Thermal management system for use with an integrated motor assembly
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H02K-009/00
H02K-009/19
H02K-009/22
H02K-009/20
H02K-005/20
H02K-007/00
H02K-011/00
B60L-001/00
B60L-003/00
B60L-011/00
B60L-011/18
출원번호
US-0326463
(2011-12-15)
등록번호
US-9030063
(2015-05-12)
발명자
/ 주소
Rawlinson, Peter Dore
Sampson, Nicholas John
Kalayjian, Nicholas Robert
Johnston, Vincent George
Nelson, David Fred
Pinkley, Gary Allen
de Bruijn, Wulfer Adrijan
Dettmann, Benjamin David
Verzeni, Nicolas
Kubba, Michael Raj
Pearce, Jr., Edwin M.
Robbins, Jim
출원인 / 주소
Tesla Motors, Inc.
대리인 / 주소
Soderberg, J. Richard
인용정보
피인용 횟수 :
3인용 특허 :
8
초록▼
An integrated drive system assembly is provided that combines an electric motor, a power inverter assembly and a gearbox into a single, multi-piece enclosure. Combining these components into a single enclosure reduces weight, reduces drive system complexity, reduces system volume, simplifies assembl
An integrated drive system assembly is provided that combines an electric motor, a power inverter assembly and a gearbox into a single, multi-piece enclosure. Combining these components into a single enclosure reduces weight, reduces drive system complexity, reduces system volume, simplifies assembly integration into an electric vehicle, reduces manufacturing cost, allows the flexible and lengthy electrical cables between the power inverter and the electric motor to be replaced with short, low loss, rigid bus bars, and simplifies component cooling by allowing the use of a common thermal management system, i.e., a mutual thermal management system. The common thermal management system includes a liquid coolant loop that is thermally coupled to the electric motor, the power inverter assembly and the gearbox.
대표청구항▼
1. An integrated drive system assembly of an electric vehicle, comprising: a single, multi-piece enclosure;an electric motor disposed within said single, multi-piece enclosure;a power inverter assembly operable to convert DC current supplied by an energy storage system of said electric vehicle to AC
1. An integrated drive system assembly of an electric vehicle, comprising: a single, multi-piece enclosure;an electric motor disposed within said single, multi-piece enclosure;a power inverter assembly operable to convert DC current supplied by an energy storage system of said electric vehicle to AC current capable of operating said electric motor, wherein said power inverter assembly is disposed within said single, multi-piece enclosure;a gearbox disposed within said single, multi-piece enclosure and coupled to said electric motor, wherein said electric motor is coupled to a drive train of said electric vehicle via said gearbox, and wherein said electric motor provides propulsive power to said electric vehicle; anda mutual thermal management system coupled to said integrated drive system assembly and comprised of a liquid coolant loop containing a liquid coolant, wherein said liquid coolant loop is thermally coupled to said electric motor, said power inverter assembly and said gearbox. 2. The integrated drive system assembly of claim 1, said liquid coolant loop further comprising a plurality of stator coolant channels, a gearbox coolant plate, and at least one inverter cold plate. 3. The integrated drive system assembly of claim 1, wherein said liquid coolant loop is coupled to said integrated drive system assembly via a single coolant inlet and a single coolant outlet. 4. The integrated drive system assembly of claim 3, wherein after said single coolant inlet said mutual thermal management system is configured to split said liquid coolant loop into a first coolant flow path and a second coolant flow path, wherein said liquid coolant within said first coolant flow path flows through an electric motor rotor and a gearbox coolant plate before passing through said single coolant outlet, and wherein said liquid coolant within said second coolant flow path flows through a plurality of stator coolant channels and at least one inverter cold plate before passing through said single coolant outlet. 5. The integrated drive system assembly of claim 4, wherein said at least one inverter cold plate is comprised of three drive inverter phase cold plates. 6. The integrated drive system assembly of claim 4, wherein said mutual thermal management system directs approximately 20% of said liquid coolant entering said integrated drive system assembly via said single coolant inlet through said first coolant flow path and directs approximately 80% of said liquid coolant entering said integrated drive system assembly via said single coolant inlet through said second coolant flow path. 7. The integrated drive system assembly of claim 4, wherein said plurality of stator coolant channels are mechanically and thermally coupled to an outer housing member of a motor stator corresponding to said electric motor. 8. The integrated drive system assembly of claim 4, wherein said liquid coolant within said second coolant flow path passes through an internal stator to inverter coolant passageway, wherein said internal stator to inverter coolant passageway is interposed between said plurality of stator coolant channels and said at least one inverter cold plate. 9. The integrated drive system assembly of claim 8, further comprising a coolant manifold within said power inverter assembly, wherein said liquid coolant flows through said internal stator to inverter coolant passageway before flowing into said coolant manifold, wherein said coolant manifold is comprised of a plurality of coolant inlet and outlet pairs, and wherein said liquid coolant flows through said plurality of coolant inlet and outlet pairs into and out of said at least one inverter cold plate. 10. The integrated drive system assembly of claim 1, further comprising a plurality of solid metal bus bars electrically connecting a power inverter output of said power inverter assembly to an electric motor power input of said electric motor, wherein said plurality of solid metal bus bars are disposed within said single, multi-piece enclosure. 11. The integrated drive system assembly of claim 10, wherein each of said plurality of solid metal bus bars is comprised of a solid copper conductor. 12. The integrated drive system assembly of claim 10, wherein each of said plurality of solid metal bus bars is less than 20 centimeters long, less than 3 centimeters wide, and less than 0.7 centimeters thick. 13. The integrated drive system assembly of claim 1, further comprising a subframe structural member, wherein said integrated drive system assembly is attached to said subframe structural member via a pair of brackets attached to said single, multi-piece enclosure. 14. The integrated drive system assembly of claim 1, wherein said gearbox is a single speed, fixed gear gearbox, and wherein said gearbox is coupled to a first drive half shaft and a second drive half shaft. 15. The integrated drive system assembly of claim 1, wherein said energy storage system of said electric vehicle is comprised of a battery pack, wherein said battery pack is comprised of a plurality of electrically interconnected batteries. 16. The integrated drive system assembly of claim 1, wherein said electric motor is comprised of an AC motor.
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이 특허에 인용된 특허 (8)
Ngy Srun Ap FR, Cooling device for electric vehicle with fuel cell.
Nathenson Richard D. (Pittsburgh PA) Pipich Charles W. (Monroeville PA) Kopnitsky ; deceased Joseph R. (late of Trafford PA by Mary C. Kopnitsky ; executrix), Liquid cooling system for a hydrogenerator rotor.
Johnston, Vincent George; Baglino, Andrew David; Kohn, Scott Ira; Mehta, Vineet Haresh; Gadda, Christopher David; O'Donnell, Curt Raymond; de Bruijn, Wulfer Adrijn, Thermal management system with dual mode coolant loops.
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