| 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 | 电开关系统 | CN201210599312.X | 2012-12-06 | CN103219201B | 2016-08-24 | P·拉彻; M·劳雷里; P·科姆托伊斯 |
| 电开关系统,包含第一、第二和第三输入端子,第一、第二和第三输出端子,电开关模块,用于控制开关模块的控制模块。电开关模块包含两个第一和两个第二开关,每个开关包含固定输入和固定输出触头、移动触头和保持件,两个固定触头在开关闭合位置通过移动触头而连接且在开关断开位置彼此电绝缘,保持件保持移动触头且能在第一和第二位置间通过电驱动装置移动,在涉及开关模块的驱动装置的主要结构中,保持件包含与电驱动装置耦接的第一机械耦接元件。在电驱动装置的第二结构中,保持件包含与电驱动装置耦接的第二机械耦接元件,控制模块包含驱动装置,而且保持件在主要结构中通过第一耦接元件或在第二结构中通过第二耦接元件被机械耦接到驱动装置。 | ||||||
| 22 | 用于经电动机控制多个断路开关的器件 | CN201180025140.9 | 2011-05-26 | CN102934186B | 2016-03-09 | 帕特里斯·朱热; 纪尧姆·格拉内利; 让·吕克·拉永 |
| 这是一种用于经由用于每个断路开关的各电动机(M1,M2)来控制一组断路开关(21,22)以便操作断路开关的至少一个电接点的器件。其包括由驱动装置(12)驱动的单个切换接触器(11),该切换接触器(11)意图被连接至电动机的电源(V)并经由用于指引来自电源(V)的电流在途中经过切换接触器(11)的装置(R1,R2)连接至电动机。一个应用是控制高压变电站的隔室的断路开关。 | ||||||
| 23 | 逆变器装置 | CN201110229215.7 | 2011-08-01 | CN102347701B | 2014-03-19 | 鸠崎芳久; 中井胜 |
| 本发明涉及一种逆变器装置,用于改善逆变器装置的主电路部件的布局、和各部件之间的布线结构,从而对于安装有电路部件的基板实现空间节省。在设置于基板的上端部和下端部的半导体模块和输入端子台之间设置有电磁接触器、熔断器、和输入CT且各部件通过汇流条彼此连接的逆变器装置中,电磁接触器设置成其一次侧端子和二次侧端子分别面向输入端子台和半导体模块,并且熔断器和输入CT串联连接且与电磁接触器的侧面并排排列,经过熔断器和输入CT的R相和T相使得:电源输入端子与电磁接触器的二次侧端子通过汇流条7R-1和7T-1进行连接,并且电磁接触器的一次侧端子与熔断器通过汇流条7R-2和7T-2进行连接。 | ||||||
| 24 | 逆变器装置 | CN201110229215.7 | 2011-08-01 | CN102347701A | 2012-02-08 | 鸠崎芳久; 中井胜 |
| 本发明涉及一种逆变器装置,用于改善逆变器装置的主电路部件的布局、和各部件之间的布线结构,从而对于安装有电路部件的基板实现空间节省。在设置于基板的上端部和下端部的半导体模块和输入端子台之间设置有电磁接触器、熔断器、和输入CT且各部件通过汇流条彼此连接的逆变器装置中,电磁接触器设置成其一次侧端子和二次侧端子分别面向输入端子台和半导体模块,并且熔断器和输入CT串联连接且与电磁接触器的侧面并排排列,经过熔断器和输入CT的R相和T相使得:电源输入端子与电磁接触器的二次侧端子通过汇流条7R-1和7T-1进行连接,并且电磁接触器的一次侧端子与熔断器通过汇流条7R-2和7T-2进行连接。 | ||||||
| 25 | 电机控制装置 | CN200580009985.3 | 2005-03-16 | CN1939107B | 2010-06-16 | 马库斯·梅尔; 诺伯特·赖肯巴赫; 弗里茨·罗耶 |
| 本发明涉及一种电机控制装置、尤其是一种带有内部旁通支路的电机控制装置。为了提供一种具有集成的旁通功能及具有普遍适用性的电机控制装置,建议一种壳体(5),该壳体具有相互绝电的腔室(9),这些腔室(9)不仅分别用于容纳一个功率分部件(17),而且还可选地设计用于容纳一连续的导电元件(32)。 | ||||||
| 26 | 用于对至少两种工作状态进行操作的开关设备单元 | CN200680055911.8 | 2006-09-21 | CN101512707A | 2009-08-19 | 约瑟夫·格拉夫; 诺贝特·齐默尔曼; 路德维希·尼尔布勒 |
| 综上所述,本发明涉及一种借助开关元件对至少一个用电设备的至少两种工作状态进行操作的开关设备单元,所述用电设备连接在至少为两相的供电网络上。本发明的目的是提供一种结构尽可能简单的低成本紧凑型开关设备单元。为此,所述开关设备单元具有用于对所述用电设备进行正常通断和用于执行过载及短路保护脱扣功能的电路,其中,所述电路的整合方式可使所述开关设备单元在用作紧凑型可逆启动器时具有标准宽度,这样就可将所述开关设备单元节省空间地安装在配电箱内的U形轨条上,使其在配电箱内工作。 | ||||||
| 27 | 电机控制装置 | CN200580009985.3 | 2005-03-16 | CN1939107A | 2007-03-28 | 马库斯·梅尔; 诺伯特·赖肯巴赫; 弗里茨·罗耶 |
| 本发明涉及一种电机控制装置、尤其是一种带有内部旁通支路的电机控制装置。为了提供一种具有集成的旁通功能及具有普遍适用性的电机控制装置,建议一种壳体(5),该壳体具有相互绝电的腔室(9),这些腔室(9)不仅分别用于容纳一个功率分部件(17),而且还可选地设计用于容纳一连续的导电元件(32)。 | ||||||
| 28 | 多极电磁开关组件 | CN00118982.4 | 2000-06-18 | CN1291780A | 2001-04-18 | 伯纳德·福尼尔; 让-马克·罗米朗 |
| 一种多极电磁开关模块;其中,开关电极(C1,C2,C3)和电流线(Cf1,Cf2)布置在单元内部;用来执行诸如反向、星-三角或分配器等等电机控制功能,并且开关电磁铁(EI)及其控制电路(Cc)构成的电极控制组件在与模块的后紧固面(Pf)垂直的方向上相对于开关电极(C1,C2,C3)和负载路径有偏移,以缩小模块的宽度(L),并且使其宽度与其有关的主体装置(Ap)大体上相同。因此;组件的宽度缩小了;并受到与其有关并且连接在上级的主体设备的保护。 | ||||||
| 29 | 转换开关 | CN95121338.5 | 1995-12-11 | CN1138738A | 1996-12-25 | 马场秀和; 善明敬策; 五十棲秀三 |
| 装配有可动接点75以容许常闭公共固定接点部104b岔开可动接点和轴向通过的可动接点组件71可拆卸地固定在轩铁心24上。具有常闭固定接点部93a的接点模压件91和具有常开固定接点部103a,常闭公共固定接点部104b,和常开公共固定接点部104d的开关盖帽101构成轴向可分离的。开关盖帽101转动90°,供岔开可动接点75和容许轴向通过,和再转动90°用于返回原先状态,因而将可动接点75放置于公共固定接点104的凹槽104a内。 | ||||||
| 30 | 限制断续器的锁定机构 | CN89108574.2 | 1989-11-16 | CN1023584C | 1994-01-19 | 法法尔·安德烈 |
| 本发明公开了一种限制断续器的锁定机构,此机构具有两个杆,此两杆作用在相应的两个推动块上,此两个推动块则操纵一转换断续器的一些开关。各枢接在一固定轴上的杆具有一滚轮,用一弹簧使此滚轮压靠在一转动的凸轮的外缘上。此凸轮可从一锁定的自动操作位置转换到一跳闸位置,在自动操作位置上凸轮可使杆与推动块脱开而闭合开关,在跳闸位置上杆作用在推动块上使开关保持在断开位置上。 | ||||||
