Class / Patent application number | Description | Number of patent applications / Date published |
218155000 | Housing structure | 61 |
20090266796 | Gas-Insulated Power Apparatus - In a gas-insulated power apparatus in which contiguous vessels | 10-29-2009 |
20090289037 | High current switch and method of operation - An electrical switch which includes an insulative housing having a wall defining an axial bore therein, a first electrical contact disposed in the housing bore and a second electrical contact movably disposed in the housing bore between an open position and a closed position. When the contacts are in their open position, the second electrical contact is spaced apart from the first electrical contact and when the contacts are in their closed position, the second electrical contact is in electrical contact with the first electrical contact. The switch includes features to enhance safety and operation by reducing the possibility of arcing or flashover before and during the switching operation and to provide of visual indication of the state of the switch. | 11-26-2009 |
20100025378 | PIVOTING BARRIER FOR CONTACT ARM PROTECTION - A circuit breaker includes a pivoting arc barrier that is interposed between the moving contact arm axis of motion and the moving contact, so that arc gasses are deflected away from the contact arm structure. The pivoting arc barrier pivots in a complimentary motion path with that of the moving contact arm so that an arc shield face is interposed between the contact separation arc generated around the moving contact and the remaining arm structure to it which the moving contact is affixed throughout the range of contact arm operational motion. The pivoting arc barrier moves independently of the moving contact arm and advantageously does not increase the contact arm mass or bulk swept volume through its range of motion. | 02-04-2010 |
20100044346 | HIGH-VOLTAGE SWITCH WITH COOLING - An exemplary encapsulated high-voltage switch is disclosed which contains a heat-generating current conductor, a metal encapsulation surrounding the current conductor, and a cooling element. A cooler of the cooling element is fixed on a part of the encapsulation that is embodied as a mounting plate, and has cooling ribs arranged outside the encapsulation. In a section of the cooler that is embodied as a cooling block, at least a portion of the cooling ribs is arranged parallel to the mounting plate and is held on a heat distributor fixed to the mounting plate in such a way that on both sides of the heat distributor in each case one of two groups of cooling channels arises, in which the cooling channels are in each case arranged in the manner of a sandwich. The cooling channels can, for example, be oriented in a manner inclined relative to a horizontal axis of the switch. | 02-25-2010 |
20130153541 | MECHANICAL MEANS TO REDIRECT INTERNAL ARC LOCATION - An electrical enclosure includes a mechanism for moving and/or extinguishing an arc fault occurring in a first compartment of the electrical enclosure. The mechanism is positioned adjacent to a busbar in a second compartment of the electrical enclosure. In the case of a first arc fault occurring in the first compartment, an explosion occurs which results in a pressure wave. The pressure wave causes the mechanism to move into the second compartment and make electrical contact with the busbar, which causes a short and/or a second arc fault in the second compartment, thereby extinguishing the first arc fault in the first compartment. | 06-20-2013 |
20140061163 | PROTECTIVE DOOR ASSEMBLY FOR ELECTRICAL DEVICES - A protective door having push switches, access to racking unit and viewing windows is assembled with the electrical device such that the protective door encloses the electrical device with a flame proof sealing. The push switches and cutout to access racking unit are made aligned with the electrical device such that the switches of the electrical device are actuated through the push switches, racking in and out the device is possible through the cutout to access racking unit and it allows reading the rating plate, display of the electrical device through the viewing windows in the protective door even if the protective door is closed. The push switch has a push rod and a spring loaded push button assembled inside a cylinder and the push button is clamped from the front of the protective door. The push switches are arranged such that a reset switch contact with the position reset switch of the electrical device, push switches to respectively switch ON and Switch OFF the electrical device. | 03-06-2014 |
20140110378 | GAS CIRCUIT BREAKER MULTI-PIECE TANK - A multi-segment tank for high voltage gas circuit breakers such as, e.g., 800 kV gas circuit breakers. The tank includes two or more segments. In a three segment embodiment, the tank includes a short or compact center segment fabricated to mount an interrupter device and support the interrupter's operating linkage, while two end segments are connected with flange joints to surround the remainder of the interrupting device. Alternatively, a tank is provided that is constructed in two segments. | 04-24-2014 |
20140251959 | Arc Shield - A circuit breaker includes a shielding component having an external portion which defines a space external to the circuit breaker housing and covers a vent in the circuit breaker housing to direct gasses and debris from the vent to an outlet. The external portion also prevents insertion of the circuit breaker into a breaker box closer than the distances defining the space. This can have the advantage of preventing arcing from the breaker contacts to the breaker box. The external portion may also prevent insertion of the circuit breaker into a breaker box such that a vent in the circuit breaker housing is blocked. In some implementations, the shielding component contains an internal portion which extends into the circuit breaker housing and is disposed to impede debris generated by contact arcing, or other debris, from entering the mechanism of the circuit breaker. | 09-11-2014 |
