| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 361676000 | With cooling means | 34 |
| 20080232040 | FAST TERMINAL BOX - A fast terminal box includes a casing, a cover, plural wiring sockets, plural metal connection components and a plurality of wiring terminals. The wiring sockets are placed and distributed on a bottom plate of the casing one by one. The metal connection component is provided on the wiring socket for connection purpose. The casing and the cover are combined to each other. The wiring terminals are distributed at sidewall of the casing for receiving corresponding wiring plugs therein. The fast terminal box is characterized in heat sink metal fins are contained in a space around the wiring socket, and heat sink metal fins contact pins of a diode and the metal connection component respectively through corresponding connection portions thereof. Wiring apertures are defined in an outer surface of the heat sink metal fins, thereby improving heat dissipating effect and especially by utilization of heat sink metal fins of covering construction, heat dissipation effect being more effectively improved, and also the heat sink metal fins capable of being mounted conveniently and quickly. | 09-25-2008 |
| 20090135552 | HEAT DISSIPATING DEVICE AND HEAT SINK FASTENER - A heat dissipating device is disclosed. The heat dissipating device comprises a heat dissipating base, a frame and at least one resilient member. The heat dissipating base has a plate, and at least one hole is formed on the plate. The frame has at least one protruding column, and at least one side of the frame has a protrusion. The resilient member is put on the protruding column correspondingly. When the frame buckles an edge of the plate by the protrusion and be put on the heat dissipating base, the protruding column can pass through the hole on the plate to make the frame elastically associate with the heat dissipating base through the resilient member. Thus, the heat dissipating device makes the heat dissipating base keep closer contact with a chip, balances internal stresses, prevents hestsinks design from being restricted, and further lowers cost. | 05-28-2009 |
| 20090141432 | Rapid Cooling of Exhaust From Arc Resistant Electrical Equipment - A system and method are provided for cooling exhaust from a power center, such as in the event of an arc fault. In one embodiment, a system is provided that includes a power center having an enclosure, an exhaust duct coupled to the enclosure, and a phase change material disposed in the enclosure, the exhaust duct, or both, wherein the phase change material is configured to rapidly cool exhaust in response to a high temperature in the enclosure. A method is provided that includes cooling an exhaust at a high temperature from a power center by changing phase of a phase change material from a solid to a vapor. Another method is provided that includes providing a phase change material configured to cool an exhaust at a high temperature from a power center by changing phase from a solid to a vapor. | 06-04-2009 |
| 20090219673 | Information equipment - Information equipment includes an open/close mechanism that opens or closes exhaust ports, a cooling fan that dissipates heat in the information equipment into the air through the exhaust ports, a user state detecting part that detects a contact state in which the hand of a user is in contact with the information equipment or a closeness state in which the hand of the user is close to the information equipment, and a heat dissipation control part that controls an open/closed state of the open/close mechanism so that heat exhausted from the exhaust ports is not directed to the hand of the user that is contact with or close to the information equipment, in accordance with the contact state or the closeness state detected by the user state detecting part. | 09-03-2009 |
| 20090323259 | Cooling arrangement for system for generating electric power - A cooling arrangement for a system for generating electric power may include at least one heat exchanger configured to cool air entering an engine operably associated with the system. The arrangement may further include a first fan configured to supply air to the at least one heat exchanger, and at least one radiator configured to cool engine coolant. The arrangement may also include a second fan configured to supply air to the at least one radiator. The arrangement may be configured such that air supplied to the at least one radiator is not supplied to the at least one heat exchanger prior to being supplied to the at least one radiator. | 12-31-2009 |
