Class / Patent application number | Description | Number of patent applications / Date published |
218022000 | Magnetic blowout | 61 |
20090127229 | SWITCHING DEVICE FOR DIRECT-CURRENT APPLICATIONS - A switching device for direct-current applications includes a housing having a first wall and a second wall, a plurality of receiving areas for respective mutually substantially parallel current paths disposed in the housing. Each of the current paths has a respective stationary switching contact element and a respective movable switching contact element, the movable switching element being actuatable into a closed position and into an open position so as to form a respective air break, the respective movable switching contact elements being actuatable simultaneously. The switching device includes a plurality of arc-quenching devices associated with the current paths and disposed next to each other, and at least one magnet. The at least one magnet is configured to generate a magnetic field so as to generate a deflection force on the arcs so as to deflect the respective arcs toward at least one of the respective arc-quenching devices. | 05-21-2009 |
20100288732 | ELECTRIC SWITCHING ARRANGEMENT AND MOUNTING METHOD - The invention relates to an electrical switching arrangement which is arranged in a switching chamber, comprising at least one contact arrangement comprising a moving contact and a fixed contact, with the fixed contact being formed on a fixed contact mount ( | 11-18-2010 |
20120037598 | CIRCUIT INTERRUPTER WITH ENHANCED ARC QUENCHING CAPABILITIES - A circuit interrupter has a first contact, a second contact movable with respect to the first contact, an arcing chamber, and an arc splitter. The arc splitter is located on a first side of the first contact, as is an arc runner. An electrical conductor is connected to the arc runner having a first portion running from the first side of the first contact towards a second side of the first contact, the second side being opposite the first side with respect to the first contact. A second portion is connected to the first portion and the second contact; the second portion is located on the second side of the first contact. A current running through the arc runner and the electrical conductor generates a magnetic force on the arc moving the arc toward the arc splitter. | 02-16-2012 |
20120181254 | WINDING FOR A CONTACT OF A MEDIUM-VOLTAGE VACUUM CIRCUIT-BREAKER WITH IMPROVED ARC EXTINCTION, AND AN ASSOCIATED CIRCUIT-BREAKER AND VACUUM CIRCUIT-BREAKER, SUCH AS AN AC GENERATOR DISCONNECTOR CIRCUIT-BREAKER - A design for a winding is based on a material of low electrical resistance, such as copper, and of a diameter typically greater than 90 mm, intended to generate a magnetic field in an electrical contact for a medium voltage vacuum circuit-breaker. The winding includes a hollow cylinder including helical slots that are empty of material, arranged in parallel around its longitudinal axis, and that open out both to the hollow and to the outside of the cylinder. The angular length of each helical slot is equal to at least 360°. The design makes it possible to increase the level of the axial magnetic field (AMF) obtained by the winding(s) incorporated into an electrical contact of a vacuum circuit-breaker while improving uniformity, symmetry of the field, and production cost. | 07-19-2012 |
20130062313 | GAS CIRCUIT BREAKER - The disclosure relates to a gas circuit breaker switch ( | 03-14-2013 |
20140166620 | POLARITY INDEPENDENT SWITCHING DEVICE FOR CARRYING AND DISCONNECTING DIRECT CURRENT - A polarity-independent switching device for carrying and disconnecting high DC currents has a gastight, encapsulated, electrically insulating housing which can be filled with an insulating gas, and at least one pair of contacts disposed in the housing and made up of a fixed contact and a mobile contact. The two contacts are in contact with each other in a switched-on state of the switching device and are not in contact in a switch-off state of the switching device. An arc driver arrangement is included which generates a magnetic field at least in the region of the pair of contacts, as well as a first arc routing arrangement with which an arc produced between the contacts is guided in a first current direction to a quenching area arranged at a distance from the contacts. | 06-19-2014 |
20150318129 | Switching device - A switching device includes a contact system having a movable contact to be moved along a movement direction, a stationary contact and an improved arc quenching device with a configuration for generating a magnetic field formed in a plane perpendicular to the movement direction and an electrode configuration having a first electrode conductively connected to the movable contact and a second electrode conductively connected to the stationary contact. The first electrode and the second electrode are disposed in such a way that an electric field can be generated between the first electrode and the second electrode perpendicularly to the direction of movement and perpendicularly to the magnetic field. | 11-05-2015 |
20160012990 | CURRENT LIMITED ELECTRICAL DEVICES, ELECTRICAL DEVICE CONTACT ASSEMBLIES, AND OPERATIONAL METHODS | 01-14-2016 |