20140332502 | CIRCUIT BREAKER COMPRISING VENTILATION CHANNELS FOR EFFICIENT HEAT DISSIPATION - A circuit breaker includes a housing equipped with a first switchgear region, in which a quenching chamber device and a sliding contact device having movable contacts are located, the contacts lying opposite fixed contacts, and equipped with a second switchgear region, in which a current release assembly consisting of a short-circuit release and an overload release are located. In an embodiment, a continuous ventilation channel is formed within opposing housing walls along the fixed contacts, the channel acting as a first convective air-flow through the circuit breaker in order to dissipate the heat. | 11-13-2014 |
20150380189 | Breaker - A circuit breaker, comprising a housing ( | 12-31-2015 |
218156000 | Arcing chamber | 51 |
20110114602 | CONTACTOR ASSEMBLY FOR SWITCHING HIGH POWER TO A CIRCUIT - A contactor assembly is adapted for switching power to a circuit having a power source. The contactor assembly includes a housing, carry contacts, and arc contacts. The housing defines an interior compartment and includes internal chamber walls that laterally extend within the compartment to define a protection chamber. The carry contacts are disposed in the protection chamber of the housing. The carry contacts include conductive bodies that protrude from the housing and are configured to close the circuit. The arc contacts are disposed in the housing outside of the protection chamber. The arc contacts include conductive bodies that protrude from the housing and are configured to close the circuit. The internal chamber walls of the housing prevent material that is expelled from one or more of the arc contacts when an electric arc emanates from one or more of the arc contacts from contaminating one or more of the carry contacts | 05-19-2011 |
20110297649 | MOLD CASED CIRCUIT BREAKER - A mold cased circuit breaker, which includes a casing, a switching unit disposed in the casing to open or close an electric circuit, and movable and stationary contactor units present within the casing, includes an arc-extinguishing unit. The arc-extinguishing unit includes a pair of side plates facing each other with being spaced from each other, at least one first grid arranged between the side plates and spaced apart from one another with preset intervals, and a second grid coupled to upper ends of the side plates, spaced apart from the first grid, and having a bent portion with a preset angle. | 12-08-2011 |
20110309052 | MOVING SEAL WITH ARC CREEPAGE SURFACE FOR AN AIR CIRCUIT BREAKER - A moving seal for an air circuit breaker provides an arc creepage surface that is positioned between a pair of separable contact assemblies when the moving seal is fit into an inlet of the arc chamber. The arc creepage surface has a surface contour that increases a length of an arc travel path between the separable contact assemblies, relative to a straight line distance between of separable contact assemblies. | 12-22-2011 |
20120138575 | ELECTRIC CIRCUIT BREAKER AND SWITCHGEAR PANEL WITH CIRCUIT BREAKER - A polyphase (e.g., three-phase) metal-enclosed, gas-insulated high-voltage circuit breaker and a switchgear including the circuit breaker is provided. For each phase, the circuit breaker includes one power arcing chamber pole per phase which are accommodated together in a common circuit breaker housing, and which have at least two connecting outputs per phase. The circuit breaker housing has a number, corresponding to the number of arcing chamber poles of chambers open at their front ends, in which the arcing chamber poles are arranged. The open front ends of the chambers are each respectively closed by means a corresponding dome-like lid covering the corresponding front ends so that a gas link between the individual chambers is provided for via the connection spaces created by the lids. | 06-07-2012 |
20130200046 | ELECTRICAL CIRCUIT BREAKER - The invention relates to an electrical circuit breaker comprising an arc formation chamber and an arc extinguishing chamber, the arc formation chamber being at least partially bounded by a side flange or at least a part of a side wall consisting of a polymeric composition comprising a thermoplastic polymer, a triazine based flame retardant, at most 0-5 wt. % of phosphorous or halogen containing flame retardants, and 0-15 wt. % of a reinforcing agent, wherein thermoplastic polymer comprises a polyamide with a melting temperature of at least 260° C. and the triazine based flame retardant comprises at least 20 wt. % of melam, wherein the weight percentages (wt. %) are relative to the total weight of the polymeric composition. | 08-08-2013 |
20140158666 | ARC MITIGATION ASSEMBLY AND METHOD OF ASSEMBLY TO AVOID GROUND STRIKE - A circuit protection device is provided for use with a circuit that includes at least one pair of conductors. The protection device is configured to generate an arc. The protection device includes at least a pair of electrode assemblies electrically coupled to the at least one pair of conductors and a conductor base to support the pair of electrode assemblies. The protection device includes a cover coupled to the conductor base and defining at least one isolation chamber, wherein the electrode assemblies are disposed within the isolation chamber. The protection device includes a containment shield moveably coupled to the cover. The containment shield defines a containment chamber configured to contain charged particles produced by the arc. The containment shield is operative to move relative to the cover in response to a change in pressure produced by the arc within the containment chamber. An isolation assembly is coupled to at least one of the cover and the containment shield and configured to prevent the cover from contacting the containment shield. | 06-12-2014 |
