| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 21 | 旋转开关的开关主轴 | CN200480005041.4 | 2004-02-24 | CN100435256C | 2008-11-19 | G·赖莫尔德; S·曼努斯 |
| 本发明的实施例提出了一种旋转开关的开关主轴(11),该开关主轴具有成型的凸轮(17)或凸轮盘(5)。在开关主轴(11)的外侧上设有加强部分(25),其在轴向上以很短的距离延伸至开关主轴的端部。该加强部分(25)可承受拉应力,该拉应力由开关触点(19)的压力主要在开关主轴(11)的中间区域上产生。从而避免弯曲开关主轴(11)。 | ||||||
| 22 | 适用于不同工作配位并具有改进轴向支撑的开关 | CN200680016460.7 | 2006-05-03 | CN101176179A | 2008-05-07 | S·贝萨纳; G·布里格诺利; F·加姆巴 |
| 本发明涉及一种优选地用于低电压系统的单极或多极开关。所述开关(1)包括一个外壳(2),所述外壳(2)对于每个电极包含至少一个固定触头(10)和至少一个可移动触头(20),两者可彼此连接/分开。所述可移动触头(20)被容纳在一个适当的底座(25)中,所述底座(25)布置在可移动部件(50)上。所述开关(1)还包括一个能量积累控制机构(60),所述控制机构(60)可操作地连接到所述可移动部件(50)上,以允许其运动。根据本发明的所述开关(1)优选地配置有轴向支撑装置,所述轴向支撑装置可操作地连接到所述可移动部件(50),用于承受沿所述可移动部件本身转轴所产生的重力冲击,所述重力冲击是在所述轴相对于大致水平面倾斜时产生的。 | ||||||
| 23 | 旋转开关的开关主轴 | CN200480005041.4 | 2004-02-24 | CN1754239A | 2006-03-29 | G·赖莫尔德; S·曼努斯 |
| 本发明的实施例提出了一种旋转开关的开关主轴(11),该开关主轴具有成型的凸轮(17)或凸轮盘(5)。在开关主轴(11)的外侧上设有加强部分(25),其在轴向上以很短的距离延伸至开关主轴的端部。该加强部分(25)可承受拉应力,该拉应力由开关触点(19)的压力主要在开关主轴(11)的中间区域上产生。从而避免弯曲开关主轴(11)。 | ||||||
| 24 | 具有一个用于支撑开关轴的装置的低压断路器 | CN00813649.1 | 2000-09-15 | CN1162883C | 2004-08-18 | 迈克尔·巴赫; 迈克尔·西贝科; 冈瑟·塞德勒-斯塔尔; 德特莱夫·施米特; 英戈·蒂德; 塞蔡·特克曼 |
| 为了将一低压断路器的带有连杆(9,10)的、预先定位好的开关轴(8)支撑在开关作用力的作用区域内,为此而设置的轴承组件(1)具有一轴承体(2),它以半罩壳的形式包围着开关轴(8),并被固定在开关极的罩壳前壁(25)上,该轴承体的一局部区域(4)设置在两个彼此隔开并与一可动开关触头(11)连接的连杆(9)和连杆(10)之间,并构成所述连杆(9,10)的侧引导面(13)。一个这样的轴承组件(1)可以安装在多极低压断路器的开关轴(8)的两端部区域内。 | ||||||
| 25 | 회로 차단기 | KR1020147031106 | 2012-05-15 | KR1020150004827A | 2015-01-13 | 치구사신이치 |
| 회로 차단기 케이스(101c) 내에, 개폐 기구부(51)와, 이 개폐 기구부에 연결되어 상기 개폐 기구부의 동작에 의해 회동하는 유지 부재(11)와, 이 유지 부재에 유지된 가동 접촉자(10)와, 상기 유지 부재의 회동에 따라서 회동하는 가동 접촉자가 개폐하는 고정 접촉자(8)를 내장하고 있는 회로 차단기에 있어서, 상기 유지 부재를 회동 가능하게 지지하는 지지부의 지지면의 상기 유지 부재의 회동의 회동 중심 방향으로부터 본 형상과, 상기 지지부의 지지면에 의해서 지지되는 상기 유지 부재의 피지지면의 상기 회동 중심 방향으로부터 본 형상이 다른 형상으로 형성되고, 상기 개방 상태에서의 상기 유지 부재의 제1 축심(11b)의 위치와 상기 가동 접촉자의 폐쇄 상태에서의 상기 유지 부재의 제2 축심(11c)의 위치가 다른 위치가 되어, 가동 접촉자의 투입력이 증대한다.
