Apparatuses and methods for cooling electric machines
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H02K-009/19
H02K-009/16
H02K-005/20
출원번호
US-0790883
(2013-03-08)
등록번호
US-9531242
(2016-12-27)
발명자
/ 주소
Kulkarni, Devdatta P.
Rupertus, Gabriel
Chen, Edward
출원인 / 주소
TECO-Westinghouse Motor Company
대리인 / 주소
Norton Rose Fulbright US LLP
인용정보
피인용 횟수 :
0인용 특허 :
15
초록
Cooling apparatuses and methods comprising cooling apparatuses, such as those configured to be coupled to and/or cool electric machines (e.g., motors, generators, and the like).
대표청구항▼
1. A cooling apparatus comprising: a frame configured to receive at least a portion of an electric machine that includes a stator, the frame having: a first end,a second end, and:an inner wall; andan outer wall configured to cooperate with the inner wall to define an annular chamber between the oute
1. A cooling apparatus comprising: a frame configured to receive at least a portion of an electric machine that includes a stator, the frame having: a first end,a second end, and:an inner wall; andan outer wall configured to cooperate with the inner wall to define an annular chamber between the outer and inner walls, the chamber configured to permit a fluid to move between the outer and inner walls;longitudinal ribs forming flow channels within the annular chamber;a breaker disposed in and spanning one of the flow channels such that the breaker is non-parallel to that flow channel, the breaker configured to disturb flow when fluid flows through the flow channel in which the breaker is disposed; anda jacket positioned radially inside of the chamber of the frame, the jacket comprising a jacket inner wall configured to contact the stator and permit heat transfer directly therebetween, a jacket chamber outer wall that comprises the inner wall of the frame, and a jacket chamber configured to permit a second fluid to flow therethrough;where the outer wall of the frame includes an inlet connected to the jacket chamber and through which the second fluid can move into the jacket chamber. 2. The cooling apparatus of claim 1, where a breaker is disposed in and spans each of the other flow channels, each breaker configured to disturb flow when fluid flows through the flow channel in which the breaker is disposed. 3. The cooling apparatus of claim 2, where respective pairs of longitudinal ribs define each flow channel in which a breaker is disposed, at least one of the longitudinal ribs in a given pair of longitudinal ribs has a longitudinal rib height, and each breaker has a height that is 1 to 10 percent of the longitudinal rib height of the at least one of the longitudinal ribs that define the flow channel in which that breaker is disposed. 4. The cooling apparatus of claim 1, where multiple breakers are disposed in and span each of the other flow channels, each breaker configured to disturb flow when fluid flows through the flow channel in which it is disposed. 5. The cooling apparatus of claim 4, where respective pairs of longitudinal ribs define each flow channel in which a breaker is disposed, at least one of the longitudinal ribs in a given pair of longitudinal ribs has a longitudinal rib height, and each breaker has a height that is 1 to 10 percent of the longitudinal rib height of the at least one of the longitudinal ribs that define the flow channel in which that breaker is disposed. 6. The cooling apparatus of claim 1, where two of the longitudinal ribs define the flow channel in which the breaker is disposed, one of the two longitudinal ribs has a longitudinal rib height, and the breaker has a height that is 1 to 10 percent of the longitudinal rib height. 7. A cooling apparatus comprising: a frame configured to receive at least a portion of an electric machine that includes a stator, the frame having: a first end,a second end, and:an inner wall; andan outer wall configured to cooperate with the inner wall to define an annular chamber between the outer and inner walls, the chamber configured to permit a fluid to move between the outer and inner walls;longitudinal ribs forming flow channels within the annular chamber;a corrugated fin disposed in a flow channel, the corrugated fin configured to define sub-channels extending longitudinally through the flow channel in which it is disposed; anda jacket positioned radially inside of the chamber of the frame, the jacket comprising a jacket inner wall configured to contact the stator and permit heat transfer directly therebetween, a jacket outer wall that comprises the inner wall of the frame, and a jacket chamber configured to permit a second fluid to flow therethrough;where the outer wall of the frame includes an inlet connected to the jacket chamber and through which the second fluid can move into the jacket chamber. 8. The cooling apparatus of claim 7, where a corrugated fin is disposed in each of the flow channels, each corrugated fin configured to define sub-channels extending longitudinally through the respective flow channel in which it is disposed. 9. The cooling apparatus of claim 8, further comprising: a bar configured to be disposed over each of the flow channels and further configured to prevent each of the corrugated fins from moving away from the inner wall of the frame. 10. The cooling apparatus of claim 9, where the bar is coupled to respective pairs of longitudinal ribs that form each of the flow channels such that the bar compresses the respective corrugated fin with respect to the inner wall of the frame. 11. The cooling apparatus of claim 8, further comprising: a thermal interface material disposed on the inner wall of the frame in each of the flow channels to increase conductivity between the respective corrugated fin and the inner wall. 12. The cooling apparatus of claim 8, further comprising: at least one stopper coupled to at least one of the inner wall and the outer wall of the frame and configured to prevent longitudinal movement of each of the corrugated fins in the respective flow channel. 13. The cooling apparatus of claim 7, further comprising: a bar configured to be disposed over the flow channel in which the corrugated fin is disposed, the bar further configured to prevent the corrugated fin from moving away from the inner wall of the frame. 14. The cooling apparatus of claim 13, where the bar is coupled to a pair of longitudinal ribs such that the bar compresses the corrugated fin with respect to the inner wall of the frame. 15. The cooling apparatus of claim 7, further comprising: a thermal interface material disposed on the inner wall of the frame in the flow channel to increase conductivity between the corrugated fin and the inner wall. 16. The cooling apparatus of claim 7, further comprising: at least one stopper coupled to at least one of the inner wall and outer wall of the frame and configured to prevent longitudinal movement of the corrugated fin in the flow channel.
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