20140202991 | GAS CIRCUIT BREAKER - An outer peripheral wall surrounds a heating chamber that communicates with an arc chamber through an opening that separates fixed contacts from each other in a circumferential direction. The outer peripheral wall includes a heat-resistive cylindrical heat-flow receiving wall portion that is arranged at a position opposed to the opening in a radial direction, and a cylindrical wall portion that is connected to the heat-flow receiving wall portion in a direction of a center axis and also connected to a fixed-side energizing member at its one end on the opposite side to where the wall portion is connected to the heat-flow receiving wall portion, and is made of an insulating material. With this configuration, the outer peripheral wall surrounding the heating chamber can be protected from damage and heat deterioration due to the influence of hot gas. | 07-24-2014 |
20140305906 | MOLDED-CASE CIRCUIT BREAKER - Provided is a molded case circuit breaker including a front space, a rear space divided from the front space, a fixed contact unit provided on one side of the front space and in electric contact with one of a power supply and a load, a movable contact unit installed in the front space to be movable and in contact with the fixed contact unit, a switching device installed in the rear space and operating to allow the movable contact unit to be in selective contact with the fixed contact unit, an operation device installed in the front space and the rear space and transferring the movable contact unit according to operation of the switching device, an arc extinguishment chamber installed on the one side of the front space and extinguishing an arc induced while the fixed contact unit is being separated from the movable contact unit, and a barrier preventing backward movement of the arc from at least one position of a moving way of the movable contact unit, the position separate from the fixed contact unit. | 10-16-2014 |
20140360985 | SWITCH - A switch includes a pair of fixed contacts disposed at a predetermined distance from each other; a movable contact arranged to be capable of contacting with and separating from the pair of fixed contacts; and an arc extinguishing container internally mounted with the pair of fixed contacts and the movable contact. The arc extinguishing container includes a resin container having a terminal retention plate portion adhesively bonded a pair of external connection terminals, and a side plate portion extending downward from an outer circumferential portion of the terminal retention plate portion, and formed with an open face, and a metal bucket-shaped body internally mounted with the movable contact and the pair of fixed contacts inserted into the side plate portion of the resin container. The are extinguishing container is formed by bonding the resin container and the metal bucket-shaped body to each other by an adhesive agent. | 12-11-2014 |
20150014279 | Device For Protection Against Particles Generated By An Electric Switching Arc - A protection device for providing protection against the particles generated by an electric arc when a first electrically conductive part and a second electrically conductive part of an electrical connection unit are separated from each other, the protection device including at least one protection element disposed in the proximity of the place at which the first part and the second part separate in order to form a shield against the particles. | 01-15-2015 |
20160104591 | Single-Pole Breaking Unit Comprising a Rotary Contact Bridge, and a Switchgear Device, and Circuit Breaker Comprising Such a Unit - A single-pole breaking unit which includes a rotary contact bridge, a stationary contact operating with the contact bridge and connected to a current input, a rotary bar having radially extending axial end surfaces, and radial side surfaces with a transverse hole for the contact bridge which is salient through opposite radial side surfaces of the bar, an arc extinguishing chamber opening onto an opening volume for the contact bridge, two parallel side panels parallel to the axial end surfaces of the bar, with the rotary bar located between two sealing flanges between the axial end surfaces of the rotary bar and the side panels and movable axially toward the side panels to ensure tightness between the inside and the outside of the breaking unit, the sealing flanges each comprising a radially extending portion, and a cylindrical portion, both co-axial with the rotary bar, which cylindrical portion has an inside radius slightly less than the radial extent of the rotary bar, providing a space between the inside surface of the cylindrical portion and the rotary bar, the space permitting quenching gases to flow directly to push a sealing flange axially against a side panel to achieve tightness. | 04-14-2016 |
218157000 | With venting means | 34 |
20080217298 | Wear Indicator for a Circuit Interrupter Exhaust Control Device - An exhaust control device includes a wear indicator disposed within a housing of the exhaust control device. The wear indicator is arranged to be exposed to a flow of exhaust gas through the exhaust control device. The wear indicator has a first observable state indicative of remaining useful life of the exhaust control device. The wear indicator is responsive to a flow of exhaust gas through the exhaust control device to assume a second observable state indicative of the exhaust control device having reached the end of its useful life. | 09-11-2008 |
20080264906 | ELECTRICAL SWITCHING APPARATUS, AND ARC HOOD ASSEMBLY AND CHIMNEY THEREFOR - A chimney is provided for a circuit breaker arc hood assembly. The circuit breaker housing includes a number of arc chute vents structured to exhaust arc gases. The arc hood assembly includes a body having a first side facing the housing, and a second side opposite the first side. The first side includes a number of apertures. The chimney includes a base disposed at or about a corresponding one of the arc chute vents, a duct extending outwardly from the base and through a corresponding one of the apertures, and a plurality of resilient protrusions movably coupling the chimney to the first side of the body at or about the corresponding one of the apertures. The resilient protrusions bias the base toward engagement with the housing to resist the arc gases being undesirably discharged between the base and the housing. | 10-30-2008 |