| 31 | ELECTRICAL SWITCHING DEVICE | US15035297 | 2014-12-08 | US20160293367A1 | 2016-10-06 | Patrick LARCHER; Patrick COMTOIS |
| An electrical switching device including an electric power switching module including a block of three input terminals and three output terminals, each input or output terminal being connected to a stationary contact of an electrical switch also including a mobile contact, configured to switch between an open position and a closed position, the mobile contact configured to be moved by an electromagnetic drive mechanism, and a control module, including at least one control input terminal and at least one control output terminal. The control module includes the electromagnetic drive mechanism configured to be supplied by the control terminals to control a position of one of the mobile contacts. A supervision module includes an auxiliary input contact terminal and two auxiliary output contact terminals, the auxiliary input contact terminal being shared by the two auxiliary output contact terminals, the power module being removable separately from the control and supervision modules. | ||||||
| 32 | PORTABLE LOAD BALANCING AND SOURCE OPTIMIZATION | US14469261 | 2014-08-26 | US20160064932A1 | 2016-03-03 | Scott Fischer; J. Rick Martin; Gregory Brainard; Robert Harris; Jonathan Gray Tugwell |
| Methods, systems, and devices for portable load balancing and source optimization are described herein. One portable load balancing and source optimization system, includes one or more electric generators that supply three phase electrical power, at least one sensor to sense whether the three phases have become unbalanced beyond a threshold amount, a set of contactors that enable the contacts of the three phases to be changed to adjust the balance of the three phases, and a controller to determine which reversible contactors of the set of contactors to change to adjust that balance of the three phases based on information from the sensor. | ||||||
| 33 | Safety switching device for setting a safety-related device to a safe state | US13555293 | 2012-07-23 | US09239572B2 | 2016-01-19 | Andre Korrek |
| A safety switching device, with which a safety-related device, can be set into a safe state. The safety switching device has a microprocessor or microcontroller, which can set an electric drive to be protected into a safe state both if an emergency circuit breaker, protective door switch, and/or two-hand switch is activated and also if there is faulty operation of the safety-related device or electric drive. For this purpose, the microprocessor is implemented such that it can determine from at least one analog signal to be measured whether a predetermined parameter lies outside a predetermined operating range. In addition, the microprocessor can be a component of a safety device which is constructed for multiple-channel control of a safety-related electric drive. In this way, the safety switching device can respond to several safety functions independent of each other in order to set an electric drive into a safe state. | ||||||
| 34 | Magnetic contactor | US14473629 | 2014-08-29 | US09202642B2 | 2015-12-01 | Hyun Il Jang |