20160126035 | HYBRID CUTOFF MEMBER FOR AN ELECTRIC CIRCUIT - A hybrid interrupter member for an electrical circuit, the interrupter member including a static interrupter component and an electromechanical interrupter component. The static component is mounted on a support carrying electrical contacts for the static component, the support being configured, on receiving a command to interrupt, to move in such a manner as to withdraw at least one of the electrical contacts from its respective pin, thereby forming the electromechanical interrupter component. | 05-05-2016 |
218023000 | Permanent magnet | 42 |
20080197113 | Electromechanical Circuit Breaker and Method of Breaking the Current in Said Electromechanical Circuit Breaker - The electromechanical circuit breaker is intended to establish and break the current in a main circuit ( | 08-21-2008 |
20080290068 | Arc chute and circuit breaker equipped with one such arc chute - An arc chute comprising an arc extinguishing chamber formed by a stack of deionizing plates and an arc formation chamber bounded by a first and second flange, said arc chute being equipped with permanent magnets arranged behind at least the first flange, in which the arc formation chamber comprises:
| 11-27-2008 |
20090114622 | HERMETICALLY SEALED RELAY - A hermetically sealed relay is provided having two circuits therein. | 05-07-2009 |
20090120908 | Arc chute and circuit breaker equipped with one such arc chute - An arc chute comprising:
| 05-14-2009 |
20110068088 | USE OF AN ELECTRICAL CONTACT MATERIAL FOR BLOWING AN ELECTRIC ARC - Method of using a material including a conductive metal matrix and magnetic entities representing between 8 and 80% by weight of the material and including hard magnetic phases, the magnetic entities being non-magnetized but capable of being magnetized in an average orientation defined by the direction of a magnetic field applied to the material, in order to blow an electric arc between two electrical contact pads, at least one of which includes the material. | 03-24-2011 |
20120261382 | Arc Runner With Integrated Current Path That Develops A Magnetic Field To Boost Arc Movement Towards Splitter Plates - A circuit interrupter for cooling and quenching an electrical arc having a housing with a first contact and a second contact movable with respect to the first contact. An arc splitter is located in an arcing chamber, and an arc runner is located near the second contact. The arc runner has an arc strap facing toward the first contact, a first wall shaped as a rectangular spiral perpendicularly extending from the arc strap, a second wall shaped as a rectangular spiral perpendicularly extending from to the arc strap and opposite the first wall. The arc runner generates a magnetic force on the arc forcing the arc toward the arc splitter. | 10-18-2012 |
20130037517 | SWITCH DEVICE AND CONNECTOR - 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. | 02-14-2013 |
20130112655 | ELECTRICAL SWITCHING APPARATUS INCLUDING MAGNET ASSEMBLY AND FIRST AND SECOND ARC CHAMBERS - An electrical switching apparatus includes two arc runners, two contacts in electrical communication with the respective runners, a movable contact having two portions respectively cooperating with the contacts to provide closed and open contact positions, and two arc chambers each including two ends, a longitudinal axis therebetween, and arc plates between the ends. A magnet assembly cooperates with the arc chambers to establish a generally unidirectional magnetic field normal to the axes, normal to a first direction of a first arc between one contact and the first portion as it moves away from the closed toward the open contact position, and normal to an opposite second direction of a second arc between the other contact and the second portion as it moves away from the closed toward the open contact position. The magnetic field causes one arc to enter one arc chamber depending upon current flow direction between the contacts. | 05-09-2013 |
20130228551 | ARC CHUTELESS DC CURRENT INTERRUPTOR - A system comprising a circuit interrupter configured to interrupt flow of current through a circuit during an over current condition, wherein the circuit interrupter comprises two contacts configured to remain in contact when a current flowing through the two contacts is less than a threshold value, a tripping mechanism configured to separate the two contacts when the current equals or exceeds the threshold value, and at least one of either a permanent magnet or an electrode configured to extinguish an electric arc formed between the two contacts of the circuit interrupter when the two contacts are separated, wherein the circuit interrupter does not include an arc chute. | 09-05-2013 |