|
||||||
| 26 | 회로 차단기 | KR2019860005364 | 1986-04-21 | KR2019900000518Y1 | 1990-01-30 | 마쓰모도요시아끼; 마쓰모도시게루 |
| 내용 없음. | ||||||
| 27 | High current intensity of the low-voltage multipole circuit breaker polar axis is arranged in the receiving compartment of the pole portion | JP2000556383 | 1999-06-07 | JP4137380B2 | 2008-08-20 | アンドレ、ラソ; ジャン‐ピエール、ネボン; ジャン‐フィリップ、エルパン |
| 28 | Contact support shaft for the low-voltage power circuit breaker | JP2003551798 | 2002-12-10 | JP4119369B2 | 2008-07-16 | アッツォーラ、ルシオ; ツァンキ、エリジオ |
| 29 | Contact support shaft for the low-voltage power circuit breaker | JP2003551798 | 2002-12-10 | JP2005512291A | 2005-04-28 | アッツォーラ、ルシオ; ツァンキ、エリジオ |
| 本発明の回転型の低電圧パワー・サーキット・ブレーカ用の接点支持シャフトは、下記特徴を備える。 この接点支持シャフトは、回転軸に沿って、少なくとも一つの第一の支持モジュール(10)と少なくとも一つの第二の支持モジュール(20)とを備えたモジュラー構造を有し;各支持モジュールは、当該サーキット・ブレーカの少なくとも一つの対応する移動接点(3)に対して機能的に結合され、且つ、少なくとも一つの第一の相互接続モジュール(30)に対する接続のための第一及び第二の手段(22)を、それぞれ備え;第一の相互接続モジュールは、第一及び第二の支持モジュールの間に挿入され、且つ、第一及び第二の接続手段に対して、それぞれ結合されるために適した第三及び第四の接続手段(31)を備え;第一の接続手段と第三の接続手段の間の結合、及び第二の接続手段と第四の接続手段の間の結合は、第一の支持モジュールと第二の支持モジュールの間の機能的な接続、及び第一及び第二の支持モジュールに対する相互接続モジュールの直接の構造的な接続を可能にする。 | ||||||
| 30 | High current intensity of the low-voltage multipole circuit breaker polar axis is arranged in the receiving compartment of the pole portion | JP2000556383 | 1999-06-07 | JP2002519813A | 2002-07-02 | アンドレ、ラソ; ジャン‐ピエール、ネボン; ジャン‐フィリップ、エルパン |
| (57)【要約】 本発明は、高電流強さを有する低電圧多極回路遮断器(10)に関するものであり、この回路遮断器(10)は絶縁材料から成るケーシングを含み、このケーシングが回路遮断器(10)を開閉するための制御機構(24)を収容する前側区画(12)と、中間壁体(20)によって前側区画から分離された後側区画(14)とに細分される。 後側区画(14)そのものが分離仕切り(38)によって要素区画(36)に細分され、各要素区画(36)がそれぞれ回路遮断器の極部(56)の1つを収容する。 制御機構(24)は極部(56)のセット全体に共通の極軸(78)に連結される。 極軸(78)は後側区画(14)の中に配置され、仕切り壁体(38)を貫通する軸受によって支承される。 | ||||||
| 31 | Switch and manufacture of base for switch | JP4125999 | 1999-02-19 | JPH11288653A | 1999-10-19 | KATSUBE SHUNICHI; UEMOTO TOSHIKAZU; NISHINA KENICHI; FUKUTANI KAZUNORI; YAMAGATA NOBUJI; TAKAHASHI MITSUGI; KATO KAZUHARU; YAMAGUCHI SHOJI; MIHASHI TAKAO; ADACHI HIROSHI; NISHIYAMA ITSUO; BABA FUMIAKI; YAMAZAKI SATORU |
| PROBLEM TO BE SOLVED: To provide a small switch excellent in flame resistance without corroding metallic parts and also in insulation performance after electrodes are opened or closed. SOLUTION: This switch has a base wherein organic-inorganic complex compositions and a structural composition are integrally molded, the organic- inorganic complex compositions containing a resin, an inorganic compound which is dehydrated at 150°C and higher, and reinforcement. For example, the organic-inorganic complex, compositions containing the resin by 15 to 70 wt.% and one kind or more of inorganic compounds which are dehydrated at 150°C or higher, by 80 to 30 wt.%, are molded and placed on the inside 2a of the base 2 of a casing, and the structural composition is molded and placed on the outside 2b of the base. COPYRIGHT: (C)1999,JPO | ||||||
| 32 | Circuit breaker | JP6796991 | 1991-03-07 | JP2853358B2 | 1999-02-03 | UNUMA MAKOTO; HORI SHINICHI |
| 33 | TRIP MECHANISM FOR DIRECT CURRENT MOLDED CASE CIRCUIT BREAKER | US15644447 | 2017-07-07 | US20180061602A1 | 2018-03-01 | Kihwan OH |
| Provided is a trip mechanism for DC molded case circuit breaker, in which the insulating distance between the poles increases without any increase in whole product size, thereby reliably providing a trigger output against an over current and a fault current instantaneous breaking required. The trip mechanism includes a trip mechanism part including an instantaneous trip mechanism, the instantaneous trip mechanism including a movable member to operate according to a fault current instantaneous breaking required, and a thermal trip mechanism including a bimetal to operate according to an over current, the trip mechanism part being provided for one of two adjacent poles; a crossbar that is rotatable by contacting and pressing of the movable member of the instantaneous trip mechanism or the bimetal of the thermal trip mechanism; and a shooter that is provided to be rotatable by contacting of the crossbar rotating. | ||||||