20090159569 | SWITCHGEAR - A switchgear case is partitioned into a high voltage bus bar chamber, which contains bus bars and cable heads, a high voltage device chamber containing circuit breakers and operation mechanisms and a low voltage control chamber containing a relay and measurement devices, etc., A rear wall of the case has a first suction port disposed at a lower part thereof, wherein the high voltage bus bar chamber, high voltage device chamber and the low voltage control chamber are communicated and air passing through the chambers is discharged from a first discharging port of the casing. The bus bars electrically connecting the high voltage devices in the high voltage device chamber and connecting bars connecting the adjoining bus bars and the cable heads are covered with solid insulators for solid-insulation. | 06-25-2009 |
20090179010 | ABLATIVE-BASED CURRENT INTERRUPTER - Apparatus for interrupting an electrical current between two contacts, such as a first contact and a second contact, is provided. The first and second contacts are separable away from one another to interrupt electrical current flowing between the contacts. An ablative chamber is disposed around the contacts. The chamber includes an ablative material that discharges a vapor when an electrical arc is generated in an arc zone during a separation of the contacts. A venting arrangement is provided in the ablative chamber. The venting arrangement is distributed along the arc zone to influence at least one parameter in the ablative chamber during an arc quenching event. The parameter is selected to affect at least one arcing characteristic. | 07-16-2009 |
20090179011 | ABLATIVE-BASED MULTIPHASE CURRENT INTERRUPTER - A multiphase current interrupter is provided for interrupting a phase current between two contacts in an electrical phase. The current interrupter includes a first ablative chamber disposed around contacts for a first electrical phase. The first chamber has an ablative material thereon that causes a shock wave when an electrical arc is generated in an arc zone for the first electrical phase during a separation of the contacts therein. The current interrupter further includes at least a second ablative chamber disposed around contacts for at least a second electrical phase. The second chamber has an ablative material thereon that causes a shock wave when an electrical arc is generated in an arc zone for the second electrical phase during a separation of the contacts therein. An interconnecting structure provides fluid communication between the first ablative chamber and the second ablative chamber. The interconnecting structure is adapted to dissipate a shock wave generated in any of the ablative chambers. | 07-16-2009 |
20090200273 | Mounting Base With Arc Plenum - The present invention relates generally to a switchgear apparatus. More particularly, the invention encompasses a mounting base with are plenum for a switchgear apparatus. The present invention also relates to enclosures for switchgear, panel boards, circuit breakers, and more particularly to an enclosure for low voltage switchgear and switchboard assemblies. The enclosure can be a walk-in type enclosure or a non-walk-in type enclosure. This invention further provides a method and apparatus for channeling plasma (hot arc gasses) that are generated from an arc. The switchgear mounting base with internal arc plenum can be an integral part of an arc resistant switchgear assembly and is preferably located under the switchgear. The switchgear mounting base works in conjunction with a ventilation system in the switchgear apparatus to channel hot arc gasses (plasma) from the lower breaker compartments in the front of the switchgear in the event of an internal arcing fault in one of the breaker compartments. The hot arc gasses exit downward from the bottom of the switchgear and into the plenum. The gasses then are channeled to travel backward through the plenum and then up again into the switchgear rear compartment where they can be routed to and safely discharged from the roof of the switchgear apparatus. | 08-13-2009 |
20090212022 | Circuit Breaker Compartment Arc Flash Venting System - The present invention relates generally to a switchgear apparatus. More particularly, the invention encompasses a circuit breaker compartment arc flash venting system for a switchgear apparatus. The present invention also relates to enclosures for switchgear, panel boards, circuit breakers, and more particularly to an enclosure for low voltage switchgear and switchboard assemblies. The enclosure can be a walk-in type enclosure or a non-walk-in type enclosure. This invention further provides a method and apparatus for channeling plasma (hot arc gasses) that are generated from an arc. The circuit breaker compartment arc flash venting system is an integral part of an arc resistant switchgear assembly. The arc flash venting system works in conjunction with the bus insulation and ventilation systems in the switchgear apparatus to channel hot arc gasses (plasma) from a breaker compartment in the event of an internal arcing fault in the breaker compartment. The gasses are channeled to exit the upper rear of the breaker compartment and into the insulated section bus compartment. The hot arc gasses and other particulates then travel upward through the section bus compartment where they are routed to and safely discharged from the vent structure on the roof of the switchgear apparatus. | 08-27-2009 |
20090308845 | ARC CONTAINMENT DEVICE AND METHOD - An arc containment device is presented. The arc containment device includes a shock shield further having a multiple apertures for escape of gas, the shock shield configured to surround an arc source. The device further comprises an inner enclosure having a multiple openings generally aligned with the multiple apertures, the inner enclosure configured to provide an electrical insulation base for the arc source. An outer enclosure disposed is provided around the inner enclosure, the outer enclosure configured to direct the gas to the environment outside the device. | 12-17-2009 |