| Disclosed is a magnetic contactor. A free space in which a DC converting circuit is provided is in a product can be secured by changing shapes of the movable core and the fixed core, and thus, in association with a low-capacity product, external AC power may be converted into DC power even without enlarging a size of a product. Also, a normal position member may be included in a movable core, and may induce the movable core to the original position, and thus, a mechanical mechanism relationship between the switch manipulating part included in the movable core and the other element is maintained. | ||||||
| 35 | Reversible electromagnetic contactor | US13508254 | 2010-09-13 | US08466759B2 | 2013-06-18 | Kouetsu Takaya; Koji Okubo; Yasuhiro Naka; Kenji Suzuki |
| A reversible unit (10) is attached by being mounted over a pair of adjacently disposed electromagnetic contactors (1a) and (1b). The reversible unit (10) includes a pair of interlock plates (11) and (12), a lock piece (13), and a unit case (10b) accommodating the pair of interlock plates (11) and (12) and the lock piece (13). The lock piece (13) rotates in a first direction with the movement of one of the interlock plates (12) in a turn-on operation of one of the electromagnetic contactors (1a) to prevent the movement of the other interlock plate (11), and rotates in a second direction different from the first direction with the movement of the other interlock plate (11) in a turn-on operation of the other electromagnetic contactor (1b) to prevent the movement of one of the interlock plates (12). The unit case (10b) is provided with a lock piece display window (10g) which allows determination of the rotation of the lock piece (13) in the first direction or the second direction. | ||||||
| 36 | ELECTRIC SWITCHING SYSTEM COMPRISING AN ELECTRIC SWITCHING MODULE INCLUDING TWO ELEMENTS COUPLING A CONTACT(S)-HOLDER WITH ITS DRIVING DEVICE | US13692773 | 2012-12-03 | US20130140153A1 | 2013-06-06 | Patrick LARCHER; Michel Lauraire; Patrick Comtois |
| This electric switching system comprises first, second and third input terminals, a first, a second and a third output terminal, an electric switching module and a control module for controlling the switching module.The electric switching module comprises two first switches and two second switches, each switch comprising a fixed input contact, a fixed output contact and a mobile contact, the two fixed contacts being connected via the mobile contact in closed position of the switch and insulated from each other in open position of the switch, and a holder member holding the mobile contacts and being able to be moved by an electric driving device between a first position and a second position, the holder member comprising a first mechanical coupling element with the driving device in a primary configuration of the driving device relative to the switching module.The holder member comprises a second mechanical coupling element with the driving device in a secondary configuration, the control module comprises the driving device, and the holder member is mechanically coupled to the driving device via the first coupling element in the primary configuration or else via the second coupling element in the secondary configuration. | ||||||
| 37 | Electromagnetic contact device | US13138731 | 2010-06-14 | US08378767B2 | 2013-02-19 | Koji Okubo; Koetsu Takaya; Yasuhiro Naka; Toshikatsu Ohgami |
