IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0448829
(2012-04-17)
|
등록번호 |
US-8591361
(2013-11-26)
|
우선권정보 |
JP-2011-094322 (2011-04-20) |
발명자
/ 주소 |
- Hisada, Hideki
- Takami, Shigeki
- Yoshida, Masaki
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
9 인용 특허 :
10 |
초록
▼
A vehicle drive device includes an input coupled to an internal combustion engine; an output coupled to wheels; first and second rotary electric machines; a differential including at least three rotary elements; a control; and an engagement device. The control determines, when engine stop conditions
A vehicle drive device includes an input coupled to an internal combustion engine; an output coupled to wheels; first and second rotary electric machines; a differential including at least three rotary elements; a control; and an engagement device. The control determines, when engine stop conditions are established while the engagement device is drivably connected, the engine is operating, and the output member is rotating, whether rotation of the first electric machine when stop conditions are established is opposite to rotation of the first electric machine when rotation of the engine stops; executes torque control where the first electric machine outputs torque to reduce the rotational speed of the engine when the stop establishing rotational direction is opposite to the subject rotational direction; and issues a command to release the drivable connection when the rotational speed of the first electric machine falls within a rotational speed range that includes zero.
대표청구항
▼
1. A vehicle drive device comprising: an input member drivably coupled to an internal combustion engine; an output member drivably coupled to wheels; a first rotary electric machine; a second rotary electric machine; a differential gear device including at least three rotary elements; a control devi
1. A vehicle drive device comprising: an input member drivably coupled to an internal combustion engine; an output member drivably coupled to wheels; a first rotary electric machine; a second rotary electric machine; a differential gear device including at least three rotary elements; a control device; and an engagement device, wherein the input member, the output member, and the first rotary electric machine are drivably coupled to different rotary elements of the differential gear device via no other rotary element of the differential gear device,the second rotary electric machine is drivably coupled to one of the rotary elements of the differential gear device other than the rotary element to which the first rotary electric machine is drivably coupled, via no other rotary element of the differential gear device,the engagement device is capable of releasing drivable connection between one of the input member, the output member, and the first rotary electric machine and the corresponding rotary element of the differential gear device, andthe control device includes a rotational direction determination section that, when internal combustion engine stop conditions for stopping the internal combustion engine are established in a state in which the drivable connection made by the engagement device is maintained, the internal combustion engine is in operation, and the output member is rotating, determines whether or not a stop condition establishing rotational direction, which is a rotational direction of the first rotary electric machine at the time when the internal combustion engine stop conditions are established, is opposite to a subject rotational direction, which is a rotational direction of the first rotary electric machine at an operation point at which a rotational speed of the internal combustion engine becomes zero,a rotation reducing torque control section that executes rotation reducing torque control in which the first rotary electric machine is caused to output rotation reducing torque in a direction to reduce the rotational speed of the internal combustion engine on condition that it is determined that the stop condition establishing rotational direction is opposite to the subject rotational direction, anda connection release command section that issues a command to release the drivable connection made by the engagement device on condition that the rotational speed of the first rotary electric machine falls within a connection release rotational speed range set so as to include zero. 2. The vehicle drive device according to claim 1, wherein the connection release command section issues the command to release the drivable connection made by the engagement device before the rotational direction of the first rotary electric machine becomes the same as the subject rotational direction. 3. The vehicle drive device according to claim 2, wherein the rotation reducing torque control section stops the rotation reducing torque control before the rotational direction of the first rotary electric machine becomes the same as the subject rotational direction. 4. The vehicle drive device according to claim 3, wherein the control device executes fluctuation suppressing control in which the second rotary electric machine is caused to output fluctuation suppressing torque for suppressing torque fluctuations to be transferred to the output member via the differential gear device because of variations in state of operation of the first rotary electric machine or variations in state of engagement of the engagement device. 5. The vehicle drive device according to claim 4, wherein the second rotary electric machine is drivably coupled to the rotary element of the differential gear device to which the output member is drivably coupled, via no other rotary element of the differential gear device. 6. The vehicle drive device according to claim 5, wherein the differential gear device includes three rotary elements that are a first rotary element, a second rotary element, and a third rotary element in the order of rotational speed,the first rotary electric machine is drivably coupled to the first rotary element, the input member is drivably coupled to the second rotary element, and the second rotary electric machine and the output member are drivably coupled to the third rotary element, via no other rotary element of the differential gear device, andthe engagement device is provided on a power transfer path between the input member and the second rotary element. 7. The vehicle drive device according to claim 1, wherein the second rotary electric machine is drivably coupled to one of the rotary elements of the differential gear device other than the rotary element to which the first rotary electric machine is drivably coupled or the rotary element to which the output member is drivably coupled, via no other rotary element of the differential gear device, andthe engagement device is provided on a power transfer path between the input member and the rotary element of the differential gear device to which the input member is drivably coupled via no other rotary element. 