| 34 | Electrical switch | US13706393 | 2012-12-06 | US09558906B2 | 2017-01-31 | Zbynek Augusta; Filip Musil |
| An electrical switch is disclosed, especially an electrical circuit breaker, including an overcurrent tripping device which, in the event of an overcurrent situation, switches off the flow of current through the switch; and a thermal tripping device which, in the event of a thermal overload, switches off the flow of current through the switch. In at least one embodiment, the overcurrent tripping device includes a first shaft which is disposed such that, in the event of an overcurrent situation, it is rotated from a first position into a second position and thereby indicates the overcurrent situation; and the thermal tripping device includes a second shaft which is disposed such that, it is rotated in the event of a thermal overload and is also rotated as well in the event of a rotation of the first shaft and when rotated initiates a switching-off of the switch. | ||||||
| 35 | Switch adaptable to different operating configurations and improved axial support | US11914246 | 2006-05-03 | US07750259B2 | 2010-07-06 | Stefano Besana; Gustavo Brignoli; Federico Gamba |
| The present invention relates to a single-pole or multi-pole switch to be used preferably in low-voltage systems. The switch (1) comprises an outer casing (2) containing for each pole at least one fixed contact (10) and one mobile contact (20) that can be coupled to/uncoupled from one another. The mobile contacts (20) are housed in appropriate seats (25) provided on a mobile element (50). The switch (1) moreover comprises an energy-accumulation control mechanism (60), operatively connected to the mobile element (50) to enable its movement. The switch (1) according to the invention is advantageously provided with means of axial support operatively connected to the mobile element (50) in order to support the gravitational thrusts that are generated along the axis of rotation of the mobile element itself when said axis is inclined with respect to a substantially horizontal plane. | ||||||
| 36 | Circuit breaker with interchangeable operating mechanism and suspended mobile contact assembly | US11913923 | 2006-05-03 | US07709758B2 | 2010-05-04 | Maurizio Curnis; Daniela Olivieri |
| The present invention relates to a single-pole or multi-pole switch to be used preferably in low-voltage systems. The switch (1) comprises an outer casing (2) containing for each pole at least one fixed contact (10) and one mobile contact (20) which can be reciprocally coupled to/uncoupled from each other. The mobile contacts (20) are housed in suitable seats (25) provided on a mobile element (50). The switch (1) according to the invention is provided with a control mechanism (60, 61) comprising mechanical means supported by a structural part (70). This control mechanism (60, 61) is connected to the mobile element (50) through first removable connection means (64) and to the outer casing (2) through second removable connection means (65). The switch (1) also comprises means to support the mobile element (50) which are connected to the structural part (70) of the control mechanism (60, 61) through third removable connection means (66). | ||||||
| 37 | Switch Adaptable to Different Operating Configurations and Improved Axial Support | US11914246 | 2006-05-03 | US20080210532A1 | 2008-09-04 | Stefano Besana; Gustavo Brignoli; Federico Gamba |