| Two electromagnetic contact devices 1a, 1b are arranged adjacently, a reversible unit 2 is detachably mounted on these electromagnetic contact devices, and two auxiliary contact point units 4a, 4b are detachably mounted on the reversible unit. In addition, two surge absorption units 3a, 3b are detachably mounted on the electromagnetic contact devices. | ||||||
| 38 | Safety switching device for setting a safety-related device to a safe state | US11915326 | 2006-07-28 | US08363371B2 | 2013-01-29 | Andre Korrek |
| A safety switching device, with which a safety-related device, can be set into a safe state. The safety switching device has a microprocessor or microcontroller, which can set an electric drive to be protected into a safe state both if an emergency circuit breaker, protective door switch, and/or two-hand switch is activated and also if there is faulty operation of the safety-related device or electric drive. For this purpose, the microprocessor is implemented such that it can determine from at least one analog signal to be measured whether a predetermined parameter lies outside a predetermined operating range. In addition, the microprocessor can be a component of a safety device which is constructed for multiple-channel control of a safety-related electric drive. In this way, the safety switching device can respond to several safety functions independent of each other in order to set an electric drive into a safe state. | ||||||
| 39 | ELECTROMAGNETIC CONTACT DEVICE | US13138731 | 2010-06-14 | US20120133460A1 | 2012-05-31 | Koji Okubo; Kouetsu Takaya; Yasuhiro Naka; Toshikatsu Ohgami |
| Two electromagnetic contact devices 1a, 1b are arranged adjacently, a reversible unit 2 is detachably mounted on these electromagnetic contact devices, and two auxiliary contact point units 4a, 4b are detachably mounted on the reversible unit. In addition, two surge absorption units 3a, 3b are detachably mounted on the electromagnetic contact devices. | ||||||
| 40 | MAGNETIC CHAMBER FOR ELECTROMAGNETIC LOW VOLTAGE SWITCHGEAR, AND ELECTROMAGNETIC LOW VOLTAGE SWITCHGEAR | US12935338 | 2009-03-11 | US20110043306A1 | 2011-02-24 | Josef Graf; Mathias Völz |
| A magnetic chamber is disclosed for electromagnetic low voltage switchgear, especially a compact reversing starter, including two magnetic drives which are each actuated by a main slide. The magnetic chamber is designed, in at least one embodiment, to receive both magnetic drives of the electromagnetic low voltage switchgear, and a mechanical reversing locking device held in a mobile manner for the alternating mechanical locking of the two magnetic drives is arranged in the magnetic chamber, the mechanical locking device acting on the two main slides. An electromagnetic low voltage switchgear is disclosed, especially a compact reversing starter, including two magnetic drives which are each actuated by a main slide, both magnetic drives being arranged in a magnetic chamber. The mechanical reversing locking device held in a mobile manner, in at least one embodiment, engages with the main slide of one of the magnetic drives, according to the position of the locking device, in order to fix said magnetic drive. | ||||||
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