| 20100302715 | Cooling Device For A Circuit Breaker And Circuit Breaker Comprising Such Device - A cooling device for a circuit breaker which comprises a case having a front wall, a rear wall, an upper wall, a lower wall, two flanks, and a first series of side-by-side terminals and a second series of side-by-side terminals that protrude outside from the case for the connection of the circuit breaker with an electrical circuit. The cooling device includes at least one first body made of a thermal conducting material and which has a central portion suitable for being positioned transversally along and facing the first series of terminals so as to absorb heat generated at the first series of terminals, and a first end portion and a second end portion that protrude from the central portion and are configured so as to receive the heat absorbed by the central portion and to diffuse it outside the cooling device itself. | 12-02-2010 |
| 20110188174 | BUS BAR ASSEMBLY - A solid state contactor assembly includes at least one solid state switch electrically connected to a first bus bar via at least one conductive plate. The solid state switch controls a flow of current between the first bus bar and a second bus bar. A current sensor is formed along a cross section of one of the first or second bus bar such that the current sensor separates its associated bus bar into two separate bus bar portions, and such that a flow of current between the two separate bus bar portions passes through the current sensor. A switch control is operable to control the solid state switch. The switch control is in communication with the current sensor. | 08-04-2011 |
| 20120113569 | HEAT DISSIPATION MEANS FOR INCREASING POWER DENSITY IN ENCLOSED EQUIPMENT - A thermally efficient electrical enclosure includes a busbar, a metallic heat sink, and an electrical insulator. The busbar is positioned entirely within the enclosure and electrically insulated from the enclosure. The metallic heat sink is attached to a wall of the enclosure. The electrical insulator physically contacts the busbar and is at least partially wrapped around at least two non-parallel surfaces of a portion of the metallic heat sink such that the metallic heat sink is electrically insulated from the busbar. The metallic heat sink is configured to transfer thermal energy or heat from the busbar to the enclosure such that the thermal energy is lost or transferred to the surrounding environment, which reduces the temperature of the busbar and the amount of copper needed for the busbar without reducing the rating of the enclosure. | 05-10-2012 |
| 20120127638 | ESS WITH INTEGRATED DC/DC CONVERTER AND HYBRID POWER ELECTRONICS - A power system for connecting high voltage components includes an enclosure having an interior space. A plurality of high voltage (HV) components are removably coupled to the enclosure and positioned in the interior space of the enclosure. The plurality of HV components are electrically coupled to each other. A motor is positioned outside the enclosure, and the motor is electrically interconnected through the enclosure to one of the HV components. A heat sink is positioned within the interior space for providing thermal heat transfer away from the components. | 05-24-2012 |
| 20120154987 | ELECTRICAL SYSTEM AND MATRIX ASSEMBLY THEREFOR - A matrix assembly is provided for an electrical system such as, for example, a power distribution unit for an aircraft. The electrical system includes an enclosure and a number of current carrying components such as, for example, electrical bus members, electrical switching apparatus, and/or fuses. The matrix assembly includes a matrix member having a generally planar portion, a plurality of attachment points for attaching the current carrying components to the generally planar portion, and a plurality of mounting points for attaching the generally planar portion to a thermally conductive structure such as, for example, an aluminum airframe structure. The matrix member is a thermally conductive liquid crystalline polymer. In addition to providing dielectric insulation, the matrix member also effectively transfers heat away from the current carrying components to the aluminum airframe structure, thereby reducing the temperature and corresponding electrical resistance within the electrical system and improving performance. | 06-21-2012 |
| 20120229959 | VARIABLE IMPEDANCE DEVICE WITH INTEGRATED REFRIGERATION - The invention provides a variable impedance device including a first bus bar refrigeration system, a first bus bar thermally connected to the first bus bar refrigeration system to be maintained at a target bus bar temperature by the first bus bar refrigeration system, a variable impedance component refrigeration system, a variable impedance component electrically connected to the first bus bar and thermally connected to the component refrigeration system, a variable impedance component may be at least partially made of a material that is superconducting below a critical temperature and may be maintained at a target component temperature, wherein the target bus bar temperature may be between the 300K and critical temperature and the target component temperature may be below the critical temperature and a second bus bar connected to the variable impedance component so that current flows between the first and second leads through the variable impedance component. | 09-13-2012 |