| The present invention relates to a single-pole or multi-pole switch to be used preferably in low-voltage systems. The switch (1) comprises an outer casing (2) containing for each pole at least one fixed contact (10) and one mobile contact (20) that can be coupled to/uncoupled from one another. The mobile contacts (20) are housed in appropriate seats (25) provided on a mobile element (50). The switch (1) moreover comprises an energy-accumulation control mechanism (60), operatively connected to the mobile element (50) to enable its movement. The switch (1) according to the invention is advantageously provided with means of axial support operatively connected to the mobile element (50) in order to support the gravitational thrusts that are generated along the axis of rotation of the mobile element itself when said axis is inclined with respect to a substantially horizontal plane. | ||||||
| 38 | Phase-to-phase isolation of cassette type circuit breakers | US10436637 | 2003-05-13 | US20040227598A1 | 2004-11-18 | Ronald Ciarcia; Luis Brignoni; Narender Macha; Ananthram Subramanian; Samuel Kim |
| A molded case, cassette type circuit breaker for a multi-pole electrical distribution circuit includes a number of cassettes equal to the number of poles in the multi-pole electrical distribution circuit and a pin disposed through each cassette. The pin is formed from a dielectric material. The pin may be further disposed through a portion of an operating mechanism for aligning the cassettes and the operating mechanism. Each cassette may include a rotor, a pair of electrical contacts, and a contact arm supported in the cassette by the rotor. In this embodiment, the pin may be a cross pin that extends between each rotor. The dielectric material may include phenolic, melamine, silicone, epoxy, polyester, fiberglass and the like. Alternatively, the pin includes a steel bar coated with the dielectric material, where the dielectric material may include, for example, epoxy, silicon, Teflon, and the like. A pair of end caps may be disposed over end surfaces of the rotor. Pole spacing between adjacent cassettes may be about one inch or less while providing sufficient dielectric integrity to meet requirements of the UL 489 standard. | ||||||
| 39 | Operating shaft for a multiple electrical power circuit breaker and method for its production | US09869052 | 2001-08-17 | US06734378B1 | 2004-05-11 | Ludvik Godesa; Peter Petznik |
| An operating shaft (1) for operation of switching contacts in a multipole electrical power breaker has a shaft tube (2), which is intended to provide a rotating bearing, and levers (4) which project from it and are composed of dye-cast metal. These levers (4) are mounted on the shaft tube (2), which is formed from a tubular semi-finished product composed of a metal which has a higher melting point than that of the levers (4). All the levers on an operating shaft (1) can be formed as an integral dye-cast body (3) or as individual dye-cast bodies. The described configuration allows operating shafts (1) for power breakers of different sizes to be manufactured integrally. | ||||||
| 40 | Low-voltage multipole circuit breaker with high electrodynamic resistance, whereof the pole shaft is arranged in the compartment housing the poles | US09719876 | 2000-12-19 | US06317019B1 | 2001-11-13 | Jean-Philippe Herpin; André Raso; Jean-Pierre Nebon |
| A low-voltage multipole circuit breaker with high electrodynamic strength comprises a case made of insulating material, subdivided into a front compartment housing an operating mechanism commanding opening and closing of the circuit breaker and a rear compartment separated from the front compartment by an intermediate wall. The rear compartment is itself subdivided into individual compartments by separating partitions, each individual compartment housing one of the poles of the circuit breaker. The operating mechanism is linked to a pole shaft common to all the poles. The pole shaft is located in the rear compartment and supported by bearings passing through the separating partitions. | ||||||
QQ群二维码
意见反馈
意见反馈