8. The vehicle drive device according to claim 1, wherein the control device executes fluctuation suppressing control in which the second rotary electric machine is caused to output fluctuation suppressing torque for suppressing torque fluctuations to be transferred to the output member via the differential gear device because of variations in state of operation of the first rotary electric machine or variations in state of engagement of the engagement device. 9. The vehicle drive device according to claim 1, wherein the second rotary electric machine is drivably coupled to the rotary element of the differential gear device to which the output member is drivably coupled, via no other rotary element of the differential gear device. 10. The vehicle drive device according to claim 1, wherein the differential gear device includes three rotary elements that are a first rotary element, a second rotary element, and a third rotary element in the order of rotational speed,the first rotary electric machine is drivably coupled to the first rotary element, the input member is drivably coupled to the second rotary element, and the second rotary electric machine and the output member are drivably coupled to the third rotary element, via no other rotary element of the differential gear device, andthe engagement device is provided on a power transfer path between the input member and the second rotary element. 11. The vehicle drive device according to claim 2, wherein the control device executes fluctuation suppressing control in which the second rotary electric machine is caused to output fluctuation suppressing torque for suppressing torque fluctuations to be transferred to the output member via the differential gear device because of variations in state of operation of the first rotary electric machine or variations in state of engagement of the engagement device. 12. The vehicle drive device according to claim 2, wherein the second rotary electric machine is drivably coupled to the rotary element of the differential gear device to which the output member is drivably coupled, via no other rotary element of the differential gear device. 13. The vehicle drive device according to claim 2, wherein the differential gear device includes three rotary elements that are a first rotary element, a second rotary element, and a third rotary element in the order of rotational speed,the first rotary electric machine is drivably coupled to the first rotary element, the input member is drivably coupled to the second rotary element, and the second rotary electric machine and the output member are drivably coupled to the third rotary element, via no other rotary element of the differential gear device, andthe engagement device is provided on a power transfer path between the input member and the second rotary element. 14. The vehicle drive device according to claim 2, wherein the second rotary electric machine is drivably coupled to one of the rotary elements of the differential gear device other than the rotary element to which the first rotary electric machine is drivably coupled or the rotary element to which the output member is drivably coupled, via no other rotary element of the differential gear device, andthe engagement device is provided on a power transfer path between the input member and the rotary element of the differential gear device to which the input member is drivably coupled via no other rotary element. 15. The vehicle drive device according to claim 3, wherein the second rotary electric machine is drivably coupled to the rotary element of the differential gear device to which the output member is drivably coupled, via no other rotary element of the differential gear device. 16. The vehicle drive device according to claim 3, wherein the differential gear device includes three rotary elements that are a first rotary element, a second rotary element, and a third rotary element in the order of rotational speed,the first rotary electric machine is drivably coupled to the first rotary element, the input member is drivably coupled to the second rotary element, and the second rotary electric machine and the output member are drivably coupled to the third rotary element, via no other rotary element of the differential gear device, andthe engagement device is provided on a power transfer path between the input member and the second rotary element. 17. The vehicle drive device according to claim 3, wherein the second rotary electric machine is drivably coupled to one of the rotary elements of the differential gear device other than the rotary element to which the first rotary electric machine is drivably coupled or the rotary element to which the output member is drivably coupled, via no other rotary element of the differential gear device, andthe engagement device is provided on a power transfer path between the input member and the rotary element of the differential gear device to which the input member is drivably coupled via no other rotary element. 18. The vehicle drive device according to claim 8, wherein the second rotary electric machine is drivably coupled to the rotary element of the differential gear device to which the output member is drivably coupled, via no other rotary element of the differential gear device. 19. The vehicle drive device according to claim 18, wherein the differential gear device includes three rotary elements that are a first rotary element, a second rotary element, and a third rotary element in the order of rotational speed,the first rotary electric machine is drivably coupled to the first rotary element, the input member is drivably coupled to the second rotary element, and the second rotary electric machine and the output member are drivably coupled to the third rotary element, via no other rotary element of the differential gear device, andthe engagement device is provided on a power transfer path between the input member and the second rotary element. 20. The vehicle drive device according to claim 8, wherein the second rotary electric machine is drivably coupled to one of the rotary elements of the differential gear device other than the rotary element to which the first rotary electric machine is drivably coupled or the rotary element to which the output member is drivably coupled, via no other rotary element of the differential gear device, andthe engagement device is provided on a power transfer path between the input member and the rotary element of the differential gear device to which the input member is drivably coupled via no other rotary element.
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