20130313228 | SWITCH WITH QUENCHING CHAMBER - A switch for polarity-independent direct current operation includes fixed contacts, each including a first contact area. A movable bridge contact with second contact areas is configured to form an electrically conducting connection between the contact areas in an ON state and to separate the contact areas in an OFF state. A magnetic field exerts a magnetic force on an arc occurring between the contact areas when the OFF state is generated. Quenching chambers are provided to quench arcs with a first current direction. A first arc deflector plate extends from each of the quenching chambers toward the first contact area and a second arc deflector plate extends toward the second contact area for removing the arc into the quenching chambers. Each movable bridge contact includes two bridge plates which extend around each of the first contact areas so as to quench arcs in a second direction. | 11-28-2013 |
20140175056 | SWITCHING DEVICE SUITABLE FOR DIRECT CURRENT OPERATION - 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. | 06-26-2014 |
20140319099 | SWITCHING DEVICE FOR DIRECT CURRENT APPLICATIONS - A switching device for direct current applications having a first switching chamber for a first current path and a second switching chamber for a second current path, each current path having a switching contact arrangement having a first and second contact, wherein both the contacts, switched-on, come into contact with each other and, switched-off, are kept out of contact with each other by the creation of an isolation gap; a current path having an extinguishing device to extinguish an arc created between the contacts; an arc driver arrangement, arranged in one of the two switching chambers, and which creates a magnetic field at least in the area of the switching contact arrangement for the relevant current path that drives the arc into the relevant extinguishing device. | 10-30-2014 |
20140353280 | SWITCH APPARATUS FOR CONNECTION WITH A DC CIRCUIT - 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. | 12-04-2014 |
20150027983 | ELECTRIC CURRENT SWITCHING APPARATUS - An electric switch includes a movable contact, a stationary contact to be contacted by the movable contact, one or more quenching plates, and a permanent magnet for directing an arc, which is formed when the contacts are separated from each other, to the quenching plate. The quenching plate has a base portion and side portions extending away from the base portion. The permanent magnet is arranged such that the arc is directed towards one of the side portions of the quenching plate. | 01-29-2015 |
20160056000 | SWITCH APPARATUS FOR CONNECTION WITH A DC CIRCUIT - 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. | 02-25-2016 |
218024000 | Magnetic yoke structure | 2 |
20140360982 | SWITCHING DEVICE WHICH IS SUITABLE FOR DC OPERATION - A switching device suitable for DC operation includes at least one pair of contacts having a first contact and a second contact, wherein at least one of the two contacts is mobile and the two contacts are in contact with one another in a switched-on state of the switching device and are not in contact with one another in a switched-off state of the switching device, further having an arc driver arrangement for generating a magnetic field and an arc guiding arrangement for guiding an arc, which is produced between the contacts, to a quenching device. The problem of quenching arcs independently of the current direction in just one individual quenching apparatus in each case is solved with a substantially homogeneous magnetic field which is generated by permanent magnets. | 12-11-2014 |
20160071670 | Arrangement For An Electrical Switch Element and Switch Element - An electrical contact switch chamber is disclosed. The electrical contact switch chamber includes two contacts, a wall having a base and sides surrounding the two contacts, and at least one insulation slot having an opening extending transversely relative to a direction between the contacts. The at least one insulation slot is disposed along a portion of the wall between the two contacts. | 03-10-2016 |
218026000 | Located inside switch housing | 22 |
20080296264 | Electrical service switching device with an arc blowout device - The disclosure relates to an electrical service switching device, in particular a circuit breaker, motor circuit breaker or the like, having a housing which has two housing halves and connecting means for electrical connection to busbars and/or power lines, having at least one electrical switching contact on which an arc is struck in an initial arcing chamber on disconnection of the electrical contact, with an arc quenching unit being provided adjacent to this, in order to quench the arc. An AC blowout device which comprises two iron plates adjacent to the initial chamber area in the lateral direction and guides the arc into the arc quenching device by magnetic interaction during AC operation, is provided. The housing wall has an opening in the area of the iron plates, through which a permanent magnet can be inserted in order to create an AC/DC blowout device, which guides the arc into the arc quenching device in both AC and DC operation, when the housing is assembled. | 12-04-2008 |
