Class / Patent application number | Description | Number of patent applications / Date published |
310057000 | Intermediate confined coolant | 7 |
20080238223 | Spray cooled motor system - A spray cooled motor system with a motor housing with an interior and an exterior, a stator mounted within the interior of the motor housing, a rotor mounted within the interior of the motor housing, a coil winding mounted within the interior of the motor housing, a plurality of atomizers configured to spray a coolant on at least one of the stator and the rotor, a coolant pump in fluid communication with the plurality of atomizers; and an output shaft extending through an output shaft aperture from the interior to the exterior of the motor housing. | 10-02-2008 |
20110140550 | ELECTRIC MACHINE WITH A HIGH PROTECTION CLASS WITH IMPROVED ROTOR COOLING - An electric machine has a stator ( | 06-16-2011 |
20120235522 | Cooling System For An Electrical Machine - A cooling system for an electrical machine includes a substantially closed housing, a first heat exchanger arranged inside of the housing, a second heat exchanger arranged outside of the housing, a conduit assembly for transferring a heat exchange medium in a closed circuit between the first and the second heat exchangers, a first air circulating means configured to circulate air inside of the housing over the first heat exchanger, and a second air circulating means configured to circulate air outside of the housing over the second heat exchanger, wherein the conduit assembly includes a pump for actively circulating the heat exchange medium between the first and the second heat exchangers. | 09-20-2012 |
20140103757 | ELECTRIC MACHINE HOUSING - An electric machine housing including a base wall, an outer wall extending from the base wall to an outer cantilevered end, and an inner wall spaced from the outer wall forming an annular void. The inner wall extends from the base wall to an inner cantilevered end. A first plurality of ribs extend within the annular void from the base wall toward the outer and inner cantilevered ends. A second plurality of ribs is arranged within the annular void spaced from the first plurality of ribs. The second plurality of ribs extend from the outer and inner cantilevered ends toward the base wall. The first and second pluralities of ribs define a tortuous flow path within the annular void. | 04-17-2014 |
20140183990 | ARRANGEMENT AND METHOD FOR COOLING AN ELECTRIC MACHINE - A method and an arrangement for cooling an electric machine, including an electric machine and at least one blower connected to an axle of the electric machine for blowing a cooling agent into the electric machine or for sucking it from the electric machine, wherein the at least one blower is a side channel blower. | 07-03-2014 |
20140217843 | MOTOR HAVING COOLING STRUCTURE - A motor having a cooling structure includes a rotor fixed to a rotatable motor shaft, a rotor coil formed adjacent the rotor, a coil protection cover disposed adjacent the rotor coil, mounted in the motor shaft, and having a coolant chamber filled with a coolant. The motor further includes a stator fixed adjacent an exterior circumference of the rotor and may include a cover in which one end portion of the motor shaft is rotatably penetrated having a cooling pin at an internal side surface opposite one side surface of the coil protection cover. The coolant filled in the coolant chamber of the coil protection cover receives heat generated in the rotor coil, and, by effectively emitting the heat to the outside through the cooling pin formed in a rear cover, durability of the entire motor can be improved, and failure of peripheral parts can be prevented. | 08-07-2014 |
20150015097 | CONDUCTION-COOLED SUPERCONDUCTING ROTATING MACHINE - Disclosed is a conduction cooling type superconducting rotator which includes a cryocooler, a rotary shaft including a columnar hall being spaced apart from the cryocooler to enclose the cryocooler and the rotary shaft configured to transfer a rotary power, a vacuum chamber including columnar halls arranged at both sides of the rotary shaft, first and second heat transfer elements being connected with the cryocooler and a heat transfer unit conducting a heat to the cryocooler through the first and second heat transfer elements wherein inner surfaces of the columnar halls and outer surfaces of the rotary shaft connectedly rotates and first and second cooling units configured to connect the first and second heat transfer elements and the cryocooler and the vacuum chamber is sequentially cooled in the first and second cooling unit. | 01-15-2015 |