A control apparatus and method for a hybrid vehicle that judges whether the vehicle is running on a congested road based on an output from a sensor, causes a take-off from a first state where a gear ratio of an automatic transmission is large at a time of taking-off when running on a congested road,
A control apparatus and method for a hybrid vehicle that judges whether the vehicle is running on a congested road based on an output from a sensor, causes a take-off from a first state where a gear ratio of an automatic transmission is large at a time of taking-off when running on a congested road, causes the take-off from a second state where the gear ratio of the automatic transmission is small at the time of taking-off when not running on the congested road and replenishes, by driving a motor/generator, a part of an under torque of the driving source created by taking-off from a state where the gear ratio of the automatic transmission is large, when a temporary high acceleration take-off request is made while a judgment of congested road running is maintained.
대표청구항▼
1. A control apparatus for a hybrid vehicle with an internal combustion engine and a motor/generator connected to the internal combustion engine used as a driving source, an automatic transmission connected to the driving source, axles connected to the automatic transmission, and a sensor for detect
1. A control apparatus for a hybrid vehicle with an internal combustion engine and a motor/generator connected to the internal combustion engine used as a driving source, an automatic transmission connected to the driving source, axles connected to the automatic transmission, and a sensor for detecting a running state of the vehicle, comprising:a controller that:judges whether the vehicle is running on a congested road based on an output from the sensor;causes a take-off from a first state where a gear ratio of the automatic transmission is large at a time of taking-off when running on the congested road;causes the take-off from a second state where the gear ratio of the automatic transmission is small at the time of taking-off when not running on the congested road; andreplenishes, by driving the motor/generator, a part of an under torque of the driving source created by taking-off from a state where the gear ratio of the automatic transmission is large, when a temporary high acceleration take-off request is made while a judgment of congested road running is maintained. 2. The control apparatus of the hybrid vehicle according to claim 1, wherein the controller maintains the judgment of congested road running based on a development of a temporary acceleration take-off state during congested road running. 3. The control apparatus of the hybrid vehicle according to claim 1, wherein the controller has a first output map of the motor/generator associated with a throttle angle and determines a torque to replenish by driving the motor/generator based on the output map. 4. The control apparatus of the hybrid vehicle according to claim 3, wherein the first output map has a second output map of the motor/generator associated with the throttle angle and a vehicle speed. 5. The control apparatus of the hybrid vehicle according to claim 3, wherein the first output map has a third output map of the motor/generator associated with the throttle angle and a motor revolution. 6. The control apparatus of the hybrid vehicle according to claim 1, wherein the controller shifts an actuating condition of the internal combustion engine to a high vehicle speed side while the judgment of congested road running is maintained. 7. The control apparatus of the hybrid vehicle according to claim 1, wherein the automatic transmission is an automatic stepped transmission which has a plurality of friction engagement elements and a gear mechanism forming a plurality of shift speeds shifting input rotation based on an engagement state of the friction engagement elements and differentiates a gear ratio by switching the shift speeds. 8. The control apparatus of the hybrid vehicle according to claim 1, wherein the automatic transmission is an automatic continuously variable transmission which has a pair of pulleys and a power transmission belt held tight by the pulleys and differentiates a gear ratio based on a pulley width of the pulleys. 9. A hybrid vehicle, comprising:an internal combustion engine;a motor/generator connected to the internal combustion engine, wherein the internal combustion engine and the motor/generator are used as a driving source;an automatic transmission connected to the driving source;axles connected to the automatic transmissions;a sensor for detecting a running state of the vehicle; anda controller that:judges whether the vehicle is running on a congested road based on an output from the sensor;causes the automatic transmission to perform normal shifting at a time of take-off by the internal combustion engine; andconsequently causes a regenerating operation by driving the motor/generator with extra torque produced from the internal combustion engine at the time of take-off, for a case in which when the vehicle is running on the congested road. 10. The hybrid vehicle according to claim 9, wherein the controller disables control to stop the internal combustion engine when the vehicle stops when the vehicle is running on the congested road. 11. The hybrid vehicle according to claim 9, further comprising:a state of charge monitoring device which monitors a state of charge of the battery, wherein the controller causes the automatic transmission to perform normal shifting and causes regeneration when the state of charge is less than a specified value. 