| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 181 | Voltage Regulator System and Method of Use | US15385437 | 2016-12-20 | US20180173256A1 | 2018-06-21 | Thomas Ambrose Dauzat |
| Embodiments of the disclosure pertain to a voltage regulator system having a voltage regulation controller and a transformer assembly. The transformer assembly includes a coil winding, a multi-contact tap arrangement connected to the coil winding, and a multifurcated tap changer system that includes a first tap changer having a contactor element which makes contact with a first contact of the multi-contact tap arrangement when the controller provides a positioning stimulus based on sensing a voltage deviation from a nominal output voltage of the voltage regulator system. The multifurcated tap changer system further includes a second tap changer that is mechanically ganged to the first tap changer and includes another contactor element arranged to automatically make contact with a second contact of the multi-contact tap arrangement when the contactor element of the first tap changer makes contact with the first contact of the multi-contact tap arrangement. | ||||||
| 182 | High thermal efficiency electric switch and method for interrupting electric current | US15125129 | 2014-11-07 | US09899159B2 | 2018-02-20 | Jose Oscar Andaluz Sorlí |
| The present invention relates to an electric switch comprising a first switch assembly (1) with several electric breaker elements (2a, 2b, 2c) connected in series between two connection terminals (5, 6), and a second switch assembly (4) with a electric breaker element (3) connected in parallel to the first switch assembly (1). The second switch assembly (4) has less electrical resistance than the first switch assembly (1). The switch is configured so that the second switch assembly (4) closes in a delayed manner with respect to the closing of the first switch (1). Current interruption operations are performed with the first switch assembly (1) to facilitate arc quenching, whereas in permanent working of the switch, current flows through the low electrical resistance second breaker element (4) to reduce losses due to heating. The invention also relates to a method for controlling current flow. | ||||||
| 183 | SWITCH | US15543644 | 2016-01-28 | US20170358410A1 | 2017-12-14 | Daiei IWAMOTO |
| A switch includes a first switch (100) including a first fixed contact (111) and a first movable contact (121) and a second switch (200) including a second fixed contact (211) and a second movable contact (221). The first fixed contact (111) and the first movable contact (121) come into contact and the second fixed contact (211) and the second movable contact (221) come into contact to turn on the switch. A magnet (320) is installed between the first switch (100) and the second switch (200). | ||||||
| 184 | Slot motor configuration for high amperage multi-finger circuit breaker | US15071622 | 2016-03-16 | US09805887B2 | 2017-10-31 | James Edward Ferree |
| A multi-finger circuit breaker includes a moving contact assembly having a carrier body, a first plurality of fixed breaking contacts, a first plurality of movable contacts, a plurality of first fingers, at least one second finger longer in length to a length of a first finger of the plurality of first fingers, a plurality of splitter plates disposed adjacent to the plurality of first fingers and the at least one second finger and a slot motor disposed adjacent to the plurality of first fingers and the at least one second finger. The slot motor is configured to provide a first magnetic field force to amplify a second magnetic field force being applied on the second finger to influence an arc between the first plurality of fixed breaking contacts and the first plurality of movable contacts during a short circuit such that to move the arc away from between the first plurality of fixed breaking contacts and the first plurality of movable contacts and dissipate energy of the arc. | ||||||
| 185 | Slot Motor Configuration for High Amperage Multi-Finger Circuit Breaker | US15071622 | 2016-03-16 | US20170271112A1 | 2017-09-21 | James Edward Ferree |
| A multi-finger circuit breaker includes a moving contact assembly having a carrier body, a first plurality of fixed breaking contacts, a first plurality of movable contacts, a plurality of first fingers, at least one second finger longer in length to a length of a first finger of the plurality of first fingers, a plurality of splitter plates disposed adjacent to the plurality of first fingers and the at least one second finger and a slot motor disposed adjacent to the plurality of first fingers and the at least one second finger. The slot motor is configured to provide a first magnetic field force to amplify a second magnetic field force being applied on the second finger to influence an arc between the first plurality of fixed breaking contacts and the first plurality of movable contacts during a short circuit such that to move the arc away from between the first plurality of fixed breaking contacts and the first plurality of movable contacts and dissipate energy of the arc. | ||||||