20110240603 | CONTACT BRIDGE WITH BLOW MAGNETS - The present invention relates to contactors for unidirectional DC operation with permanent magnetic arc extinguishing. In addition to the blow magnets, the contactors are equipped with compensatory permanent magnets for compensating the magnetic field in the vicinity of the contact bridge in order to prevent contact levitation, i.e., an uncontrolled opening of the contacts that is due to a magnetic force generated by a strong current flowing through the contact bridge. To this end, the compensatory permanent magnets are arranged in the vicinity of the contact bridge and polarized in the opposite direction of the blow magnets. The magnetic field of the compensatory magnets and the current flowing through the contact bridge are generating a magnetic force that acts on the contact bridge and tends to keep the electrical contacts closed. | 10-06-2011 |
20120061352 | GAS-INSULATED SWITCHGEAR - A gas-insulated switchgear includes a fixed-side electrode having a tubular fixed-side-conducting contact and a fixed-side shield for housing the fixed-side-conducting contact, and a movable-side electrode having a movable conductor driven by a driving unit to be connected to and separated from the fixed-side-conducting contact, facing each other in a container filled with an insulating gas. The switchgear includes a fixed-side-arc shield in the form of a circular plate, which is made of an arc-resistant member and has an opening of a diameter larger than the outer diameter of the movable conductor, the opening being formed on the side of the fixed-side shield facing the movable-side electrode. The fixed-side-arc shield is formed into a thin plate so as to cause an arc current to flow outward in a radial direction during contact parting of the fixed-side-conducting contact and the movable conductor to generate magnetic flux on a surface thereof in a circumferential direction. | 03-15-2012 |
20120175344 | MAGNETIC CONTACTOR - 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. | 07-12-2012 |
20120175345 | ELECTROMAGNETIC CONTRACTOR - An electromagnetic contactor includes a first stationary contact having a stationary contact portion and a stationary terminal portion for connecting to a power supply; a second stationary contact having a stationary contact portion and a stationary terminal section for connecting to a load; a stationary-contact supporting case supporting the stationary terminal portions of the first and second stationary contacts to protrude the contact support casing, and maintaining a predetermined distance in between; a moving-contact portion contactable to and separable from the stationary contact portion of the first and second stationary contact and arranged in the stationary-contact supporting case; and a pair of arc-extinguishing magnets arranged in parallel to sandwich the moving-contact portion in the longitudinal direction and having same magnetic polarity at opposing magnetic pole surfaces. A driving mechanism drives the moving-contact portion contactable to and separable from the stationary contact portions of the first and second stationary contacts. | 07-12-2012 |
20130037518 | SWITCH DEVICE AND CONNECTOR - A switch device includes first and second contacting portions including first and second fixed contacting portions and first and second movable contacting portions configured to contact the first and second fixed contacting portions, respectively and provided to be adjacent from each other; and a magnet unit provided such that a first pole is positioned to face the first contacting portion and a second pole is positioned to face the second contacting portion 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. | 02-14-2013 |
20130105444 | Arc Extinction Apparatus and DC Switch Apparatus | 05-02-2013 |
20130112656 | MAGNET ARRANGEMENT FOR A LOW-VOLTAGE CIRCUIT-BREAKER - An exemplary magnet arrangement improves the running characteristics of a switching arc generated upon the interruption of a current circuit in a pre-chamber of a low-voltage circuit-breaker, in which the switching arc is directed between two electric arc running rails. The exemplary arrangement includes an open magnetic circuit having a magnetic material and at least one permanent magnet that delivers magnetic flux to the magnetic circuit, with magnetic induction generated in a vicinity of the pre-chamber acting upon the switching arc. The magnetic material can be configured as a U-section sheet metal plate which extends along the length of the pre-chamber and includes a material recess which extends through this pre-chamber metal sheet and is arranged to contain the at least one permanent magnet. The exemplary arrangement is of a simple construction and permits adjustment of magnetic induction acting in the pre-chamber of the low-voltage circuit-breaker. | 05-09-2013 |
20130153538 | ARC EXTINGUISHING APPARATUS FOR RING MAIN UNIT - An arc extinguishing apparatus for a ring main unit includes: a housing; a plurality of fixed contactor assemblies fixed to be protruded toward the center in the housing and formed by inserting a permanent magnet for arc extinguishing by a magnetic force between a pair of main circuit fixed contacts; a plurality of earthing fixed contactors fixed to be protruded toward the center in the housing and installed to be spaced apart from the fixed contactor assemblies at a predetermined angle; a 3-phases common rotational shaft installed to be rotatable at the center of the housing; and a rotatable movable contactor assembly having a plurality of puffer guide plate sections having openings with a narrow opening width to accelerate the velocity of flow of insulating gas to extinguish arc by blowing it, and rotatable to a circuit closing position, an earthing position, and a circuit opening position. | 06-20-2013 |