12. The hybrid vehicle according to claim 9, wherein the automatic transmission is an automatic stepped transmission which has a plurality of friction engagement elements and a gear mechanism forming a plurality of shift speeds that shift input rotation based on an engagement state of the friction engagement elements and differentiates a gear ratio by switching the shift speeds. 13. The hybrid vehicle according to claim 9, wherein the automatic transmission is an automatic continuously variable transmission which has a pair of pulleys and a power transmission belt held tight by the pulleys and differentiates a gear ratio based on a pulley width of the pulleys. 14. The hybrid vehicle according to claim 9,wherein the controller:judges whether the internal combustion engine and the automatic transmission are in a warming-up state;executes a normal shifting operation and a regenerating operation when the vehicle takes-off during congested road running when the internal combustion engine and the automatic transmission in a warming-up state; andexecutes an operation of taking off from a state where a gear ratio of the automatic transmission is large and replenishing under torque when the vehicle takes-off during congested road running when the internal combustion engine and automatic transmission in a normal running state. 15. The hybrid vehicle according to claim 14, controller judges from at least one of an oil temperature and water temperature of the internal combustion engine and an oil temperature of the automatic transmission whether the internal combustion engine and automatic transmission are in the warming-up state. 16. The hybrid vehicle according to claim 14, wherein the automatic transmission is an automatic stepped transmission which has a plurality of friction engagement elements and a gear mechanism forming a plurality of shift speeds that shift input rotation based on an engagement state of the friction engagement elements and differentiates a gear ratio by switching the shift speeds. 17. The hybrid vehicle according to claim 14, wherein the automatic transmission is an automatic continuously variable transmission which has a pair of pulleys and a power transmission belt held tight by the pulleys and differentiates a gear ratio based on a pulley width of the pulleys. 18. The hybrid vehicle according to claim 9, wherein the controller:judges a state of charge of a battery driving the motor/generator;executes a normal shifting operation and a regenerating operation when the vehicle takes-off during congested road running when the state of charge of the battery is equal to or less than a defined value; andexecutes an operation of taking off from a state where a gear ratio of the automatic transmission is large and replenishing under torque when the vehicle takes-off during congested road running in the case of when the state of charge of the battery is equal to or more than the defined value. 19. The hybrid vehicle according to claim 18, wherein the automatic transmission is an automatic stepped transmission which has a plurality of friction engagement elements and a gear mechanism forming a plurality of shift speeds shifting input rotation based on an engagement state of the friction engagement elements and differentiates a gear ratio by switching the shift speeds. 20. The hybrid vehicle according to claim 18, wherein the automatic transmission is an automatic continuously variable transmission which has a pair of pulleys and a power transmission belt held tight by the pulleys and differentiates a gear ratio based on a pulley width of the pulleys. 21. A method of operating a hybrid vehicle with an internal comb ustion engine and a motor/generator connected to the internal combustion engine used as a driving source, an automatic transmission connected to the driving source, axles connected to the automatic transmission, and a sensor for detecting a running state of the vehicle, comprising:judging whether the vehicle is running on a congested road based on an output from the sensor;causing a take-off from a first state where a gear ratio of the automatic transmission is large at a time of taking-off when running on the congested road;causing the take-off from a second state where the gear ratio of the automatic transmission is small at the time of taking-off when not running on the congested road; andreplenishing, by driving the motor/generator, a part of an under torque of the driving source created by taking-off from a state where the gear ratio of the automatic transmission is large, when a temporary high acceleration take-off request is made while a judgment of congested road running is maintained. 22. A method of operating a hybrid vehicle with an internal combustion engine, a motor/generator connected to the internal combustion engine wherein the internal combustion engine and the motor/generator are used as a driving source, an automatic transmission connected to the driving source, axles connected to the automatic transmission, and a sensor for detecting a running state of the vehicle, comprising:judging whether the vehicle is running on a congested road based on an output from the sensor;causing the automatic transmission to perform normal shifting at a time of take-off by the internal combustion engine; andcausing, consequently, a regenerating operation by driving the motor/generator with extra torque produced from the internal combustion engine at the time of take-off, for a case in which when the vehicle is running on the congested road.
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이 특허에 인용된 특허 (4)
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