20100096363 | SWITCHING CHAMBER FOR A HIGH-VOLTAGE BREAKER, AND A HIGH-VOLTAGE BREAKER - A circuit breaker and a switching chamber are disclosed which include a switching chamber housing composed of electrically conductive material, which surrounds an erosion volume and has an axially directed outlet which connects the erosion volume to an outlet opening on the outer face of the switching chamber housing, or which has at least one radially directed outlet. The outlet can include an insert, which is located in an aperture in the switching chamber housing and which is composed of electrically insulating material. A connecting stub surrounds an outlet channel and projects beyond the outer face of the switching chamber housing. A collar projects outward and rests on the inner face of the switching chamber housing. The aperture is located in a depression on the outer face of the switching chamber housing, such that the triple point where the switching chamber housing meets the insert is shielded. The outlet channel can carry heated insulating gas flowing out away from areas where there is an increased electrical field strength adjacent to the rim of the depression. | 04-22-2010 |
20100133236 | INSTALLATION SWITCHGEAR HAVING A DEVICE FOR MOUNTING THE SAME ON A BUS BAR - An installation switching device includes an installation device housing including a housing interior, a connecting terminal disposed on a narrow face of the installation device housing, a switching apparatus including a quenching chamber, a vent channel configured to allow switching gases from a switching operation to escape from the housing interior through an outlet opening disposed close to the connecting terminal, and an attachment element disposed on the narrow face. The attachment element includes an exhaust-gas channel having an inlet opening corresponding with the outlet opening of the vent channel so as to allow the switching gases to pass from the outlet opening of the vent channel through the exhaust-gas channel, the attachment element configured to attach the installation switching device to a busbar. | 06-03-2010 |
20100170876 | CIRCUIT BREAKER WITH SWITCHING GAS COOLING - A circuit breaker has at least one housing having at least one opening, and at least one pair of contacts located in the housing, the contacts of the pair of contacts being mobile in relation to each other for opening and closing an electric circuit. An open-pore metal foam ( | 07-08-2010 |
20100193475 | Electromagnetic relay - An electromagnetic relay includes a resin case, a coil, a movable contact; a fixed contact, a flat recess, a ventilation hole, a cooling member and a flat passage. The resin case has a housing space therein. The movable contact is within the housing space and is actuated by the coil. The fixed contact is within the housing space. The flat recess is formed at the case to communicate with the housing space. The ventilation hole is formed at the case to provide communication between the recess and an exterior of the case. The cooling member is within the recess to cool flame that passes through the recess. The flat passage is formed between the cooling member and an internal wall surface of the recess and has a clearance dimension such that flame is extinguished. | 08-05-2010 |
20100258532 | ARC RESISTANT SWITCHGEAR VERTICAL EXHAUST SYSTEM - An exhaust system for exhausting gases and molten debris caused by an electric arc within a switchgear. The exhaust system includes a switchgear having lower and upper compartments and an exhaust unit externally mounted to the switchgear. A wall panel of the switchgear includes blow out panels coinciding with openings in the lower compartment and corresponding ventilation flaps in a top surface of the exhaust unit to exhaust gas from the lower compartment out the blow out panels in a vertical direction, exiting through the flaps. The upper compartment includes ventilation flaps for exhausting gas in a vertical direction directly through the flaps and optionally through side-mounted blow out panels that communicate with the vertical vent path to the flaps in the top of the exhaust unit. A bus compartment in the exhaust unit includes a vent path to flaps in the top of the exhaust unit for exhausting gas produced by bus arcing. | 10-14-2010 |
20110100958 | FEATURES TO LIMIT THE EXHAUST DEBRIS EXITING A CIRCUIT BREAKER - A debris collection slot or groove formed near the exit of a vent channel in a circuit breaker. Debris is produced during a circuit interruption, causing the debris to travel into the vent channel toward an opening where it exits the circuit breaker. Too much accumulated debris can lead to a ground strike or a cross-phase condition. The debris collection groove, formed near the exit opening of the vent channel, has no significant effect on the internal pressure generated during the circuit interruption. Multiple grooves can be formed near the exit opening for trapping more debris. When the vent channel is bent, the grooves are positioned on the outer curve of the last bend of the vent channel to trap the higher-density debris traveling around the curve. | 05-05-2011 |
20110174781 | ARC CHAMBER EMPLOYING A NUMBER OF GASSING INSERTS TO FORM A NUMBER OF GAS FLOW CIRCULATION PATHS AND ELECTRICAL SWITCHING APPARATUS INCLUDING THE SAME - An electrical switching apparatus includes separable contacts, an operating mechanism structured to open and close the separable contacts, and an arc chamber. The arc chamber includes a slot motor having a core and a housing with an opening therein, an arc chute, and a number of gassing inserts disposed in the opening of the housing. The number of gassing inserts and the housing are structured to form a number of gas flow circulation paths. The number of gas flow circulation paths are structured to drive an arc into the arc chute. | 07-21-2011 |