| 20140254070 | ELECTRICAL ENCLOSURE - A sealed electrical enclosure for housing an electrical component is provided. In one exemplary embodiment, the sealed electrical enclosure includes a housing, a first and second electrical connector, an actuator, and a terminal. The housing has a sealed interior when a top portion is coupled to a bottom portion. The first electrical connector extends from the sealed interior through the bottom of the housing and is electrically coupled to the electrical component. The actuator extends from the sealed interior through the housing and is configured to manipulate the electrical component. The terminal is electrically coupled to the second electrical connector. The second electrical connector is configured to mate with the first electrical connector. The first and second electrical connectors are configured to be connected and disconnected to attach and remove the housing to and from the terminal. | 09-11-2014 |
| 20140334074 | HEAT SINK FOR CONTACTOR IN POWER DISTRIBUTION ASSEMBLY - An electrical contactor assembly is provided including an electrical contactor, an electrical bus bar, and a panel formed from an electrically insulating material. At least one post protrudes through the panel and is in contact with the electrical bus bar. The at least one post is constructed from an electrically and thermally conductive material. A first end of the at least one post is configured to electrically and thermally connect to the electrical contactor. A heat sink is removably coupled to a second end of the at least one post. The heat sink includes a body having a plurality of fins extending radially outward. A first portion of the plurality of fins extends around a circumference of the body. A second portion of the plurality of fins extends around only a portion of the circumference of the body. | 11-13-2014 |
| 20150049421 | ELECTRONIC DEVICE PACKAGE STRUCTURE AND METHOD FABRICATING THE SAME - In one embodiment, an electronic device package structure includes an electronic die having conductive pads on one surface. The one surface is further attached to at least one lead. A conductive layer covers at least one conductive pad and at least portion of the lead thereby electrically connecting the lead to the conductive pad. | 02-19-2015 |
| 20160028216 | INTERCONNECTS FOR ELECTRICAL POWER DISTRIBUTION SYSTEMS - A contactor interconnect includes a lead post, a bus bar post and a plurality of electrically conductive heat rejection components. The lead post electrically connects to the bus bar post in series through the plurality of heat rejection components. The heat rejection components in turn connect electrically in parallel with one another between the lead post and the bus bar post for conducting current between the posts and passively dissipating heat conveyed from the lead post toward the bus bar post. | 01-28-2016 |
| 20190150304 | POWER DISTRIBUTION BOARD | 05-16-2019 |
| 361677000 | Fluid | 18 |
| 20090251853 | HEAT-SINK BRACE FOR FAULT-FORCE SUPPORT - A support system for an electrical device arranges the plurality of heat-sink assemblies in an orientation that allows the forces associated with an electrical fault that are transferred to the support structure to be reduced. The arrangement allows the electrical fault forces to cancel one another out such that the resulting net force applied to the support structure is significantly reduced. The size, strength and/or robustness of the support system can be reduced as the forces transmitted thereto are greatly reduced. The heat-sink assemblies can be arranged to facilitate ease of maintenance by allowing the heat-sink assemblies to be removed from a front access panel of the electrical device. | 10-08-2009 |
| 20090296321 | ELECTRICAL CABINET WITH TWO COOLING CHANNELS - The invention relates to an electrical cabinet ( | 12-03-2009 |
| 20100014219 | Explosive Atmosphere Heat Dissipation System - An embodiment of a system to dissipate heat from electric equipment disposed in an explosive atmosphere comprises at least one electric device disposed in an explosive atmosphere, and a cooling system operable to remove heat from the at least one electric device to cool the at least one electric device to a predetermined temperature. | 01-21-2010 |
| 20100091434 | Electrical Installation Having a Container - An electrical installation has a container which encloses high-voltage components. The electrical installation can be fitted inexpensively and quickly, and at the same time provide sufficient cooling of the high-voltage components. A control room with control elements and/or display elements of the electrical installation and a cool room with a cooling device for at least one of the high-voltage components are disposed in the interior of the container. | 04-15-2010 |