20130228552 | ELECTROMAGNETIC CONTACTOR - An electromagnetic contactor has a contact device having a contact housing case housing a pair of fixed contacts and a movable contact disposed to be capable of contacting to and separating from the pair of fixed contacts, and an insulating cylinder in a bottomed tubular shape disposed on an inner peripheral surface of the contact housing case to enclose the pair of fixed contacts and the movable contact. The insulating cylinder positions an arc extinguishing permanent magnet for extinguishing an arc generated between the pair of fixed contacts and the movable contact. A magnet housing portion to protect the arc extinguishing permanent magnet from the arc is formed on an inner peripheral surface of the insulating cylinder and faces a side surface of the movable contact. An arc extinguishing space is formed on an outer side of the magnet housing portion in an extending direction of the movable contact. | 09-05-2013 |
20130284702 | CIRCUIT BREAKER - A circuit breaker includes a fixed contact having a fixed contact point; a movable contact having a movable contact point contacting with the fixed contact point; and an arc extinguishing device housed in a main body case. In the arc extinguishing device, a plurality of magnetic grids, each having a pair of grid leg portions, is disposed in layer form, and an arc generated between the fixed contact point and the movable contact point at a time of an opening operation is drawn into the magnetic grids and extinguished. A magnetic flux is generated between the pairs of grid leg portions configuring the arc extinguishing device in a direction perpendicular to the arc generated between the fixed contact point and the movable contact point, and permanent magnets and a permanent magnet holding member are disposed therein. | 10-31-2013 |
20140061160 | SINGLE DIRECT CURRENT ARC CHUTE, AND BI-DIRECTIONAL DIRECT CURRENT ELECTRICAL SWITCHING APPARATUS EMPLOYING THE SAME - A direct current arc chute includes a ferromagnetic base having first and second ends; first and second ferromagnetic side members disposed from the respective first and second ends; a third ferromagnetic member disposed from the base intermediate the side members and having an end portion opposite the base; and first and second magnets on the respective first and second members have a magnetic polarity facing the third member. A first arc chamber is between the first and third members; and a second arc chamber is between the second and third members. The first magnet and first member extend away from the first end and beyond the end portion, and toward the second magnet and second member after the end portion. The second magnet and second member extend away from the second end and beyond the end portion, and toward the first magnet and first member after the end portion. | 03-06-2014 |
20140061161 | CONDUCTION BREAKING DEVICE - A conduction breaking device includes a conductive body arranged between a pair of devices in an electric circuit, a gas generator, which is arranged away from the conductive body and generates gas, and a cutting member, which is arranged between the conductive body and the gas generator. The cutting member is moved due to gas from the gas generator to cut the conductive body, divides the conductive body into a first cut piece and a second cut piece, which have cut ends separated from each other, and breaks the conduction between the devices. The conduction breaking device includes an arc-extinguishing chamber. In the arc-extinguishing chamber, the conductive body is cut by the cutting member and an arc occurring between the cut end of the first cut piece and the cut end of the second cut piece is extinguished. | 03-06-2014 |
20140151337 | ELECTROMAGNETIC RELAY - An electromagnetic relay which is improved in arc blocking performance without being increased in size is desired. An electromagnetic relay according to the present invention is provided with a fixed contact, a moving contact which is movable respect to the fixed contact, a pair of magnets which is arranged at the side of the fixed contact and the moving contact so that pole faces with mutually reversed polarity are separated from and face each other and a pair of arc cooling plates which is arranged in a spaces between the magnets and which has first surfaces which face each other across a gap and second surfaces which face a pole face of either of the magnets, respectively. | 06-05-2014 |
20140151338 | CONTACTOR FOR DC OPERATION - A contactor for DC operation includes a first and a second contact that are fixed contacts and a contact bridge that has a third and a fourth contact. The contact bridge, in a closed position, provides a tactile contact between a first contact pair, which comprises the first and the third contact, and between a second contact pair, which comprises the second and the fourth contact. The contact bridge is movable via a guide along a direction of movement. A magnet arrangement is configured to generate an electromagnetic force on an electric arc, which arises on opening the contacts. The contact bridge has at least one recess, which is arranged between the guide and the third contact. The recess is configured to provide an opening at the contact bridge through which the arc, generated at the third contact, is deflected in the direction of movement of the contact bridge. | 06-05-2014 |
