Systems and methods for regulating fluid flow for internal cooling and lubrication of electric machines
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H02K-009/00
H02K-009/19
H02K-009/12
H02K-005/20
F16C-037/00
출원번호
US-0234859
(2016-08-11)
등록번호
US-10050495
(2018-08-14)
발명자
/ 주소
Garriga, Rudolph
Kubic, Michael
출원인 / 주소
Clean Wave Technologies, Inc.
대리인 / 주소
Wilson Sonsini Goodrich & Rosati
인용정보
피인용 횟수 :
0인용 특허 :
27
초록▼
The invention provides systems and methods for cooling and lubrication of high power density electric machines with an enhanced fluid injection system. Multiple fluid flow passages may be provided within the electric machine, which may include one or more bearing fluid flow pathways and one or more
The invention provides systems and methods for cooling and lubrication of high power density electric machines with an enhanced fluid injection system. Multiple fluid flow passages may be provided within the electric machine, which may include one or more bearing fluid flow pathways and one or more rotor fluid flow pathways. The bearing fluid flow pathway may comprise one or more passages which may direct a fluid to contact one or more bearings for lubrication and cooling of the one or more bearings. The rotor fluid flow pathway may comprise one or more passages which may direct a fluid along the rotatable shaft toward the rotor and stator for cooling of the rotor and stator. The electric machine may also include a fluid flow passage leading to a junction, wherein the fluid flow pathway may split between the bearing fluid flow pathway and the rotor fluid flow pathway. Additionally, the electric machine may include a fluid flow metering device at the junction between the bearing fluid flow pathway and the rotor fluid flow pathway, wherein the metering device is configured to determine the relative amount of fluid that flows to the bearing and fluid that flows toward the rotor and stator.
대표청구항▼
1. An electric machine comprising: a rotor fixed to a rotatable shaft and supported by one or more bearings;a stator stationary in relation to the rotatable shaft with a gap between the rotor and the stator; andone or more fluid flow passages within the machine, wherein at least one fluid flow passa
1. An electric machine comprising: a rotor fixed to a rotatable shaft and supported by one or more bearings;a stator stationary in relation to the rotatable shaft with a gap between the rotor and the stator; andone or more fluid flow passages within the machine, wherein at least one fluid flow passage directs fluid to contact the one or more bearings, wherein the at least one fluid flow passage is in fluid communication with an exhaust sump, and wherein the exhaust sump functions as a heat exchanger configured to: (i) collect a volume of fluid within the exhaust sump prior to exiting the electric machine through one or more outlets, wherein at least one of the outlets is in fluid communication with a recirculation pump; and(ii) cool the volume of fluid remained in the exhaust sump for a period of time via one or more cooling fins, thereby reducing the operating temperature requirement of the recirculation pump. 2. The electric machine of claim 1, further comprising a housing that encloses the rotor, the stator, and the one or more fluid flow passages, wherein an exterior surface of the exhaust sump forms a portion of the housing, and wherein one or more external heat sinks are an integral part of or are applied directly to the exterior surface of the exhaust sump that forms the portion of the housing. 3. The electric machine of claim 2, wherein the cooling fins are oriented in a direction substantially parallel with an orientation of one or more outlets of the exhaust sump. 4. The electric machine of claim 1, wherein at least one of the fluid flow passages directs fluid to contact the rotor or the stator. 5. The electric machine of claim 1, wherein the fluid flow passages are liquid flow passages and the fluid within the exhaust sump is a liquid. 6. The electric machine of claim 5, wherein the exhaust sump functions as a liquid-to-gas heat exchanger. 7. The electric machine of claim 5, wherein the exhaust sump functions as a liquid-to-liquid heat exchanger. 8. The electric machine of claim 1, wherein the exhaust sump does not comprise an outlet through which the fluid exits the machine, and the fluid within the exhaust sump is recirculated within the machine. 9. The electric machine of claim 1, wherein the exhaust sump comprises one or more outlets through which the fluid exits the machine without being recirculated back to the machine. 10. The electric machine of claim 9, wherein the exhaust sump is shaped to funnel the fluid toward the one or more outlets. 11. The electric machine of claim 1, wherein a fluid flows over one or more exterior surfaces of the exhaust sump. 12. A method for cooling an electric machine comprising: providing a rotor fixed to a rotatable shaft and supported by one or more bearings;providing a stator stationary in relation to the rotatable shaft with a gap between the rotor and the stator; andproviding one or more fluid flow passages within the machine, wherein at least one fluid flow passage directs fluid to contact the one or more bearings, wherein the at least one fluid flow passage is in fluid communication with an exhaust sump, and wherein the exhaust sump functions as a heat exchanger configured to: (i) collect a volume of fluid within the exhaust sump prior to exiting the electric machine through one or more outlets, wherein at least one of the outlets is in fluid communication with a recirculation pump; and(ii) cool the volume of fluid remained in the exhaust sump for a period of time via one or more cooling fins, thereby reducing the operating temperature requirement of the recirculation pump. 13. The method of claim 12, further comprising providing a housing that encloses the rotor, the stator, and the one or more fluid flow passages, wherein an exterior surface of the exhaust sump forms a portion of the housing, and wherein one or more external heat sinks are an integral part of or are applied directly to the exterior surface of the exhaust sump that forms the portion of the housing. 14. The method of claim 12, wherein the cooling fins are oriented in a direction substantially parallel with an orientation of the one or more outlets. 15. The method of claim 12, wherein at least one of the fluid flow passages directs fluid to contact the rotor or the stator. 16. The method of claim 12, wherein the fluid flow passages are liquid flow passages and the fluid within the exhaust sump is a liquid. 17. The method of claim 16, wherein the exhaust sump functions as a liquid-to-gas heat exchanger. 18. The method of claim 16, wherein the exhaust sump functions as a liquid-to-liquid heat exchanger. 19. The method of claim 12, wherein the exhaust sump does not comprise an outlet through which the fluid exits the machine, and the fluid within the exhaust sump is recirculated within the machine. 20. The method of claim 12, wherein the exhaust sump comprises one or more outlets through which the fluid exits the machine without being recirculated back to the machine. 21. The method of claim 12, further comprising collecting the fluid within the exhaust sump for a period of time without allowing the fluid to exit for the period of time; and subsequently permitting the fluid to exit the exhaust sump at various rates or intervals. 22. The method of claim 12, wherein a fluid flows over one or more exterior surfaces of the exhaust sump.
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