| 20120206863 | COOLING METHOD FOR COOLING MEDIUM-VOLTAGE ELECTRICAL SWITCHGEAR USING INTEGRATED HEAT PIPES, AND A SYSTEM USING SAID METHOD - The method of the invention makes it possible to cool electrical switchgear operating at medium voltage and high current, such as a circuit breaker. The method consists in inserting serially two heat pipes ( | 08-16-2012 |
| 20130027848 | COOLING AND CONTROLLING ELECTRONICS - A power electronics rack includes a switching chamber provided with one or more plate heat exchangers to receive a cooling fluid. A contactor chamber has contactors for connecting switches in the switching chamber to a magnetics chamber. The magnetics chamber receives at least one of a filter, an inductor or a transformer. The magnetics chamber receives cooling fluid which directly contacts the at least one of a filter, an inductor and a transformer for cooling. A common cooling circuit delivers cooling fluid to both the switching and magnetics chambers. The contactors may be reconfigured under certain conditions. | 01-31-2013 |
| 20130250490 | Cooling Apparatus For Switchgear With Enhanced Busbar Joint Cooling - A cooling apparatus is provided for a switchgear having at least one primary contact to connect to a terminal of a circuit breaker, with a busbar joint connected to the primary contact. The cooling apparatus includes an evaporator associated with the primary contact. A condenser is located at a higher elevation than the evaporator. Heat pipe structure fluidly connects the evaporator with the condenser. Heat transfer structure is coupled with the busbar joint for removing heat from the busbar joint. Working fluid is in the evaporator so as to be heated to a vapor state, with the heat pipe structure transferring the vapor to the condenser and passively returning condensed working fluid back to the evaporator for cooling the at least one primary contact. | 09-26-2013 |
| 20140022708 | PHASE-CHANGE COOLING OF SUBTERRANEAN POWER LINES - A cooling system for a subterranean power line may include a cooling tube configured to house a fluid. Heat generated by the subterranean power line may be radiated and/or conducted to the cooling tube and absorbed by the fluid within the cooling tube. As the fluid heats up, it may change phase from a liquid to a gas. The hot gas may rise to a heat-exchanging condenser configured to dissipate the heat and condense the fluid back into a liquid. The cool, condensed liquid my return from the heat-exchanging condenser to the cooling tube. Risers, gas transport tubes, pressure regulation systems, fluid storage tanks, and other components described herein may increase the efficiency of the cooling system and/or otherwise improve the viability of the cooling system for subterranean power lines. | 01-23-2014 |
| 20140049880 | TEMPERATURE SENSING SYSTEM FOR POWER ELECTRONIC DEVICE - A power electronic device is disclosed. The power electronic device may include a housing, a conductive element positioned within the housing and rated for at least a medium voltage, a cooling system in fluid communication with the conductive element, a plurality of temperature sensing tags and a data collection unit having a receiver that is configured to receive signals from the antennae of the temperature sensing tags. The cooling system may have a plurality of outlet conduit elements that are positioned within the housing. Each of the tags may be attached to one of the outlet conduits and may include a power supply, a temperature sensor, and an antenna. | 02-20-2014 |
| 361678000 | Air | 9 |
| 20080212265 | Switchgear Cabinet for Accommodating Electronic Plug-In Modules with a Heat Exchanger - The present invention pertains to a switchgear cabinet for accommodating electronic plug-in modules with an interior in which the heat-generating plug-in modules can be inserted one on top of another, a roof area arranged above the interior and a base arranged underneath the interior and that forms a base area. The switchgear cabinet furthermore comprises an air channel that is arranged to the side of the interior and connects the roof area to the base area. A closed cooling circuit within the switchgear cabinet serves for carrying off the heat generated by the plug-in modules. A fan arranged in the roof area takes in air from the interior and blows this air into the air channel. The heated air from the air channel flows around a heat exchanger arranged in the base in such a way that the air is cooled and the thereby produced cooling air is admitted into the interior from below and flows through this interior vertically upwards. | 09-04-2008 |
