Class / Patent application number | Description | Number of patent applications / Date published |
218139000 | Housing structure | 31 |
20090095718 | Vacuum Cartridge For An Electrical Protection Apparatus Such As A Switch Or A Circuit Breaker - This cartridge comprises at least three shields comprising one shield called mid-potential shield inserted between the two contacts and at least one shield called partial shield inserted between said mid-potential shield and one of the contacts, the distance between said mid-potential shield and the contacts being selected such that the electric field present at the edge of the contact goes from the contact to the partial shield surrounding it (or vice-versa from the partial shield to the contact depending on the polarity of the voltage). | 04-16-2009 |
20090134125 | SWITCHGEAR AND METHOD OF FABRICATING THE SAME - A switchgear including a vacuum valve which prevents partial discharges infallibly and whose reliability is high, and a method of fabricating the same are obtained. | 05-28-2009 |
20090255905 | MAIN CIRCUIT TERMINAL ASSEMBLY FOR VACUUM CIRCUIT BREAKER - The present invention is to provide a main circuit terminal assembly for a vacuum circuit breaker, which can prevent temperature increase by increasing a surface area of a main circuit conductive unit, the main circuit terminal assembly for a vacuum circuit breaker which is electrically connected to a vacuum interrupter, including: a clamp electrically connected to a movable unit of the vacuum interrupter, and configured as a pair of conductors so as to support the movable unit by clamping; a heat sink fixed to the clamp that increase a surface area of the clamp; a flexible shunt having one end thereof electrically and mechanically connected to the clamp, and configured as a flexible conductor to allow the movable unit to move; a terminal block electrically and mechanically connected to another end of the flexible shunt, and configured as an electrical conductor; and a contactor unit electrically connected to the terminal block and having a plurality of clip-shaped contactors. | 10-15-2009 |
20100038343 | VACUUM SWITCH - A vacuum switch means a unit switch section comprising a pair of vacuum main circuit switches, an earth switch, operating rods for operating movable conductors of the main circuit vacuum switch and earth switch, and a molding case covering the main circuit switch, earth switch and the operating rods, wherein the operating rods are connectable with an operating mechanism, and the fixed conductors of the main circuit switch and earth switch are connected with bushing conductors. The main circuit vacuum switches are disposed in separate vacuum chambers. The movable conductors of the main circuit switches and electrically connected to each other via a transition conductor, and the movable conductors are operated synchronously by means of a transition rod connected to the transition conductor. | 02-18-2010 |
20100181291 | POLE PART OF A MEDIUM-VOLTAGE SWITCHING DEVICE - The present disclosure provides a pole part of a low-voltage, medium-voltage and/or high-voltage switching device. The pole part includes a vacuum interrupter chamber having a fixed contact and a movable contact, which includes an electrical contact piece. The vacuum interrupt chamber is cast into an insulating material. The insulating material has opening at the bottom in at least one of a region of the movable contact and a drive rod driving that drives the movable contact. To reduce the heating of the pole part to enable production of a higher rated current carrying capacity, in the region of the movable contact and/or the articulation point of the drive rod, at least one ventilation opening is formed to pass through at least one of an exterior wall of the insulation, a boundary zone between the insulation and the electrical connection piece, and the electrical connection piece. | 07-22-2010 |
20100243611 | VACUUM INSULATING SWITCH GEAR - A vacuum insulating switch gear formed by integrally molding with epoxy resin of a vacuum double-break three-position type switch including a movable contact, a fixed contact, and a vacuum container composed of an insulating cylinder for covering the movable contact and the fixed contact, a lower lid for closing a lower part of the insulating cylinder, and an upper lid for closing an upper part of the insulating cylinder and an operation rod side of the movable contact, and an earthing switch with a vacuum closed container, comprising
| 09-30-2010 |
20100326960 | Vacuum Interrupter Switch For Power Distribution Systems - A current interrupting switch for power distribution systems comprising an outer case and a plurality of vacuum interrupter bottle switches positioned in the case. | 12-30-2010 |