20140175057 | SWITCHING DEVICE - A switching device having at least one contact pair includes a first contact and a second contact, where at least the second contact is movable relative to the first contact. There is an extinguishing device with at least one extinguishing chamber for extinguishing an arc produced between the contacts, a first guide rail arrangement for guiding the arc with one direction of current and a second guide rail arrangement for guiding the arc with the second direction of current in said extinguishing chamber. Both guide rail arrangements have a first guide rail and a second guide rail, where both first guide rails starting from the first contact run in the opposite direction, and both second guide rails starting from the second contact run in the opposite direction. The first guide rails are connected with each other in an electrically conductive arrangement in the form of a closed loop. | 06-26-2014 |
20140246403 | SWITCHING SYSTEM - A switching system has two contact points and a contact link disposed so at be rotatably movable about an axis of rotation of the contact link between the two contact points. The switching system further has at least one quenching chamber and a magnetic element for producing a magnetic field being parallel to the axis of rotation of the contact link, for driving an arc produced when the contact points are open into the quenching chamber. | 09-04-2014 |
20140263186 | SWITCH FOR DIRECT CURRENT OPERATION HAVING AT LEAST ONE CIRCUIT BREAKER CHAMBER - A switch for, in particular, direct current operation, having at least one circuit breaker chamber, each circuit breaker chamber having two contact pieces having respectively a first contact area, an electrically conductive bridge circuit which can be moved with a contact bridge and which has two second contact regions for establishing an electrically conductive connection between the first and the second contact regions and for separating at least one of the two contact regions from the respective first contact region, in addition to at least two magnets for generating a magnetic field, and an additional magnet for influencing the magnetic field is arranged on the moveable contact bridge. | 09-18-2014 |
20140284310 | SWITCH FOR DIRECT CURRENT OPERATION HAVING AT LEAST ONE CIRCUIT BREAKER CHAMBER - A switch for, in particular, direct current operation, having at least one circuit breaker chamber, each circuit breaker chamber having two contact pieces having respectively a first contact area, an electrically conductive bridge circuit which can be moved by means of a contact bridge and which has two contact regions for establishing an electrically conductive connection between the first and second contact regions and for separating at least one of the two contact regions from the respective first contact region, in addition to at least two magnets for generating a magnetic field. | 09-25-2014 |
20140346144 | ELECTRICAL SWITCHING DEVICE, NOTABLY FOR DIRECT CURRENT, EQUIPPED WITH A MAGNETIC MODULE FOR BLOWING THE ELECTRIC ARC - An electrical switching device ( | 11-27-2014 |
20150027984 | ELECTRIC CURRENT SWITCHING APPARATUS - An arc quenching plate for an electric switch includes a first mounting portion and a second mounting portion for mounting the quenching plate to respective recesses of the switch. The first mounting portion and the second mounting portion have a different form when compared to each other. | 01-29-2015 |
20160079017 | ARC CONTROL FOR CONTACTOR ASSEMBLY - A contactor or switch assembly adapted for switching power to a circuit. The housing has internal walls that laterally extend within the interior compartment to define a protection chamber. Current carrying contacts are disposed in the protection chamber of the housing. The current carrying contacts include conductive bodies that protrude from the housing and are configured to close the circuit. Arc dissipation areas are provided in the protection chamber and are located proximate to the current carrying contacts. Magnets are provided proximate ends of the dissipation areas. The magnets create magnetic flux or a magnetic field that extends across the current carrying contacts. The magnetic flux directs electric arcs radiating from one or more of the current carrying contacts into the arc dissipation areas, thereby increasing the effective distance that the electric arcs travel wherein the electric arcs are dissipated in the dissipation areas. | 03-17-2016 |
218027000 | Connected to contact | 3 |
