IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0516835
(2006-09-07)
|
등록번호 |
US-7766107
(2010-08-24)
|
우선권정보 |
JP-2005-260028(2005-09-08) |
발명자
/ 주소 |
- Joe, Shinichiro
- Okuda, Tadashi
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
29 인용 특허 :
6 |
초록
▼
An engine of a hybrid vehicle is lift started by reducing a rotational speed of a motor/generator of the hybrid vehicle by adjusting a gearshift ratio of a transmission coupled to the motor/generator, and engaging a clutch to couple the engine, while in a stopped state, to the rotating motor/generat
An engine of a hybrid vehicle is lift started by reducing a rotational speed of a motor/generator of the hybrid vehicle by adjusting a gearshift ratio of a transmission coupled to the motor/generator, and engaging a clutch to couple the engine, while in a stopped state, to the rotating motor/generator for imparting the rotation to the engine.
대표청구항
▼
What is claimed is: 1. A drive device for a hybrid vehicle, comprising: an engine; a motor/generator; a first clutch disposed between the engine and the motor/generator having an adjustable torque capacity; a transmission disposed between the motor/generator and drive wheels of the hybrid vehicle t
What is claimed is: 1. A drive device for a hybrid vehicle, comprising: an engine; a motor/generator; a first clutch disposed between the engine and the motor/generator having an adjustable torque capacity; a transmission disposed between the motor/generator and drive wheels of the hybrid vehicle that can change a gearshift ratio continuously or in steps; and a control system that can control the engine, the motor/generator, the first clutch, and the transmission; wherein the control system comprises a controller adapted to engage the first clutch from a released state and lift-start the engine when there is a request to switch to a hybrid operation mode from an electric operation mode; and wherein lift-starting the engine, performed according to the controller, comprises adjusting a transmission input rotation speed by controlling a gearshift ratio of the transmission and engaging the first clutch after starting the adjusting when there exists both an upshift command for the transmission and the request to switch to the hybrid operation mode from the electric operation mode; and wherein lift-starting the engine, performed according to the controller, comprises engaging the first clutch and adjusting a transmission input rotation speed by controlling a gearshift ratio of the transmission after engaging the first clutch when there exists both a downshift command for the transmission and the request to switch to the hybrid operation mode from the electric operation mode. 2. The drive device for a hybrid vehicle according to claim 1, wherein lift-starting of the engine, performed according to the controller, reduces the transmission input rotation speed to a speed that is equal to or greater than a rotation speed that is possible to start the engine. 3. The drive device for a hybrid vehicle according to claim 1, wherein the controller up shifts the transmission and then completes the engagement of the first clutch while operating in the electric operation mode. 4. The drive device for a hybrid vehicle according to claim 1, wherein the controller compensates for a drag torque of the first clutch using the motor/generator when lift-starting the engine. 5. The drive device for a hybrid vehicle according to claim 1, wherein the controller further comprises a shift map showing a relationship between a gear shift and an operating state of the vehicle in which an upshift line and a downshift line, when a target mode is the electric operation mode, are set more toward the high vehicle speed side than the upshift line and downshift line for when the target mode is the hybrid operation mode in relation to the shift map. 6. The drive device for a hybrid vehicle according to claim 1, wherein the drive device for the hybrid vehicle comprises a second clutch disposed between the motor/generator and the transmission that can change a transfer torque capacity. 7. The drive device for a hybrid vehicle according to claim 1, wherein the drive device for the hybrid vehicle comprises a second clutch disposed between the transmission and drive wheels of the hybrid vehicle that can change a transfer torque capacity. 8. The drive device for a hybrid vehicle according to claim 3, wherein the controller raises a torque of the motor/generator in accordance with the upshift. 9. A drive device for a hybrid vehicle, comprising: an engine; a motor/generator; a first clutch disposed between the engine and the motor/generator having an adjustable torque capacity; a transmission disposed between the motor/generator and drive wheels of the hybrid vehicle that can change a gearshift ratio continuously or in steps; and a control system that can control the engine, the motor/generator, the first clutch, and the transmission; wherein the control system comprises a controller adapted to engage the first clutch from a released state and lift-start the engine when there is a gear shift request and when there is a request to switch to a hybrid operation mode from an electric operation mode; and wherein lift-starting the engine, performed according to the controller, comprises: engaging the first clutch before a gear shift when a transmission input rotation speed before the gear shift is lower than the transmission input rotation speed after the gear shift; and engaging the first clutch after the gear shift when the transmission input rotation speed before the gear shift is higher than the transmission input rotation speed after the gear shift. 10. The drive device for a hybrid vehicle according to claim 9, wherein the controller completes an upshift of the transmission in conjunction with an upshift request while operating in the electric operation mode, and then engages the first clutch and lift-starts the engine a drag torque of the first clutch. 11. The drive device for a hybrid vehicle according to claim 9, wherein the controller completes the lift-start of the engine while using a drag torque of the first clutch in conjunction with a downshift request while operating in the electric operation mode, and then starts the downshift of the transmission. 12. The drive device for a hybrid vehicle according to claim 9, wherein the controller compensates for a drag torque of the first clutch by using the motor/generator when lift-starting the engine. 13. The drive device for a hybrid vehicle according to claim 9, wherein the controller further comprises a shift map showing a relationship between a gear shift and an operating state of the vehicle in which an upshift line and a downshift line for when a target mode is the electric operation mode are set more toward a high vehicle speed side than the upshift line and downshift line for when the target mode is the hybrid operation mode in relation to the shift map. 14. The drive device for a hybrid vehicle according to claim 9, wherein the drive device for the hybrid vehicle comprises a second clutch disposed between the motor/generator and the transmission that can change a transfer torque capacity. 15. The drive device for a hybrid vehicle according to claim 9, wherein the drive device for the hybrid vehicle comprises a second clutch disposed between the transmission and drive wheels of the hybrid vehicle that can change a transfer torque capacity. 16. The drive device for a hybrid vehicle according to claim 10, wherein lift-starting the engine, performed according to the controller, upshifts so that the transmission input rotation speed is in a range that is the same or more than the rotation speed that is possible to start the engine. 17. The drive device for a hybrid vehicle according to claim 10, wherein the controller raises a torque of the motor/generator in accordance with the upshift.
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