20110000886 | VACUUM CIRCUIT BREAKER AND GAS-INSULATED SWITCHGEAR USING THE SAME - Provided is a vacuum circuit breaker whose insulation cylinder contained in a gas-insulated-switchgear housing contains a vacuum valve and which can be downsized while the cylinder's required mechanical strength is retained, and a gas-insulated switchgear using the same is also provided. The vacuum circuit breaker includes a plurality of insulation cases that are arranged parallel to each other in a container filled with an insulating gas, and each of the plurality of insulation cases includes a first insulation frame in which a section orthogonal to its longitudinal direction is in a substantial square-bracket shape, a second insulation frame in which a section orthogonal to its longitudinal direction is in a substantial square-bracket shape and which is arranged with a gap from the first insulation frame in a manner that open sides of the substantially square-bracket shaped frames oppose to each other, and a vacuum valve that contains attachable and detachable electrodes and is housed in each of the plurality of insulation cases. | 01-06-2011 |
20110062117 | VACUUM INSULATED SWITCHGEAR - A vacuum insulated switchgear comprising a vacuum container accommodating at least a pair of movable contacts and a pair of fixed contacts, wherein the movable contacts are capable of taking three positions, the switchgear being a double-break three-position type switch having breaking and disconnecting functions. | 03-17-2011 |
20110120976 | POLE PART OF A MEDIUM-VOLTAGE OR HIGH-VOLTAGE SWITCH GEAR ASSEMBLY, AND METHOD FOR ITS PRODUCTION - A pole part of a switchgear assembly having a vacuum interrupter chamber is provided. To ensure that heat is dissipated to the exterior for convection, a thermally conductive heat transmission element in the form of a cylindrical casing is provided between the vacuum interrupter chamber, a contact holder and an encapsulation casing. An inner surface of the heat transmission element rests on the vacuum interrupter chamber and the contact holder, and an outer surface of the heat transmission element rests on an inner surface of the encapsulation casing inner surface. The heat transmission element can be produced from a thermally conductive plastic using an injection-molding or molding-compound production process. The heat transmission element can be connected to the pole part through openings. The heat transmission element can be arranged before the encapsulation of with an encapsulation compound, and be cast in the encapsulation casing. | 05-26-2011 |
20110174780 | SWITCHING INSTALLATION WITH ARC PROTECTION AND ARC PROTECTION METHOD - A switching installation including a gas-filled enclosure, an input conductor, an actuator and a short-circuit device. The actuator is arranged to actuate the short-circuit device upon the occurrence of a first arc in the enclosure. The short-circuit device creates, upon being actuated, a short-circuit through the solid insulation between the input conductor and the enclosure or a separate ground point. The actuator can be arranged to react on an increase in pressure in the enclosure upon the occurrence of the first arc. The gas can be air or SF6. The short-circuit device can create, upon being actuated, the short-circuit through a section of a solid cable insulation isolating the input conductor from the enclosure. | 07-21-2011 |
20110278262 | VACUUM INTERRUPTER - A vacuum interrupter is provided. As a main shield and sub shields are installed in an overlapping manner, an equipotential distribution can be mitigated and thusly a dielectric strength can be enhanced. Also, as a curved portion is formed at each end of the shields, concentration of an electric field at an end of each shield can be prevented and accordingly an electric field value can be lowered. Consequently, the dielectric strength can be remarkably enhanced, resulting in an effective prevention of a dielectric breakdown. | 11-17-2011 |
20120118858 | Bellows For Use In Vacuum Interrupters - An improved bellows for use in a vacuum interrupter includes a plurality of corrugations extending along a central axis, with each convolution including a convolution element and a support element. Each convolution element has a convolution length along the central axis and a convolution height perpendicular to the central axis. In a first embodiment, the convolution height of the various corrugations increases between two ends of the bellows. In an embodiment, the bellows height increases gradually between the two ends, and in another embodiment the convolution height increases in a stepwise fashion. The convolution length can likewise change gradually or stepwise between the ends of the bellows. The convolution height alternatively can remain the same throughout a bellows, but the convolution length may change. | 05-17-2012 |
20130015161 | VACUUM INTERRUPTERAANM Parashar; Rama ShankarAACI StaffordAACO GBAAGP Parashar; Rama Shankar Stafford GB - A vacuum interrupter comprises a tubular bellows ( | 01-17-2013 |
20130048611 | VACUUM INTERRUPTER - A vacuum interrupter includes a vacuum vessel configured with an insulator, a fixed end plate and a movable end plate fixed to both ends of the insulator. A fixed contact and a movable contact face each other inside the vacuum vessel. A movable conductor has one end fixed to the movable contact and the other end is extracted outside the vacuum vessel. A bellows has an accordion portion expanding and contracting with linear movement of the movable conductor. A bellows support member having a cylindrical shape is fixed to the vacuum vessel so that the accordion portion of the bellows contacts the inside of the bellows support member. | 02-28-2013 |
