A hybrid vehicle comprises an engine 2, a motor generator 4, a torque converter 6 with a lock-up clutch 5, and a ratio-change mechanism 7. A control system for the hybrid vehicle comprises a rotational sensor 22, which detects the slip ratio of the torque converter, and a hydraulic control valve 12,
A hybrid vehicle comprises an engine 2, a motor generator 4, a torque converter 6 with a lock-up clutch 5, and a ratio-change mechanism 7. A control system for the hybrid vehicle comprises a rotational sensor 22, which detects the slip ratio of the torque converter, and a hydraulic control valve 12, which controls the engagement of the lock-up clutch. While the vehicle is moving along with the accelerator pedal being released from its stepped down condition, a driving force from the wheels is transmitted to the motor generator 4 for energy regeneration. If the slip ratio of the torque converter is equal to or smaller than a first threshold value, then only the lock-up clutch is controlled into engagement. However, if the slip ratio is between the first threshold value and a second threshold value, then additionally the motor generator is controlled in cooperative operation.
대표청구항▼
1. A control system for a hybrid vehicle that comprises an engine, a motor generator, a torque converter with a lock-up clutch and a ratio-change mechanism and that is driven by a driving force being transmitted from at least one of said engine and said motor generator through said torque converter
1. A control system for a hybrid vehicle that comprises an engine, a motor generator, a torque converter with a lock-up clutch and a ratio-change mechanism and that is driven by a driving force being transmitted from at least one of said engine and said motor generator through said torque converter and said ratio-change mechanism to wheels; said control system comprising:slip-detecting means, which detects a slip ratio of said torque converter; andlock-up-controlling means, which controls engagement of said lock-up clutch;wherein:while said hybrid vehicle is moving along with an accelerator pedal being released from a stepped down condition;a driving force from said wheels is transmitted through said ratio-change mechanism and said torque converter to said motor generator for energy regeneration;if the slip ratio of said torque converter detected by said slip-detecting means is larger than a first threshold value and equal to or smaller than a second threshold value, which is greater than said first threshold value by a predetermined value, then an engagement control of said lock-up clutch is initiated whereby said lock-up clutch is controlled into engagement only by said lock-up-controlling means while said motor generator is being operated by said control system in cooperative operation for reducing said slip ratio; andif the slip ratio of said torque converter detected by said slip-detecting means is larger than the second threshold value, the cooperative operation of said motor generator is terminated and control of said lock-up clutch into engagement by said lock-up-controlling means is terminated. 2. The control system as set forth in claim 1, wherein: after the cooperative operation control of said motor generator and the engagement control of said lock-up clutch are initiated, if the slip ratio of said torque converter becomes equal to or smaller than a third threshold value, which is smaller than said first threshold value, then the cooperative operation of said motor generator is terminated, and said lock-up clutch is controlled into engagement by said lock-up-controlling means. 3. The control system as set forth in claim 2, wherein: after the cooperative operation control of said motor generator and the engagement control of said lock-up clutch are initiated, if the slip ratio of said torque converter, which is detected by said slip-detecting means, continues to remain in the range between said third threshold value and said second threshold value beyond a predetermined time period, then only the cooperative operation of said motor generator is terminated. 4. The control system as set forth in claim 3, wherein: while said hybrid vehicle is moving along with said accelerator pedal being released from a stepped down condition, if the cooperative operation of said motor generator is to be terminated, then a driving torque of said motor generator is controlled to come to a target torque value. 5. The control system as set forth in claim 1, wherein: while said hybrid vehicle is moving along with said accelerator pedal being released from a stepped down condition, if the cooperative operation of said motor generator is to be terminated, then a driving torque of said motor generator is controlled to come to a target torque value. 6. The control system as set forth in claim 1, wherein: while said hybrid vehicle is moving along with said accelerator pedal being released from a stepped down condition and with said motor generator being operated in cooperation, if said accelerator pedal is stepped down, then the cooperative operation of said motor generator and the engagement of said lock-up clutch are terminated, and a driving torque of said motor generator is controlled to come to a target torque value.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (8)
Hoshiya, Kazumi; Nakawaki, Yasunori; Iwatsuki, Kunihiro; Oshiumi, Yasuhiro, Control apparatus for power train including continuously variable transmission.
Wang, Xiaoyong; Johri, Rajit; Yamazaki, Mark Steven; Doering, Jeffrey Allen; Kuang, Ming Lang; Liang, Wei, Hybrid/electric vehicle motor control during step-ratio transmission engagement.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.