20110192822 | LIMITER INCLUDING A NUMBER OF GAS CHANNELS AND ELECTRICAL SWITCHING APPARATUS EMPLOYING THE SAME - A limiter includes a housing having a number of gas ports, a number of gas vents and a number of gas channels. Each of the number of gas channels is between a corresponding one of the number of gas ports and a corresponding one of the number of gas vents. The limiter also includes a number of first terminals, a number of second terminals, and a number of limiter devices. Each of the number of limiter devices is electrically connected between a corresponding one of the number of first terminals and a corresponding one of the number of second terminals. Each of the number of gas ports is structured to receive a corresponding ionized gas flow for passage through a corresponding one of the number of gas channels to the corresponding one of the number of gas vents. | 08-11-2011 |
20120097642 | SELF-PRESSURIZED ARC DIVERTER - A self-pressurized arc diverter includes a vessel configured to enclose a fusible member disposed in a conductor and a pressure-activated arc diverter. The pressure-activated arc diverter is configured to provide access to a preferred arc path when actuated by pressure in the vessel caused by an arc that is created when the fusible member opens. | 04-26-2012 |
20120168406 | SYSTEM AND APPARATUS FOR CIRCUIT PROTECTION WITHIN AN EQUIPMENT ENCLOSURE - An enclosure is provided for use with a circuit protection system having at least one exhaust duct configured to route exhaust gases out of the circuit protection system. The enclosure includes a first barrier coupled to the circuit protection system, a second barrier coupled to the circuit protection system, and a top wall coupled to the first barrier and the second barrier. The first barrier and the second barrier define an exhaust plenum coupled in flow communication with the at least one exhaust duct. A vent extends through the top wall and is coupled in flow communication with the exhaust plenum to route the exhaust gases out of the enclosure. | 07-05-2012 |
20120175348 | Single-Pole Breaking Unit Comprising a Rotary Contact Bridge, Switchgear Device Comprising Such a Unit and Circuit Breaker Comprising Such a Device - A breaking unit comprising a contact bridge, at least one stationary contact operating in conjunction with said contact bridge and a rotary bar having a transverse hole accommodating said bridge which is salient on each side of the bar, said bar being fitted between two side panels of the breaking unit. Said contact bridge comprises two sealing flanges respectively placed between the radial surfaces of the rotary bar and the side panels. At least one arc extinguishing chamber opens onto an opening volume of the contact bridge. The rotary bar comprises at least one channel connected to the transverse accommodating hole. | 07-12-2012 |
20120298627 | ELECTRICAL SWITCHING APPARATUS, AND ARC CHUTE AND VENTING ASSEMBLY THEREFOR - A venting assembly is provided for an arc chute of an electrical switching apparatus, such as a circuit breaker. The circuit breaker includes a housing and separable contacts. An arc and ionized gases are generated in response to the separable contacts tripping open. The arc chute includes a plurality of arc splitters each having first and second opposing sides, an interior passage, and an exterior. The venting assembly includes a first portion coupled to the first side of at least one of the arc splitters and including a venting segment with first venting apertures. A second portion is coupled to the second side and includes a second venting segment having second venting apertures. The first and second venting segments are spaced from the exterior of the arc splitters to form first and second cooling chambers for cooling the ionized gases. The first and second venting apertures vent the ionized gases. | 11-29-2012 |
20130026139 | SWITCHGEAR FOR AN OFFSHORE WIND TURBINE - An exemplary wind turbine for providing electrical energy includes a tower having a turret and switchgear for switching an electric current. The switchgear is arranged in a housing in the turret. The wind turbine also includes a discharge chamber separate from the turret; and a pressure-relief device, which is connected between the interior of the housing and the discharge chamber, in order to relieve pressure when there is a pressure difference between the interior of the housing of the switchgear and the discharge chamber so that an overpressure in the discharge chamber can be dissipated. | 01-31-2013 |
20130112657 | ARC CHAMBER ASSEMBLY FOR USE IN MOULDED CASE CIRCUIT BREAKERS - The present invention relates to an improved arc chamber/chute assembly in a circuit breaker for effective channelization of hot ionized gases through said arc chamber to enhance breaking capacity in circuit breakers. The assembly comprises back vent secured inside said arc chute assembly and front vent secured inside the assembly placed between the back vent and arc chute plates of the assembly. The front vent comprises a substantially T-shaped profile having a substantially horizontal portion along X-axis and a substantially vertical portion along Y-axis so as to define a substantially divergent nozzle profile in the said T-shaped profile such that at the time of high fault conditions in said arc chamber nozzle effect is generated due to high pressure build up in arc chamber assembly. | 05-09-2013 |
20130126481 | ARC-CONTROL CHAMBER GEAR FOR TWO CONFINED CONTACT ELECTRODES - Arc-control chamber gear for contact electrodes ( | 05-23-2013 |
20130168359 | ELECTRICAL SWITCHING DEVICE, IN PARTICULAR COMPACT CIRCUIT BREAKER - An electrical switching device is disclosed, including an arc extinguishing apparatus with an extinguishing chamber, a blow-out channel connected to the extinguishing chamber for blowing out plasma and/or gas produced in the extinguishing chamber from the electrical switching device and a terminal apparatus for connecting an electrical conductor to the electrical switching device, the terminal apparatus including a metal part which is electrically conductively connected at a first end to the electrical switching device and which, at its second end, includes a terminal fixing for connecting the electrical conductor, with which the metal part of the terminal apparatus is guidable out of the electrical switching device through the blow-out channel. | 07-04-2013 |