20130062316 | VACUUM INTERRUPTER - A vacuum interrupter includes a housing having two insulating material areas disposed and constructed symmetrically with respect to a center plane. Each of the two insulating material housing areas includes a plurality of insulating material housing parts. The interrupter has a compact construction and high dielectric strength. The insulating material housing part of each insulating material housing area located farthest away from the center plane has a length that is greater than the length of the other insulating material housing parts. | 03-14-2013 |
20130206728 | SOLID-DIELECTRIC SWITCH INCLUDING A MOLDED VIEWING WINDOW - A solid-dielectric switch including a visible disconnect assembly having an open state and a closed state, a molded housing at least partially encasing the visible disconnect assembly, a viewing window molded into the molded housing, wherein the visible disconnect is visible through the viewing window. The invention also provides a method of molding the housing of the solid-dielectric switch. The method includes providing a mold including an external shell and an internal mandrel. The external shell defines external dimensions of a housing of the switch, and the internal mandrel defines internal dimensions of the housing. The method also includes providing a lens for a viewing window, sealing the lens between the external shell and the inner mandrel, and filling the mold with epoxy to mold the viewing window into the housing of the switch. | 08-15-2013 |
20130240485 | Switchgear - The switchgear includes a vacuum circuit breaker that is disposed in a circuit breaker chamber compartmented by a grounded metal plate, a busbar that is disposed in a busbar chamber and connected to the vacuum circuit breaker through a conductor, a cable that is disposed in a cable chamber and connected at one end to a load side, and a grounding device that is operated by a grounding device actuator disposed in a grounding device actuator chamber, connected to the vacuum circuit breaker through a conductor, and connected to the other end of the cable. The busbar is formed by a solid-insulated busbar. The conductor connecting the vacuum circuit breaker to the busbar and the conductor connecting the vacuum circuit breaker to the grounding device are both formed by solid-insulated conductor. The circuit breaker chamber and the grounding device have a sealed structure. | 09-19-2013 |
20140042125 | TANK-TYPE VACUUM CIRCUIT BREAKER - A tank-type vacuum circuit breaker includes: a pressure tank; an insulating frame that is detachably supported by a support member provided in the pressure tank using a coupling; a vacuum interrupter that is supported by the insulating frame and includes a stationary electrode and a moving electrode; a stationary-electrode side terminal that is connectably/disconnectably connected to a bushing-terminal side internal conductor; a moving-electrode side terminal that is connectably/disconnectably connected to a bushing-terminal side internal conductor; and an insulating rod, the inside end of which is detachably coupled to the moving electrode and the outside end of which is coupled to an opening/closing actuation mechanism that opens/closes the contacts of the stationary contact and moving contact. The vacuum interrupter, the stationary-electrode side terminal, the moving-electrode side terminal and the insulating frame are integrated into a unit, and the unit can be removed and mounted by disconnecting the connections and the couplings. | 02-13-2014 |
20140166622 | TANK-TYPE CIRCUIT BREAKER - Capacitors ( | 06-19-2014 |
20140291293 | VACUUM CHAMBER WITH A ONE-PIECE METALLIC COVER FOR SELF-CENTERING - The disclosure relates to a vacuum chamber including at least one ceramic isolating cylinder with two face ends. At least one of the two face ends of the ceramic isolating cylinder is closed by a metallic cover including an outer and an inner part. A distal end of the outer part of the metallic cover is thinner relative to the remainder of the outer part of the metallic cover and forms a metallic lid. The metallic lid is connected to at least one of the two face ends of the ceramic isolating cylinder in a vacuum tight manner. The metallic cover can be formed in one piece and fits with the inner part of the metallic cover at an inner girthed area of the ceramic isolating cylinder to realize a self-centering of the metallic lid to at least one of the two face ends of the ceramic isolating cylinder. | 10-02-2014 |
20140339195 | VACUUM INTERRUPTER WITH TRANSITION AREAS BETWEEN METAL HOUSING PARTS AND CERAMIC HOUSING PARTS COVERED BY INSULATING MATERIAL - A vacuum interrupter is disclosed with transition areas between metal housing parts and ceramic housing parts covered by insulating material. To enhance dielectric performance and field grading behaviour, the insulating material can extend as a tube or a multilayer tube design over at least nearly a complete length of the vacuum interrupter or vacuum device arrangement. The insulating material can be filled or at least covered at an inner surface which comes into close contact with the vacuum interrupter or vacuum device surface, with metal and/or conductive metal oxides. | 11-20-2014 |
