IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0671129
(2008-08-08)
|
등록번호 |
US-8251865
(2012-08-28)
|
우선권정보 |
DE-10 2007 038 774 (2007-08-16) |
국제출원번호 |
PCT/EP2008/060442
(2008-08-08)
|
§371/§102 date |
20100128
(20100128)
|
국제공개번호 |
WO2009/021915
(2009-02-19)
|
발명자
/ 주소 |
- Kaltenbach, Johannes
- Wallner, Stefan
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
4 인용 특허 :
32 |
초록
▼
A method of carrying out a shift under load during hybrid operation in a parallel hybrid vehicle in which the speed adaptation of the electric machine and the internal combustion engine, required for synchronization to the new gear, is carried out by adapting the speed of the electric machine in a s
A method of carrying out a shift under load during hybrid operation in a parallel hybrid vehicle in which the speed adaptation of the electric machine and the internal combustion engine, required for synchronization to the new gear, is carried out by adapting the speed of the electric machine in a speed regulation mode.
대표청구항
▼
1. A method of carrying out a shift under load during hybrid operation in a parallel hybrid vehicle, the method comprising the steps of: adjusting a transmission capacity of a new clutch (K_neu) to be engaged to take up the load and, at the same time, adjusting a transmission capacity of an old clut
1. A method of carrying out a shift under load during hybrid operation in a parallel hybrid vehicle, the method comprising the steps of: adjusting a transmission capacity of a new clutch (K_neu) to be engaged to take up the load and, at the same time, adjusting a transmission capacity of an old clutch (K_alt) to be disengaged;carrying out speed adaptation of an electric machine (2) and an internal combustion engine (1), required for synchronization to a new gear, by adapting a speed of the electric machine (2) in a speed regulation mode: andonly acting upon the internal combustion engine (1) if the electric machine (2) cannot supply sufficient torque to comply with the desired speed adaptation or nominal speed variation. 2. The method of carrying out a load shift according to claim 1, further comprising the step of designing the speed variation such that the speed (n_EM) of the electric machine (2) approaches a target speed (n_Gang_neu) with a low gradient. 3. The method of carrying out a load shift according to claim 2, further comprising the step of having torques of shift elements (K_alt, K_neu) and a torque of the internal combustion engine (1), acting on the electric machine (2), serve as a pre-control for the speed regulation of the electric machine (2). 4. The method of carrying out a load shift according to claim 3, further comprising the step of returning the electric machine (2) to a torque-controlled mode and completely engaging a shift element (K_neu) when the speed (n_EM) of the electric machine (2) reaches either the target speed or a synchronous speed (n_Gang_neu) of the gear to be engaged. 5. The method of carrying out a load shift according to claim 1, further comprising the steps of increasing, in a traction upshift, the transmission capacity of a new clutch (K_neu) to be engaged to take up the load and, at the same time, reducing the transmission capacity of an old clutch (K_alt) to be disengaged; andchanging the electric machine (2) to a speed regulation mode, when the load has been taken up by the new clutch (K_neu) being engaged;adapting the speed of the electric machine (2) so as to reach the synchronous speed of the gear to be engaged, such that under speed regulation, the electric machine (2) is adjusted to either a target speed or a synchronous speed of the new gear and, at the same time, the old clutch (K_alt) being disengaged is disengaged completely. 6. The method of carrying out a load shift according to claim 1, further comprising the steps of reducing, in a traction downshift, the transmission capacity of the shift element (K_alt) to be disengaged;changing the electric machine (2) from a torque-controlled mode to a speed regulation mode as soon as slip is detected in the shift element (K_alt) being disengaged, in which the speed of the electric machine (2) is increased to a speed higher than a synchronous speed of the shift element (K_neu) to be engaged; andincreasing the transmission capacity of the shift element (K_neu) to be engaged and reducing further the transmission capacity of the shift element (K_alt) being disengaged, such that a continuous load uptake by the shift element (K_neu) being engaged takes place; and on completion of load uptake by the shift element (K_neu) being engaged, completely disengaging the shift element (K_alt) being disengaged and adjusting the speed of the electric machine (2) to the synchronous speed of the shift element (K_neu) being engaged. 7. The method of carrying out a load shift according to claim 1, further comprising the step of: increasing, in a thrust downshift, the transmission capacity of the shift element (K_neu) to be engaged and, at the same time, reducing the transmission capacity of the clutch (K_alt) to be disengaged;changing the electric machine (2) from the torque-controlled mode to a speed regulation mode after load uptake by the shift element (K_neu) being engaged and substantially disengaging the shift element (K_alt) being disengaged; andadjusting the electric machine (2) under the speed regulation mode to a synchronous speed and, at the same time, completely disengaging the shift element (K_alt) being disengaged. 8. The method of carrying out a load shift according to claim 1, further comprising the steps of: continuously reducing, in a thrust upshift, the transmission capacity of the shift element (K_alt) to be disengaged;changing the electric machine (2) from a torque-controlled mode to a speed regulation mode as soon as slip is detected at the shift element (K_alt) being disengaged, in which the of the electric machine (2) speed is reduced to a value lower than a synchronous speed at the shift element (K_neu) to be engaged;increasing the transmission capacity of the shift element (K_neu) to be engaged and reducing the transmission capacity of the shift element (K_alt) being disengaged so that a continuous load uptake by the shift element (K_neu) to be engaged takes place; andcompletely disengaging the shift element (K_alt) being disengaged, on completion of the load uptake by the shift element (K_neu) being engaged, and adjusting the speed of the electric machine (2) in the speed regulation mode to the synchronous speed of the shift element (K_neu) being engaged. 9. A method of carrying out at least one of a thrust upshift and a traction downshift under load during hybrid operation in a parallel hybrid vehicle, the method comprising the steps of: initiating at least one of the thrust upshift and the traction downshiftadjusting a transmission capacity of a new clutch (K_neu) to be engaged to take up the load, the new clutch corresponding to a new gear to be engaged and, at the same time, adjusting a transmission capacity of an old clutch (K_alt) to be disengaged, the old clutch corresponding to an old gear to be disengaged;carrying out speed adaptation of an electric machine (2) and an internal combustion engine (1), required for synchronization to the new gear, by adapting a speed of the electric machine (2) in a speed regulation mode; andonly acting upon the internal combustion engine (1) if the electric machine (2) cannot supply sufficient torque to comply with the desired speed adaptation or nominal speed variation.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.