20130334174 | HIGH INTERRUPTING RATING MOLDED CASE CIRCUIT BREAKER - A circuit breaker having an increased interrupting rating without increasing the size of the circuit breaker while maintaining full compliance with UL and IEC standards. An adhesive is applied to a bottom surface near the exhaust outlets of interrupters. The interrupter housing is formed by joining two pieces, and the adhesive is applied across both pieces. The adhesive adheres to a bottom interior surface of a base of the circuit breaker, anchoring the interrupter assembly to the base. The adhesive prevents the two pieces of the interrupter housing from separating during an interruption event, and prevents the interrupter assembly from being lifted away from the base during the interruption event. The adhesive can act as a barrier to prevent interruption gas and pollution that do not escape out of the exhaust ports of the base from entering between the bottom of the interrupter assembly and the interior of the base. | 12-19-2013 |
20140021170 | CIRCUIT BREAKER - Disclosed is a circuit breaker. The circuit breaker includes an arc exhaust port for exhausting an arc generated in the inner box; an outer box receiving the inner box and including an arc passage for exhausting the arc from the exhaust port to an outside; and an arc guide part for guiding the arc from the arc exhaust port into the arc passage, wherein the arc guide part includes: an upper guide; a lower guide spaced apart from the upper guide; and a connecting part connecting the upper and lower guides to each other in a longitudinal direction. | 01-23-2014 |
20140166623 | MUFFLER FOR ENHANCED ARC PROTECTION - A muffler for enhanced arc protection is described. In the case of an internal arc event in an electrical enclosure, the muffler exhausts arc gas and plasma parallel to the enclosure surface, instead of directly forward where persons may be located. The muffler includes perforated plates and baffle plates in its interior space. The perforated plates have offset perforation patterns from one another, and the baffle plates are provided on opposing walls, causing the plasma and gas to make multiple directional changes. The perforated plates also filter the arc gas and plasma. These directional changes and filtering result in an energy reduction from the exhaust, which provides an increased margin of safety. In addition, the muffler provides an adequate level of ventilation in the enclosure, thus keeping the components cool. | 06-19-2014 |
20140175062 | ELECTRICAL SWITCHING DEVICE - Electrical switching device having a housing, at least two switching chambers within the housing with contacts to interrupt at least one current path, an arc extinguishing device for each switching chamber, and at least one guide channel within the housing, which directs the arc gas exiting the arc extinguishing device towards at least one of the exhaust openings to allow the arc gases to exit the housing, whereby each switching chamber has a guide channel, and whereby the guide channels of the different switching chambers are separated from each other. | 06-26-2014 |
20140319100 | ARC ENERGY ABSORBER - A device for cooling exhaust gases caused by an electrical arc in high or medium voltage switch gear, which device comprises a housing with an inlet and an outlet for passage of the gases, wherein a hydrous mineral is arranged in the housing for cooling the gases with the water contained in the hydrous mineral. | 10-30-2014 |
20150014280 | SWITCHGEAR ARRANGEMENT - A switchgear includes an interrupter unit. The interrupter unit is provided with first and second switching contact pieces that are movable relative to one another. A switching-gas duct that runs through the interrupter unit originates at an arc gap in which an electric arc can burn. The duct connects the arc gap to the surroundings of the interrupter unit. At least some sections of the switching-gas duct are delimited by mutually encompassing elements similar to an annular duct. One of the elements is a first member which is braced at the end similar to a pipe joint and which has a free end that projects in the direction of the arc gap. | 01-15-2015 |
20150129555 | MOLDED CASE CIRCUIT BREAKER - A molded case circuit breaker (MCCB) includes a case, an interrupter assembly, an exhaust guide part, an exhaust cover, a sealing groove and a sealing projection. The interrupter assembly is mounted inside the case, and has an arc gas exhaust port to exhaust an arc gas generated inside the case. The exhaust guide part is disposed between the interrupter assembly and the terminal part, and has an exhaust chamber therein to provide an arc gas passage between the arc gas exhaust port and a vent chute of the terminal part. The exhaust cover is mounted to the case in a structure covering the exhaust guide part, to seal the arc gas passage. The sealing groove is formed in an inner surface of the exhaust cover. The sealing projection is formed on the arc gas exhaust port of the interrupter assembly, to be inserted and coupled into the sealing groove. | 05-14-2015 |
20150303661 | ARC Fault Path For Mitigation Of ARC Fault In Power Supply Enclosure - An enclosure for a power supply is provided. An aspect includes a first compartment and a second compartment located adjacent to the first compartment. Another aspect includes an intermediate pressure relief flap located inside the enclosure in between the first compartment and the second compartment, and a top pressure relief flap located on an external surface of the second compartment. Another aspect includes the intermediate pressure relief flap and the top pressure relief flap configured to be closed in the absence of an arc fault in the enclosure, and the intermediate pressure relief flap and the top pressure relief flap configured to open based on the presence of the arc fault in the enclosure, such that plasma from the arc fault vents from the first compartment into the second compartment via the opened intermediate pressure relief flap and out of the second compartment via the opened top pressure relief flap | 10-22-2015 |
