl. semiconductor element through an arc by furnishing a connector to connect polar arc runners of circuit breakers having a plurality of poles with each other. CONSTITUTION: Fixed contacts 3, 4 are connected with load terminals 2a, 2b, and movable contacts 5, 6 of movable contact pieces 7, 8 to be connected with power terminals 12, 13 are put in contact with these fixed contacts 3, 4. An arc extinguishing device 17 to extinguish arc generated between the fixed contacts 3, 4 and movable contacts 5, 6 is installed between an arc horn 14 connected on the power terminals 12, 13 side and an arc runner 16 having an arc hop-over part 15 arranged near the fixed contacts 3, 4. The arc runners 16 of the poles are connected by respective connectors 18. The connectors 18 are formed from a conductive plate and coupled together by a screw 22 so as to shortcircuit the arc runners 16 between. This can shorten the time in which an abnormal current flows through the load 1 incl. semiconductor element through an arc. COPYRIGHT: (C)1990,JPO&Japio | ||||||
| 70 | Bridge element | JP15685385 | 1985-07-16 | JPS6154166A | 1986-03-18 | GIYUNTAA FURIIDORITSUHI PETORI; BOTO TSUIIGENBAIN |
| 71 | JPS43026425B1 - | JP3127765 | 1965-05-18 | JPS43026425B1 | 1968-11-13 | |
| 72 | 아크 제거기 적용 수배전단 구조 | KR1020150100626 | 2015-07-15 | KR1020170009125A | 2017-01-25 | 정맹뢰 |
| 본발명은아크를감지하는아크광 센서(150)와, 상기아크광 센서(150)에의해감지된아크신호를입력받아사고전류인지를판단하는계전기(110)와, 파악된사고전류에대한동작신호가인가되어아크가발생된모선측을접지화시키는아크제거기(130)를구비한아크보호시스템을구비한수배전반구조에있어서, 상기아크제거기(130)는수배전반구조내부에서테스트위치(Test Position) 또는서비스위치(Service Position)를가지는아크제거기적용수배전반구조를제공한다. | ||||||
| 73 | 양측에 고정형 레일 연결 단자를 구비한 진공 스위치 | KR1020117011884 | 2009-11-10 | KR101660550B1 | 2016-09-27 | 안호이어마티아스; 도른외르그; 파르투쉰야안드레아스; 퀴벨토마스; 렐페터; 첸크너안드레아스 |
| 본발명은, 내부에진공이존재하고개폐접점이배치되는진공챔버(2)로서, 개폐접점은, 진공챔버(2)와견고하게결합되면서고정형접점연결단자(11)와전기적으로접촉하는고정형접점편과, 고정형접점편에상대적으로이동가능하게안내되고분리위치에서고정형접점편에대해이격되어배치되며접촉위치에서는고정형접점편에접촉하는이동형접점편을구비하는, 상기진공챔버(2)와, 구동운동을생성하기위한구동유닛(7)과, 구동유닛(7) 및이동형접점편과연결되고, 이동형접점편까지의전기전도성도체구간을포함하는스위칭기구(4)와, 접촉위치에서이동형접점편과이동형접점연결단자(13)를전기적으로연결하는연결수단들을포함하는진공스위치(1)에대한것이며, 콤팩트하면서도매우간단하며, 특히높은전원접속속도조건에서진공스위치의연결단자들간에높은전류용량을갖는확실한전류경로를제공하는상기진공스위치를제공하기위해, 연결수단들은고정접점(16, 17)을포함하고, 고정접점은스위칭기구(4)의도체구간과연결되는삽입고정접점편(16)과, 진공챔버(2)와는견고하게결합되고이동형접점연결단자(13)와는전기적으로연결되는상대고정접점편(17)을가지며, 삽입고정접점편및 상대고정접점편은, 삽입고정접점편(16)이구동운동의결과로서상대고정접점편(17)과전기전도가이루어지면서고정되는방식으로상호간에상대적으로배치되는점이제안된다. | ||||||
| 74 | 중간 전압 및 고-전압 스위칭 디바이스를 위한 스위치 장치 | KR1020117013536 | 2009-12-14 | KR101389341B1 | 2014-04-28 | 겐취,디트마르 |
| 본 발명은 스위치(12)를 갖는 중간 전압 및 고-전압 스위칭 디바이스를 위한 스위치 장치에 관한 것인데, 접점 중 적어도 하나는 추진 전하에 의해 작동될 수 있는 이동 접점이다. 고-전류 장치 및 고-전압 장치 모두가 본 발명에 따라 고려될 수 있는 것을 보장하기 위해, 복수의 스위치에 대해, 전용 추진 전하가 각 스위치에 대해 제공되는 것과, 추진 전하들이 점화 시간에 대해 서로 결합되는 것이 제안된다. | ||||||
| 75 | 단락 시스템을 갖는 저전압, 중간 전압 또는 고전압 개폐기 조립체 | KR1020107004777 | 2008-09-01 | KR101267955B1 | 2013-05-27 | 겐트쉐디트마르 |
| 본발명은청구항 1항의전제부에기재된단락시스템이설치된저전압, 중간전압또는고전압개폐기조립체에관한것이다. 이경우에, 물리적으로간단한수단으로빠르게스위칭하도록하기위해, 본발명은, 단락디바이스가진공인터럽터챔버에배치되고, 고정된접점부품이위치되는진공영역이약한파손라인을구비하고스위칭동안이동피스톤시스템에의해접점부품에관통될수 있는막을통해세분화되는것을제안한다. | ||||||
| 76 | 이차 전지 | KR1020110109357 | 2011-10-25 | KR1020130044965A | 2013-05-03 | 변상원; 최수석; 오정원; 한민열; 윤해권 |
| PURPOSE: A secondary battery is provided to discharge high voltage current after a fuse part being cut by external short circuit by connecting both sides of the fuse part to an auxiliary discharging path, thereby preventing arc generation. CONSTITUTION: A secondary battery comprises an electrode assembly(10) with electrodes(11,12) on both sides of a separator; a case(15) for accommodating the electrode assembly; a cap plate(20) which is coupled to the opening of the case; electrode terminals(21,22) which penetrate through and installed in the cap plate; lead tabs(31,32) which have a fuse part to connect the electrode terminals to the electrode assembly; and auxiliary discharge pathways which have a second resistance value higher than the first resistance value to connect or disconnect both sides of the fuse parts. | ||||||
| 77 | 이차 전지 | KR1020110010943 | 2011-02-08 | KR101175020B1 | 2012-08-17 | 김덕중 |
