IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0796281
(2013-03-12)
|
등록번호 |
US-9755482
(2017-09-05)
|
발명자
/ 주소 |
|
출원인 / 주소 |
- Regal Beloit America, Inc.
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
1 인용 특허 :
6 |
초록
▼
In one aspect, a stator for use in a liquid cooled electric machine having a rotor is provided. The stator includes a stator body having a radially outer periphery and a radially inner periphery, and at least one first coolant passage extending radially through the stator body from the outer periphe
In one aspect, a stator for use in a liquid cooled electric machine having a rotor is provided. The stator includes a stator body having a radially outer periphery and a radially inner periphery, and at least one first coolant passage extending radially through the stator body from the outer periphery to the inner periphery. The at least one first coolant passage facilitates providing a coolant to an air gap defined between the stator body and the rotor.
대표청구항
▼
1. A stator for use in a liquid cooled electric machine having a rotor, said stator comprising: a stator body having an outer periphery and an inner periphery;at least one first coolant passage extending radially through said stator body from said outer periphery to said inner periphery, wherein sai
1. A stator for use in a liquid cooled electric machine having a rotor, said stator comprising: a stator body having an outer periphery and an inner periphery;at least one first coolant passage extending radially through said stator body from said outer periphery to said inner periphery, wherein said at least one first coolant passage facilitates providing a coolant to an air gap defined between said stator body and the rotor;at least one second coolant passage extending radially through said stator body; andat least one third coolant passage extending substantially annularly through said stator body intermediate the outer periphery and the inner periphery from said at least one first coolant passage to said at least one second coolant passage, wherein said at least one third coolant passage is fluidly coupled to said at least one first coolant passage and said at least one second coolant passage, said at least one second coolant passage extending from said at least one third coolant passage to said inner periphery. 2. The stator of claim 1, wherein said stator body has a first end and a second end, and wherein said at least one first coolant passage is oriented substantially at a midpoint between said first and second ends. 3. The stator of claim 1, wherein said at least one first coolant passage comprises a plurality of coolant passages extending radially through said stator body from said outer periphery to said inner periphery. 4. The stator of claim 1, wherein said at least one third passage extends annularly about the entirety of said stator body. 5. A liquid cooled electric machine comprising: a housing;a shaft rotatably coupled to said housing;a rotor coupled to said shaft;a stator at least partially surrounding said rotor and defining an air gap between said stator and said rotor, said stator comprising: a stator body having an outer periphery and an inner periphery;at least one first coolant passage extending radially through said stator body from said outer periphery to said inner periphery, wherein said at least one first coolant passage facilitates providing a coolant to the air gap;at least one second coolant passage extending radially through said stator body; andat least one third coolant passage extending substantially annularly through said stator body intermediate the outer periphery and the inner periphery from said at least one first coolant passage to said at least one second coolant passage, wherein said at least one third coolant passage is fluidly coupled to said at least one first coolant passage and said at least one second coolant passage, said at least one second coolant passage extending from said at least one third coolant passage to said inner periphery; anda manifold fluidly coupled to said at least one first coolant passage, said manifold configured to deliver coolant to said at least one first coolant passage. 6. The electric machine of claim 5, wherein said stator body includes a first end and a second end, and wherein said at least one first coolant passage is oriented substantially at a midpoint of the length between said first and second ends. 7. The electric machine of claim 5, further comprising a coolant line coupled to said manifold, wherein said coolant line facilitates providing the coolant to said at least one first coolant passage through said manifold. 8. The electric machine of claim 7, wherein said housing comprises a reservoir to collect the coolant provided to said air gap. 9. The electric machine of claim 8, further comprising a return line coupled to said reservoir and said coolant line, wherein said return line facilitates recycling coolant back through said coolant line to said at least one first coolant passage. 10. The electric machine of claim 9, further comprising a pump coupled to at least one of said coolant line and said return line, wherein said pump facilitates forcing the coolant into said at least one first coolant passage and said air gap. 11. The electric machine of claim 10, wherein said pump is integrated into said shaft such that rotation of said shaft facilitates pumping the coolant into said at least one first coolant passage and said air gap. 12. The electric machine of claim 8, further comprising a heat exchanger coupled to at least one of said housing, said coolant line, and said return line, said heat exchanger facilitating cooling the coolant. 13. The electric machine of claim 12, wherein said electric machine is configured to thermally couple to a vehicle engine cooling system. 14. A method of assembling a liquid cooled electric machine, said method comprising: providing a housing;rotatably coupling a shaft to the housing;coupling a rotor to the shaft;orienting a stator to at least partially surround the rotor to define an air gap therebetween, the stator including a stator body having an outer periphery and an inner periphery;forming at least one first coolant passage in the stator body, the at least one first coolant passage extending radially between the outer periphery and the inner periphery, wherein the at least one first coolant passage facilitates providing a coolant to the air gap;forming at least one second coolant passage in the stator body, the at least one second coolant passage extending radially through the stator body;forming at least one third coolant passage in the stator body, the at least one third coolant passage extending substantially annularly through the stator body intermediate the inner periphery and the outer periphery from the at least one first coolant passage to the at least one second coolant passage, wherein the at least one third coolant passage is fluidly coupled to the at least one first coolant passage and the at least one second coolant passage, the at least one second coolant passage extending from the at least one third coolant passage to the inner periphery; andcoupling a manifold to the first coolant passage in fluid communication with the at least one first coolant passage such that the manifold is configured to deliver coolant to the at least one first coolant passage. 15. The method of claim 14, further comprising coupling a coolant line to the manifold, the coolant line configured to supply the coolant to the at least one first coolant passage through the manifold. 16. The method of claim 15, wherein the housing includes a reservoir for collecting the coolant from the air gap, further comprising coupling a return line between the reservoir and the coolant line to recycle coolant back to the at least one first coolant passage. 17. The method of claim 15, further comprising coupling a pump to the coolant line, wherein the pump facilitates forcing the coolant into the at least one first coolant passage and the air gap. 18. The method of claim 16, further comprising coupling a heat exchanger to at least one of the housing, the coolant line, and the return line, the heat exchanger facilitating cooling the coolant after heating in the air gap. 19. A stator for use in a liquid cooled electric machine having a rotor, said stator comprising: a stator body having an outer periphery, an inner periphery, a first end face, and a second end face, said first end face configured for orientation adjacent to an end face of the rotor;at least one first coolant passage extending through said stator body, wherein said at least one first coolant passage facilitates providing a coolant to an air gap defined between said stator first end face and the rotor end face;at least one second coolant passage extending radially through said stator body from said outer periphery to said inner periphery; andat least one third coolant passage extending through the stator body intermediate the outer periphery and the inner periphery, said at least one third coolant passage extending substantially annularly about the entirety of said stator body, wherein said at least one third coolant passage is fluidly coupled to said at least one first coolant passage and said at least one second coolant passage, said at least one second coolant passage extending from said at least one third coolant passage to said inner periphery.
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