20160035518 | Door Mounted Vent Flap Structure For Arc-Resistant Compartment - A door for an arc-resistant compartment includes an opening there-through. Flap structure includes a flap member coupled to the door and movable between an opened position permitting air to pass through the opening, and a closed position covering the opening. Spring structure is engaged with the flap member to bias the flap member to the closed position. Handle structure is coupled to the flap member and extends through the door for moving the flap member to the opened position against the bias of the spring structure. Retaining structure provides a retaining force on the flap member to retain the flap member in the open position, against the bias of the spring structure. During an arcing event in the compartment, pressure within the compartment together with the bias of the spring structure overcomes the retaining force to automatically move the flap member to the closed position. | 02-04-2016 |
20160042896 | SYSTEM AND METHOD FOR VENTILATING AND ISOLATING ELECTRICAL EQUIPMENT - An arc resistant system includes an enclosure that houses electrical equipment and includes an intake isolation assembly configured to deform in response to an arc fault pressure wave to substantially block an intake ventilation opening of the enclosure. The enclosure also includes a first pressure relief assembly configured to open in response to the arc fault pressure wave to allow arc products to exit the enclosure and to enter a ventilation box. The ventilation box is coupled to the enclosure and includes an exhaust isolation assembly configured to deform in response to the arc fault pressure wave to substantially block an exhaust ventilation opening of the ventilation box. The ventilation box also includes a second pressure relief assembly configured to open in response to the arc fault pressure wave to allow the arc products to exit the ventilation box. | 02-11-2016 |
218158000 | Arc extinguishing material | 6 |
20080237194 | METAL-HYDRATE CONTAINING ARC-EXTINGUISHING COMPOSITIONS AND METHODS - An arc extinguishing composition including an arc-quenching metal hydrate (herein defined as a metal compound that produces water vapor (H | 10-02-2008 |
20090289038 | SUBSEA ARRANGEMENT - A subsea arrangement including at least one canister including a chamber accommodating at least one circuit breaker. The chamber is filled with a gaseous dielectric medium constituting a quenching medium for the at least one circuit breaker in the chamber. The pressure in the chamber is balanced against ambient sea water pressure by a pressure balancer, which includes at least one pressure container containing a pressurized gaseous medium of a same type as the gaseous medium in the chamber. The pressure container is connected to the chamber via a control valve, which is arranged to be controlled by the ambient pressure so as to feed pressurized gaseous medium from the pressure container into the chamber when the ambient pressure increases in order to maintain the pressure in the chamber equal to the ambient pressure. | 11-26-2009 |
20100282714 | GAS-INSULATED SWITCHGEAR APPARATUS AND GAS FILTER DEVICE - A gas tank is hermetically filled with an insulating gas. A gas filling opening is provided on the gas tank, which includes a flange at its end. A gas filter device is fixed to the gas flange of the gas filling opening. The gas filter device includes a gas filter formed with a porous insulating material having pores with a diameter in a range from tens of micrometers to hundreds of micrometers. The gas filter has stability against the insulating gas and a decomposition product of the insulating gas. | 11-11-2010 |
20120168407 | DEVICE AND METHOD FOR CIRCUIT PROTECTION - A device for diverting energy away from an arc flash occurring within an electrical power system is provided. The device comprising an arc source configured to create a second arc flash, a plasma gun configured and disposed to inject plasma in proximity of said arc source in response to the arc flash, an arc containment device configured and disposed to house said arc source and said plasma gun, said arc containment device comprising a cover configured and disposed to cover said arc source and said plasma gun, said cover comprising an inner surface and an outer surface, said inner surface being proximal to said arc source and said plasma gun, said inner surface including an insulative ceramic plasma spray coating. | 07-05-2012 |
20130270228 | SWITCHGEAR - A switchgear includes a fixed contactor provided in a tank filled with insulating gas, and a movable contactor provided in the tank, the movable contactor being connected to and disconnected from the fixed contactor so as to move forward and backward. The switchgear includes an arc extinction member including a surrounding portion which is slidably connected to the outer circumferential surface of the movable contactor halfway in a movement range from a close contact state to an open contact state and is formed so as to surround an arc space portion in a sealed manner, the surrounding portion being formed with a through hole through which the arc space communicates with the outside of the arc space. | 10-17-2013 |
20150060411 | GAS CIRCUIT BREAKER - Provided are: a hermetically-enclosed tank that is filled with insulating gas; a blocking unit that is provided within the hermetically-enclosed tank and is configured with a movable arc contact and a fixed arc contact opposing each other; a plurality of energizing units, within the hermetically-enclosed tank, that are provided around the blocking unit about its axial line as a center and located away from each other; and a fixed-side auxiliary conductor that is provided between a gas space which stores the energizing units and a gas space on the side of the fixed arc contact. A communication hole is formed on the fixed-side auxiliary conductor so as to communicate the gas space provided between the energizing units with the gas space. | 03-05-2015 |