20120067849 | ELECTROMECHANICAL CIRCUIT BREAKER - An electromechanical circuit breaker for establishing and breaking the current in a main circuit includes a fixed contact element and a moving contact element, which in a first position are in electrical contact with each other for carrying the current of the main circuit, the moving contact element being adapted to be displaced to a second position in which it is separated from the fixed contact element so that the current in the main circuit is cut off. The circuit breaker is provided with a blow-out device including a magnetizing coil traversed by a magnetizing current for producing a magnetic field adapted to drive an arc generated by the separation of the two contact elements into an arc extinction element. | 03-22-2012 |
20150014278 | CURRENT SWITCH - A current switch includes a blade-shaped movable contact that extends in a radial direction from a rotation center, and that reciprocates such that a free end of the movable contact draws a rotation locus, a fixed contact that includes a plurality of pairs of energizing contacts that come into and out of contact with the movable contact, a movable arcing contact that is provided on the movable contact, fixed arcing contacts that are provided on a pair of energizing contacts, and a pair of permanent magnets that are arranged within the pair of energizing contacts adjacent to the fixed arcing contacts. | 01-15-2015 |
20160049268 | Switchgear - Magnetic force of a permanent magnet can be converted into arc driving force efficiently, and the permanent magnet can be insulated from arc heat so as to suppress magnetic deterioration, whereby breaking performance can be secured over a long period of time. In order to solve the above-described problems, the switchgear of the present invention includes: a fixed side contactor that is provided to a fixed side conductor; a moving contact that can be driven reciprocally with respect to the fixed side contactor, the moving contact being supported by a movable side conductor via a movable side contactor, the moving contact performing opening and closing operation by contacting to and separating from the fixed side contactor; and a permanent magnet generating a magnetic field on an arc to extinguish the arc through the opening operation, the arc being generated between the fixed side contactor and the moving contact, and the permanent magnet is provided on a tip portion of the fixed side conductor to be positioned closer to the movable side contactor side than the fixed side contactor, and the permanent magnet is covered with an insulating member. | 02-18-2016 |
218029000 | Arc Spinner | 1 |
20110042354 | MAGNET INTERRUPTER FOR HIGH VOLTAGE SWITCHING - A magnetic interrupter consisting of a stationary and moving butt contacts that open an electric circuit in dielectric gas (e.g., SF | 02-24-2011 |
218030000 | Contact structure | 2 |
20110073566 | WINDING FOR A CONTACT OF A MEDIUM-VOLTAGE VACUUM CIRCUIT-BREAKER WITH IMPROVED ENDURANCE, AND AN ASSOCIATED CIRCUIT-BREAKER OR VACUUM CIRCUIT-BREAKER, SUCH AS AN AC GENERATOR DISCONNECTOR CIRCUIT-BREAKER - A copper-based winding implementing a copper-based winding of diameter that is typically greater than 90 mm, designed to generate a magnetic field in an electrical contact for a medium-voltage vacuum circuit-breaker. The winding is constituted by a hollow cylinder including helical slots about its longitudinal axis and opening out both into the hollow and to the exterior of the cylinder, winding in which the space between two consecutive slots that form a turn is empty of material and the width of each initial slot is less than 1 mm. | 03-31-2011 |
218032000 | Pivot | 1 |
20150041436 | ELECTRICAL CONTACT APPARATUS, CIRCUIT BREAKERS, AND ELECTRICAL CONTACT ASSEMBLIES INCLUDING CAM LEVER, AND METHODS OF OPERATION - A contact apparatus of a circuit breaker is disclosed. The contact apparatus has an outer carrier, an inner carrier, one or more contact fingers pivotally mounted to the inner carrier, a cam lever pivotally mounted to the outer carrier, and a cam and cam profile formed on respective ones of the cam lever and inner carrier. Circuit breakers and electrical contact assemblies having the contact apparatus, and methods of operating the contact apparatus and electrical contact assemblies are disclosed, as are other aspects. | 02-12-2015 |
218034000 | Arc chute | 4 |
20090314746 | ARC-QUENCHING CORE ASSEMBLY - An arc-quenching core assembly is disclosed for an electric switch, such as a circuit-breaker or motor circuit-breaker, having arc-quenching plates, or sheets, arranged in parallel and including ferromagnetic material, wherein the sheets can be at least partially coated on at least one face with another material. The arc-quenching core assembly is composed of a series of first quenching sheets, completely or partially coated on both faces and second uncoated quenching sheets, or of a series of third quenching sheets, completely or partially coated on one face and uncoated on the other, thus creating a series of coated and uncoated arc-quenching sheet broad faces in the stacking direction. The arc-quenching sheets are arranged one behind the other in the stacking direction in such a way that at least two uncoated arc-quenching sheet broad faces are located between a coated arc-quenching sheet broad face and a next coated arc-quenching sheet broad face in the stacking direction. | 12-24-2009 |