| 186 | SWITCH APPARATUS FOR CONNECTION WITH A DC CIRCUIT | US14845884 | 2015-09-04 | US20160056000A1 | 2016-02-25 | METEHAN OZKAYA; RICHARD DONALD PROHASKA; WARREN SIPE |
| A switch apparatus usable in a DC circuit employs a rotatable shaft having conductors that are removably connected with two or more pairs of contacts that are situated on line conductors and load conductors and that are connected in parallel by the conductors on the shaft. In rotating the shaft to open the switch, one pair of the contacts is electrically disconnected prior to electrical disconnection of the other pair of contacts. Further rotation of the shaft causes the other pair of contact to eventually become disconnected. Electrical arcs thus form only at the air gaps between the other pair of contacts and the conductor. Magnetic field elements in the form of permanent magnets are situated in the vicinity of the air gaps of only the other pair of contacts and apply Lorentz forces to the arcs to extinguish them. | ||||||
| 187 | Switching device suitable for direct current operation | US14133815 | 2013-12-19 | US09129761B2 | 2015-09-08 | Karsten Gerving; Volker Lang; Johannes Meissner; Ralf Thar |
| A switching device includes at least a first current path and a second current path, each of which have a first connection and a second connection, whereby the first connections are arranged on the first side of the switching device and the second connections on the second side of the switching device, each current path has at least one contact pair, that has a first contact and a second contact, whereby at least the second contact is arranged on a contact member that is movable to the first contact and whereby in the switched-on status of the switching device, both the contacts are in contact with each other, each contact pair has at least one extinguishing device, whereby the extinguishing devices of both the current paths are arranged in a direction from the first connections to the second connections, behind one another and at least partly covering each other. | ||||||
| 188 | Electromagnetic relay | US13981314 | 2011-03-24 | US09123494B2 | 2015-09-01 | Tetsuo Shinkai; Yasuyuki Masui; Tsukasa Yamashita |
| An electromagnetic relay including an electromagnet block having a rod-shaped iron core, a coil wound around the rod-shaped iron core, and a spool interposed between the coil and iron core. A yoke having one end section extends to a section at a side of a magnet pole section of the iron core. An end section of the yoke is arranged so that the magnet pole section has a gap on a base side. A moving iron is pivotably supported by an elastic support of a hinge spring. The electromagnet block is magnetized wherein a section drawn in the moving iron is drawn to the magnet pole section and pivoted to drive a contact switching unit. The hinge spring includes an elastic contacting portion extending toward an opposite side to the elastic support. The moving iron is integrated with a card member that comes in contact with the elastic contacting portion. | ||||||
| 189 | Circuit breaker with arc extinguishing mechanism | US13345627 | 2012-01-06 | US08772665B2 | 2014-07-08 | Young Gyu An |
| A circuit breaker having an arc extinguishing mechanism includes a plurality of grids disposed in a longitudinal direction, each having protruding portions at both ends thereof so as to define a space therebetween, a fixing portion to support the grids, insulating plates fixed to both sides of the grids, a stator located below the grids, the stator including an arc runner and a stationary contact disposed at an upper side of the arc runner, and a mover contactable with or separated from the stationary contact with moving up and down within the space, wherein an interval between the insulating plates within the space is shorter than a width of the mover. | ||||||
| 190 | Circuit breaker having dual arc chamber | US12898236 | 2010-10-05 | US08735758B2 | 2014-05-27 | Hai Chen; Larry Navarre; Hector Malacara |