| 20090161301 | BUSBAR ASSEMBLY WITH INTEGRATED COOLING - A busbar assembly is configured such that the power devices (e.g., IGBT die) and diodes are directly mounted to the busbars. The busbars act as heat sinks, and may be cooled using micro channels, micropin fins, direct cooling, or any other heat transfer method. One assembly includes a plurality of busbars, a plurality of power semiconductor devices bonded to the plurality of busbars, and an integrated cooling system within one or more of the busbars. | 06-25-2009 |
| 20100008025 | ELECTRONIC RACK COMBINING NATURAL CONVECTION AND FORCED AIR CIRCULATION FOR ITS COOLING - This rack ( | 01-14-2010 |
| 20100134959 | SOLAR POWER INVERTERS, INCLUDING TEMPERATURE-CONTROLLED SOLAR POWER INVERTERS, AND ASSOCIATED SYSTEMS AND METHODS - A temperature-controlled solar power inverter is described herein. The solar power inverter includes multiple components (for example, a power transistor, a control board, or a heat sink). The temperature of a component may rise due to heat generated by the component or heat absorbed from other components. The solar power inverter also includes a temperature sensor configured to measure a temperature at a location proximate to the component and a cooling device configured to cool the component. The solar power inverter also includes a controller coupled to the temperature sensor and the cooling device. The controller is programmed to receive the temperature from the temperature sensor and control the cooling device based upon the temperature and a temperature setpoint of the component. The temperature setpoint is based upon 1) a component initial temperature, 2) a temperature excursion limit of the component, and 3) an absolute temperature limit of the component. | 06-03-2010 |
| 20100226073 | COOLING PLANT FOR ONE OR MORE SWITCH CABINETS - A cooling plant for cooling one or more switch cabinets. According to this invention, a large heat exchanger or several small heat exchangers operating in parallel are housed in a heat exchanger cabinet, wherein an inner space of the heat exchanger cabinet is coupled to a central air-conditioning device supplying cold air to a double bottom by an air inlet in the cabinet bottom and an air outlet of the double bottom. The cold air fed to the heat exchanger cabinet goes through the large heat exchanger or the small heat exchangers and cools the coolant flowing therein. The water supply and the water return of the large heat exchanger or the small heat exchangers are connected to the feed line and the return line of the switch cabinets that are to be cooled. This simple construction makes it possible to easily adapt the efficiency of cooling and the capacity to the variable number of switch cabinets. | 09-09-2010 |
| 20110063778 | Rack Mounted Cooling Unit - A cooling unit ( | 03-17-2011 |
| 20130314850 | SWITCHBOARD AND COOLING METHOD THEREOF - There is provided a switchboard including a boards each including an opening portion which is provided in a ceiling surface and configured to exhaust heat, and an intake portion which is provided in a lower portion and configured to taken in cooling air, a fan provided to cover the opening portion of a board of the boards and configured to exhaust air in a horizontal direction to cool the inside of the board, and a duct configured to supply the cooling air from the opening portion of a board not provided with the fan to the inside of the board provided with the fan. | 11-28-2013 |
| 20140133071 | ARC-RESISTANT SWITCHGEAR ENCLOSURE WITH VENT PROP AND LATCH - An arc-resistant switchgear enclosure has interior compartments with outlet vent openings that are selectively closed by vent flaps. The vent flaps are propped in an open position by props that extend from the vent flaps and contact supports. The props have a latch portion that latches the vent flap when the vent flap is in the closed position. | 05-15-2014 |
| 20150124381 | SWITCHBOARD COPPER BUSBAR HEAT DISSIPATING DEVICE - A switchboard copper busbar heat dissipating device for dissipating heat from a copper busbar inside a switchboard includes a thermally-conductive electrically-insulating plate having a first surface connected to the copper busbar and a second surface; at least one heat pipe having a first end connecting to the second surface of the thermally-conductive electrically-insulating plate and a second end protruding out of the switchboard; and a plurality of cooling fins connected to the second end of the heat pipe and disposed outside the switchboard. Hence, the switchboard copper busbar heat dissipating device is conducive to miniaturization of a switchboard, enhancement of efficiency of heat dissipation of the switchboard, compliance with the Ingress Protection (IP) Ratings of the switchboard (regarding waterproofing and dust-proofing thereof), and avoiding a waste of energy. | 05-07-2015 |