20130075367 | DC Switching Device - A DC switching device including a plurality of arc-extinguishing chambers and a plurality of contacting units conductively connected in series to each other, each of the contacting units including a stationary contact and a movable contact movable between a rest position and a working position, an air gap is formed between the contacts when the movable contact is moved from the working position to the rest position and each of the chambers enclosing a contacting unit and including a splitter plate unit including one or more splitter plates arranged for splitting and cooling an arc occurring in the air gap between the contacts. The chambers include a permanent magnet for generating a magnetic field between the contacting unit and the splitter plate unit and the splitter plates are made of non-ferromagnetic material, and the splitter plates of the chambers are made of ferromagnetic material. | 03-28-2013 |
218036000 | Arc runner (e.g., arc horn) | 1 |
20150129548 | SWITCHING DEVICE WHICH IS SUITABLE FOR DC OPERATION - A switching device suitable for DC operation includes at least a pair of contacts having a first and second contact, wherein at least one of the two contacts is mobile and the two contacts are in contact with one another in a switched-on state and are not in contact with one another in a switched-off state, having an arc driver arrangement which generates a magnetic field at least in the region of the pair of contacts, and comprising a first arc guiding arrangement by which an arc which is produced between the contacts is guided in a first current direction to a quenching device for quenching the arc, wherein a second arc guiding arrangement is provided, by means of which an arc which is produced between the contacts is guided in a second current direction, which is opposite the first current direction, to said quenching device for quenching the arc. | 05-14-2015 |
218037000 | Insulated conductor structure | 1 |
218038000 | Arc splitting means | 1 |
20090255904 | ARC SPLITTER ARRANGEMENT FOR AN ELECTRICAL SWITCH - An arc splitter arrangement for an electrical switch comprises at least two arc splitters composed of a ferromagnetic material disposed parallel to one another, wherein each of the at least two arc splitters has a V-shaped cutout on a narrow face edge forming an inlet area for an arc, and an insulating material at least partially coating at least one side of the arc splitter, wherein the at least one side includes an area located behind the inlet area in an arc running direction, the area being free of, and surrounded by, the insulating material. A service switching device comprises at least one arc splitter arrangement. | 10-15-2009 |
218040000 | Arc runner (e.g., arc horn) | 1 |
20090145882 | Protection Switch - A protection switch, particularly for rapid quenching of electrical arcing, includes at least one single-pole protection switch module having a housing, a movable contact mounted on a switching arm for pivoting against a fixed contact between a closed position and an open position and a quenching device for quenching electrical arcing of the switch. The quenching device includes a quenching chamber with an inlet and an outlet for the arc. A first running rail connects the fixed contact with a first side wall of the quenching chamber and a second running rail connects a stopping surface, against which the movable contact abuts in the open position of the switching arm, to a second side wall of the quenching chamber. A separation strip extends substantially from side wall to side wall at the outlet of the quenching chamber. | 06-11-2009 |
218042000 | Within vacuum | 2 |
20140131316 | CONTACT ASSEMBLY FOR A VACUUM CIRCUIT BREAKER - A contact assembly and a vacuum circuit breaker for interrupting an electrical current are disclosed. The contact assembly includes an outer field generating element for generating a first axial magnetic field (AMF), and an inner field generating element for generating a second AMF opposite to the first AMF. The inner field generating element can be coaxial with the outer field generating element and can have a smaller diameter than the outer field generating element. The outer field generating element can be cup-shaped and slotted with non-radial slots to generate the first AMF. The contact assembly can include an innermost conducting element for nominal current conduction and coaxially adjusted with the inner field generating element. | 05-15-2014 |
20160035519 | VACUUM VALVE - A coil electrode has a ring section provided on a plane perpendicular to the axis line of fixed-side and movable-side electrode rods on which the coil electrodes are mounted and concentrically with the axis line, a plurality of arm sections extended outward from the outer circumference of the ring section, circular-arc-shaped coil sections that are formed in such a way as to be bent in the circumferential direction from the respective front ends of the arm sections, and slits that separate the coil sections; the arm section of the coil electrode and the arm section of the coil electrode are arranged in the same direction so as to be superimposed on each other when viewed along the axis direction of the fixe-side electrode rod and the movable-side electrode rod. | 02-04-2016 |