20140367363 | High Current Vacuum Interrupter With Sectional Electrode and Multi Heat Pipes - An electrode assembly for a circuit breaker is provided. The electrode assembly includes a conductive assembly and a heat transfer assembly. The conductive assembly includes a stem portion and a contact portion. The heat transfer assembly includes a number of elongated bodies, a first heat transfer surface, and a second heat transfer surface. The first heat transfer surface is disposed on the conductive assembly. Each heat transfer assembly body includes a second heat transfer surface. Each heat transfer assembly body is coupled to the conductive assembly with the first heat transfer surface coupled to a number of second heat transfer surfaces. | 12-18-2014 |
20140374383 | TANK-TYPE VACUUM CIRCUIT BREAKER - According to one embodiment, a tank-type vacuum circuit breaker includes a tank, a vacuum valve provided in the tank, an insulating layer provided on an outer circumference of the vacuum valve, having a fixed side interface connecting portion and a movable side interface connecting portion, a grounding layer provided on an outer circumference of the insulating layer, a fixed side bushing having an interface connecting portion connected to the fixed side interface connecting portion, a fixed side porcelain tube to house the fixed side bushing, a movable side bushing having an interface connecting portion connected to the movable side interface connecting portion, a movable side porcelain tube to house the movable side bushing, and insulation gas filled in the tank, at an approximately atmospheric pressure. | 12-25-2014 |
20150041437 | VACUUM BULB, CIRCUIT-BREAKER POLE INCLUDING SUCH A VACUUM BULB, AND METHOD TO MANUFACTURE SUCH DEVICES - The invention relates to a vacuum bulb ( | 02-12-2015 |
20160071671 | SOLID-DIELECTRIC SWITCH INCLUDING A MOLDED VIEWING WINDOW - A solid-dielectric switch includes a visible disconnect assembly having an open state and a closed state. A molded housing at least partially encases the visible disconnect assembly. At least a portion of the molded housing forms a molded one-piece wall having an inner surface and an outer surface. An aperture in the molded one-piece wall extends between the inner surface and the outer surface of the wall. A viewing window is disposed in the aperture and molded into the molded wall. The viewing window includes a lens, wherein the viewing window has an outer edge that is embedded within the molded one-piece wall with the outer edge extending into the molded one-piece wall between the inner surface and the outer surface of the molded one-piece wall. | 03-10-2016 |
20160126037 | Medium or High Voltage Switch Bushing - A medium or high voltage switch is provided. The medium or high voltage switch includes a bottle assembly and a bushing. The bottle assembly includes a bottle formed of a first material and defining a chamber. The bottle assembly further includes a plurality of contacts for selectively opening and closing an electrical circuit, the plurality of contacts disposed within the chamber. The bushing is formed of a second material and defines a cavity configured to receive the bottle assembly. The bottle assembly and the bushing have an interference fit. | 05-05-2016 |
20160133405 | SEALED RELAY - Conventional example is arranged simply to turn a circuit on/off, and not to changeover connection. | 05-12-2016 |
20160163484 | VACUUM ASSISTED ELECTRICAL DISCONNECT WITH DYNAMIC SHIELD - An electrical disconnect includes a housing having a recess defined therein extending from an opening toward a base. The disconnect also includes a vacuum envelope defined within the housing near the base; a fixed contact assembly including a fixed contact structured to be in electrical communication with a voltage source disposed partially within the vacuum envelope; and a movable contact assembly including a movable contact having a first end disposed within the vacuum envelope and a second end disposed in the recess near the base and movable between a closed position in electrical contact with the fixed contact and an open position spaced apart from the fixed contact a separation distance. The housing includes a dynamic shield electrically connected to the movable contact, the dynamic shield being disposed about the recess within the housing and extending from the base toward the opening thereof. | 06-09-2016 |
20160181027 | METHOD FOR PRODUCING CIRCUIT-BREAKER POLE PARTS | 06-23-2016 |
20160184913 | METHOD OF MANUFACTURE OF A CERAMIC METALLIZATION FOR CERAMIC METAL TRANSITION, AND CERAMIC METAL TRANSITION ITSELF - A method of manufacture of a ceramic metallization for ceramic metal transition, and ceramic metal transition itself, for the use in low, medium and high-voltage techniques, which may avoid a brazing foil, and/or overcome problems with the use of thin brazing foils, and/or to make the manufacture easier, but also more effective, wherein, on top of the Ni-layer will be placed an Ag-layer as a third layer, and then the metal part will be laid on top and connected by brazing or tempering. | 06-30-2016 |