An electric motor includes a rotor unit disposed rotatably in a motor housing. The rotor unit includes a rotor shaft rotatable relative to the motor housing about a central axis of the motor housing, a heat conductive seat mounted with a magnet member and in sleeved relationship to an intermediate p
An electric motor includes a rotor unit disposed rotatably in a motor housing. The rotor unit includes a rotor shaft rotatable relative to the motor housing about a central axis of the motor housing, a heat conductive seat mounted with a magnet member and in sleeved relationship to an intermediate portion of the rotor shaft, and angularly spaced apart heat pipes extending through an end portion of the rotor shaft thicker than the intermediate portion and into the seat. Each heat pipe has an end portion disposed outward of the rotor shaft, and extending into and in thermal contact with a heat conductive impeller connected to the second end portion of the rotor shaft to co-rotate with the rotor shaft and covered by an outer shell cap. A stator unit is mounted fixedly in and is in thermal contact with the motor housing, and is disposed around the rotor unit.
대표청구항▼
1. An electric motor comprising: a motor housing including a heat conductive tube body that extends in an axial direction, said tube body having opposite inner and outer annular surfaces, and first and second open ends opposite to each other in the axial direction;a rotor unit disposed rotatably in
1. An electric motor comprising: a motor housing including a heat conductive tube body that extends in an axial direction, said tube body having opposite inner and outer annular surfaces, and first and second open ends opposite to each other in the axial direction;a rotor unit disposed rotatably in said motor housing and includinga rotor shaft mounted rotatably within said motor housing and rotatable relative to said motor housing about a central axis of said tube body, said rotor shaft having a first end portion, a second end portion opposite to said first end portion in the axial direction, and an intermediate portion interconnecting said first and second end portions, said second end portion having a diameter greater than that of said intermediate portion,a heat conductive magnet-mounting seat mounted in a sleeved relationship to said intermediate portion of said rotor shaft,a magnet member mounted in said magnet-mounting seat, anda plurality of heat pipes angularly spaced apart from each other about the central axis, and extending in the axial direction through said second end portion of said rotor shaft and into said magnet-mounting seat, each of said heat pipes having an end portion disposed outwardly of said second end portion of said rotor shaft;a stator unit mounted fixedly in and in thermal contact with said motor housing, and disposed around said rotor unit; anda heat conductive impeller connected to said second end portion of said rotor shaft such that said impeller is co-rotatable with said rotor shaft, said end portions of said heat pipes extending into and being in thermal contact with said impeller. 2. The electric motor as claimed in claim 1, wherein said motor housing further includes: an outer shell cap mounted on said tube body for covering said impeller, configured with an inner receiving space for receiving said impeller, and formed with a plurality of air inlets in spatial communication with said inner receiving space;a plurality of heat dissipating fins formed on said outer annular surface of said tube body, extending in the axial direction and angularly spaced apart from each other about the central axis such that an air-flow channel is defined between each adjacent pair of said heat dissipating fins and is in spatial communication with said inner receiving space in said outer shell cap. 3. The electric motor as claimed in claim 1, wherein said motor housing further includes a first cover body mounted on said first open end of said tube body and permitting extension of said first end portion of said rotor shaft of said rotor unit, anda second cover body mounted on said second open end of said tube body and permitting extension of said second end portion of said rotor shaft of said rotor unit; andwherein said first and second cover bodies cooperate with said tube body to define a closed accommodating space for receiving said rotor unit and said stator unit. 4. The electric motor as claimed in claim 1, wherein said motor housing is configured with at least one heat exchange conduit disposed around said stator unit for permitting a coolant to pass therethrough so as to remove heat from said stator unit. 5. The electric motor as claimed in claim 4 wherein: said motor housing is configured with a pair of said heat exchange conduits opposite to each other in the axial direction;said motor housing further includes a pair of heat conductive rings disposed between said tube body and said stator unit and in thermal contact with said stator unit, each of said rings having a concave outer surface facing said inner annular surface of said tube body to cooperatively define a corresponding one of said heat exchange conduits, anda communicating pipe interconnecting said heat exchange conduits; andsaid tube body is formed with a coolant inlet and a coolant outlet that are respectively in fluid communication with said heat exchange conduits such that the coolant flows into said heat exchange conduits through said coolant inlet and out of said heat exchange conduits through said coolant outlet. 6. The electric motor as claimed in claim 5, wherein each of said heat exchange conduits is C-shaped. 7. The electric motor as claimed in claim 1, wherein: said magnet-mounting seat of said rotor unit is made from a magnetic material, and is formed with a plurality of magnet-mounting holes extending in the axial direction, arranged around said rotor shaft and spaced angularly apart from each other about the central axis;said magnet member includes a plurality of magnets mounted respectively in said magnet-mounting holes in said magnet-mounting seat; andsaid rotor unit further includes first and second stop rings mounted respectively on opposite sides of said magnet-mounting seat in the axial direction for positioning said magnets in said magnet-mounting seat. 8. The electric motor as claimed in claim 1, wherein said stator unit includes: a magnetic core mounted on said rotor unit in sleeved relationship and in thermal contact with said inner annular surface of said tube body of said motor housing, said magnetic core having a plurality of stator poles which are angularly spaced apart from each other about the central axis;a plurality of stator windings wound respectively on said stator poles; anda heat conductive adhesive coated over said stator windings and in thermal contact with said inner annular surface of said tube body of said motor housing. 9. The electric motor as claimed in claim 8, wherein said heat conductive adhesive is a mixture of a resin, and a heat conductive material that is selected from a group consisting of silicon carbide, aluminum, boron nitride, aluminum nitride, and combinations thereof.
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이 특허에 인용된 특허 (3)
Kitamura Yutaka (Hyogo JPX) Aso Hiroaki (Hyogo JPX), Block-mounted water cooled ac generator.
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