| PURPOSE: A secondary battery is provided to reduce number of total components, to reduce weight, and to simplify manufacturing process by slide-coupling a short plate to an insulating member, thereby capable of improving production yield. CONSTITUTION: A secondary battery(100) comprises: an electrode assembly(110) comprising a first electrode plate(111), a second electrode plate(112), and a separator(113); a case(140) accepting the electrode assembly; and a cap assembly(150) comprising a cap plate(151), which has a short hole(121a), and sealing the case. The cap assembly comprises a reversal plate(159) installed in the short circuit hole, an insulating element(157) in which an opening part is formed on one side, installed on the cap plate; and a short plate(158) installed to cover the short circuit by slide coupling through the opening part. | ||||||
| 78 | 수배전반의 고속 투입 스위치 | KR1020080122121 | 2008-12-03 | KR1020100063556A | 2010-06-11 | 정영우; 이현욱; 정해은; 신양섭; 김영근 |
| PURPOSE: A high speed inputting switch of a device is provided form effective damper performance of a location control in a final location of a moving unit by using an insulating gas within a case and a structural shape of a high speed inputting switch. CONSTITUTION: A first electrode(10) includes a penetration hole. A second electrode(20) includes a accepting groove(24) which is opposite with the penetration hole. An operating contact point member(30) includes a cylindrical body(31) accepted in the penetration hole and a flange part(33) formed on one end of the cylindrical body. A closing coil(80) supplies a repulsive power to the operating contact point member. A damping hole(90) is formed on the accepting groove of the second electrode. The operating contact point material is put inside of the accepting groove by the repulsive power of the closing coil. A release coil(70) is wound on one side of the first electrode. The release coil supplies the repulsive power to the operating contact point member. | ||||||
| 79 | Electronic module for protecting a HVDC converter from current surges of energy discharges from a capacitor of the converter | US15104305 | 2013-12-17 | US10109444B2 | 2018-10-23 | Daniel Boehme |
| An electronic module for protecting power semiconductor devices of an HVDC converter against high current surges and damaging electrical discharges includes a capacitor, a short circuit device, a movable portion, a short circuit portion and a spring element. The short circuit device is connected in parallel with the capacitor and has first and second busbars. The movable portion is connected to the first busbar and the short circuit portion is connected to the second busbar. The spring element is arranged between the movable portion and the short circuit portion. When a short circuit current flows through the first busbar, an electromagnetic force between the busbars causes the first busbar to repel the second busbar and move towards the short circuit portion. The latter provides a short circuit path connecting the first busbar to the second busbar short circuiting the capacitor and bypassing the power semiconductor devices of the HVDC converter. | ||||||
| 80 | High speed closing switch | US15144361 | 2016-05-02 | US09842717B2 | 2017-12-12 | Youngwoo Jeong |
| A high speed closing switch includes a case having an interior which is hermetically closed, a ground electrode installed within the case, a high voltage electrode spaced apart from the ground electrode by a predetermined interval, a movable electrode configured to move from a first position in which the ground electrode and the high voltage electrode are not connected to a second position in which the ground electrode and the high voltage electrode are connected, a coil configured to generate electromagnetic force to cause the movable electrode to be moved from the first position to the second position, a returning rod having one end fixedly connected to the movable electrode and the other end protruding to outside of the case, and a driving device configured to drive the returning rod such that the movable electrode is moved from the second position to the first position. | ||||||
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