| A circuit breaker which includes first and second contact pairs and a contact arm arranged in series. A first arm contact and a first terminal contact from a first line terminal form a first contact pair. A second arm contact and a second terminal contact from a second line terminal contact form a second contact pair. The first contact pair, contact arm and second contact pair are connected in a series arrangement in which the air gaps formed when the first and second contact pairs are separated combine to form an effective air gap which is double in size and thus increases an interrupting capacity of the circuit breaker. An arc chamber is associated with the first and second contact pairs for extinguishing an arc formed in the air gaps. The first and second contact pairs may also be arranged in a parallel configuration for increasing an amperage rating of the circuit breaker. | ||||||
| 191 | ELECTROMAGNETIC RELAY | US13982746 | 2011-03-24 | US20140028418A1 | 2014-01-30 | Tsukasa Yamashita; Tetsuo Shinkai; Yasuyuki Masui |
| An electromagnetic relay including a contact switching unit formed by arranging at least two contact groups, in parallel with each other and perpendicular to the touch/separation direction of the contacts, each of the contact group includes a pair of contacts that can touch and separate; an electromagnet block that drives the contact switching unit to open and close the contacts; and an arc-extinguishing member comprising a connection member made from a magnetic material and formed by a connection of protrusions that respectively protrude from both sides of a middle part in the direction of the parallel arrangement of the contact groups and between the contact groups, and also comprising permanent magnets respectively disposed at least on the opposing positions of the protrusions located on both sides of the middle part. | ||||||
| 192 | Contactor and switch | US13347821 | 2012-01-11 | US08531257B2 | 2013-09-10 | Yannick Vuillermet; Henri Sibuet |
| A magnetically actuatable contactor has first and second magnetic material strips extending longitudinally. Each has a pad with a contact face parallel to the longitudinal direction. The pads face each other when an intersection of the one contact face and a projection in a transversal direction of the other contact face forms an overlap zone having a surface area. A pad is capable of being transversally shifted in response to a magnetic field between closed and opened positions. In closed position and open positions, the faces and respectively in contact and separated. At least one strip forms pairs of facing pads disposed consecutively along the longitudinal direction. A bridge links two consecutive pads. A cross-section of the bridge is reduced relative to a cross-section of the pads and a surface area of a smallest cross-section of the bridge. | ||||||
| 193 | SWITCH DEVICE AND CONNECTOR | US13541833 | 2012-07-05 | US20130037517A1 | 2013-02-14 | Takashi Yuba; Daiei Iwamoto; SeungSeok Beak; Koichi Kiryu; Akio Nakamura |
| A switch device includes first and second contacting portions including first and second fixed contacting portions, first and second movable contacting portions and first and second break contacting portions, respectively, the first fixed contacting portion and the second fixed contacting portion being configured to be electrically connected to one of a power source and an electronic device while the first movable contacting portion and the second movable contacting portion are configured to be electrically connected to the other of the power source and the electronic device; and a first magnet and a second magnet configured to generate magnetic fields between the first fixed contacting portion and the first movable contacting portion and between the second fixed contacting portion and the second movable contacting portion, respectively. | ||||||
| 194 | CIRCUIT BREAKER WITH ARC EXTINGUISHING MECHANISM | US13345627 | 2012-01-06 | US20120211469A1 | 2012-08-23 | Young Gyu AN |
| A circuit breaker having an arc extinguishing mechanism includes a plurality of grids disposed in a longitudinal direction, each having protruding portions at both ends thereof so as to define a space therebetween, a fixing portion to support the grids, insulating plates fixed to both sides of the grids, a stator located below the grids, the stator including an arc runner and a stationary contact disposed at an upper side of the arc runner, and a mover contactable with or separated from the stationary contact with moving up and down within the space, wherein an interval between the insulating plates within the space is shorter than a width of the mover. | ||||||
| 195 | MAGNETIC CONTACTOR | US13338075 | 2011-12-27 | US20120175344A1 | 2012-07-12 | Hiroyuki TACHIKAWA; Masaru ISOZAKI; Yuji SHIBA |
| A magnetic contactor has a stationary contact including a first and second stationary contact pieces, each having a stationary contact portion and a stationary terminal portion, a third stationary contact piece disposed between the first stationary contact piece and the second stationary contact piece and having two stationary contact portions; a contact support casing supporting the stationary contact with the stationary terminal portions protruding out of the contact support casing; and a movable contact installed in the contact support casing, and including a first and second movable contact pieces contactable and separable from the stationary contact portions of the stationary contact pieces and the stationary contact portions of the third stationary contact piece accordingly, and an insulator fixing the first movable contact piece and the second movable contact piece. A driving mechanism drives the movable contact to contact and separate from the stationary contact. | ||||||
| 196 | Contact device for a high resistive power contactor | US12453300 | 2009-05-06 | US08164013B2 | 2012-04-24 | Patrick Larcher; Julien Guibert; Joël Reboulet |
| A contactor comprises, for each phase, a pair of contact devices which comprise a connection strip and at least two conductors provided with a stationary contact, and a movable contact bridge able to close the two stationary contacts or not. According to the invention, the contact device is formed from superposition of a number of pieces equal to the number of conductors, each piece comprising one of the conductors and a connection part corresponding to the connection strip but of smaller thickness. Each of the pieces can be made from folded metal. The connection parts are coupled to one another to form the connection strip by means of holes at the same time as the sets of bars are secured thereto. | ||||||
| 197 | QUAD BREAK MODULAR CIRCUIT BREAKER INTERRUPTER | US12827689 | 2010-06-30 | US20120000753A1 | 2012-01-05 | Salaheddine Faik |
| An interrupter includes at least four pairs of contacts. Each pair of contacts includes a stationary contact positioned to abut a corresponding moveable contact. The moveable contacts are coupled to a rotating member. The rotating member is coupled to a driving member via a biasing member. The driving member is rotated causing all four pairs of contacts to separate and open a circuit quickly. | ||||||
| 198 | Switch Assembly | US12717868 | 2010-03-04 | US20110315530A1 | 2011-12-29 | Xinsheng Xu |
| A switch assembly provides a pressing plate on a pivot contact lever to minimize heat generation at the point between the pivot contact lever and the contact point by providing an additional parallel connection contact plate which is in parallel connection to the pivot contact lever. The switch assembly provides convex contact portions on the internal output ports of the forward/reverse switch mechanism. A supplementary elastic metal plate to the pivot contact lever is provided to solve the problem of loose contact at the pivot connection site where the pivot contact lever and the support unit meet, and provides a supplementary contact unit to the movable contact device at the forward/reverse switch mechanism. | ||||||
| 199 | Circuit breaker subassembly apparatus | US11768611 | 2007-06-26 | US07800007B2 | 2010-09-21 | Narayansamy Soundararajan; Girish Hassan Mruthunjaya; Yatin Vilas Newase |
| A circuit breaker subassembly is disclosed. The subassembly includes a base, an operating mechanism, a one-piece non-conductive rotor disposed within the base, and a plurality of sets of contact arms supported by the rotor. The rotor is disposed in operable connection with the operating mechanism and includes a rotational degree of freedom relative to the base with portions of the rotor disposed between each set of the plurality of sets of contact arms to define separation portions. The operating mechanism includes a frame disposed within the base, a cradle in pivotal connection with the frame, an upper link in pivotal connection with the cradle, and a lower link having a first end and a second end, the first end in pivotal connection with the upper link and the second end in pivotal connection with the rotor at the separation portions. | ||||||
| 200 | SWITCHING DEVICE WITH A VACUUM INTERRUPTER CHAMBER | US12611548 | 2009-11-03 | US20100108643A1 | 2010-05-06 | Dietmar Gentsch |
| The disclosure relates to a switching device with a vacuum interrupter chamber in which at least one moving contact piece is arranged. To considerably increase the switching rating and the dielectric strength, the disclosure proposes that two series-connected contact arrangements with a total of two contact levels which can be opened are arranged within a vacuum interrupter chamber. | ||||||
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