초록 ▼

A control system for a drive unit of a vehicle, including a reaction force establishing device controlling a speed change ratio of a continuously variable transmission, and a clutch mechanism arranged on a power transmission route from the continuously variable transmission to a wheel and in which a

A control system for a drive unit of a vehicle, including a reaction force establishing device controlling a speed change ratio of a continuously variable transmission, and a clutch mechanism arranged on a power transmission route from the continuously variable transmission to a wheel and in which a torque capacity thereof is controllable. A first input torque control mechanism lowers a torque to be inputted to the clutch mechanism through the continuously variable transmission, by controlling a torque of the reaction force establishing device while the torque capacity of the clutch mechanism is being controlled. The system reduces a change in a torque inputted to a clutch mechanism, in case of carrying out a speed change operation of a continuously variable transmission and engaging the clutch mechanism.

대표청구항 ▼

The invention claimed is: 1. A control system for a drive unit of a vehicle, which has a reaction force establishing device controlling a speed change ratio of a continuously variable transmission, and a clutch mechanism which is arranged on a power transmission route from the continuously variable

The invention claimed is: 1. A control system for a drive unit of a vehicle, which has a reaction force establishing device controlling a speed change ratio of a continuously variable transmission, and a clutch mechanism which is arranged on a power transmission route from the continuously variable transmission to a wheel and in which a torque capacity thereof is controllable, comprising: a first input torque control means for lowering a torque to be inputted to the clutch mechanism through the continuously variable transmission, by controlling a torque of the reaction force establishing device while the torque capacity of the clutch mechanism is being controlled. 2. The control system for a drive unit of a vehicle as claimed in claim 1: wherein a prime mover is arranged on an input side of the clutch mechanism; comprising an inertia phase judging means for determining an inertia phase established as a result of controlling the torque capacity of the clutch mechanism; and wherein the first input torque control means includes a means for lowering the torque inputted to the input side of the clutch mechanism by controlling a torque of the prime mover before a commencement of the inertia phase, and a means for lowering the torque inputted to the clutch mechanism by lowering a reaction torque established by the reaction force establishing means once the inertia phase commences. 3. The control system for a drive unit of a vehicle as claimed in claim 2, wherein: an engine is connected to the input side of the continuously variable transmission; the reaction force establishing device functions as a first electric motor; the prime mover functions as a second electric motor; and the continuously variable transmission functions as an electrical continuously variable transmission; a transmission, in which a gear stage thereof is controlled by controlling the torque capacity of the clutch mechanism, is arranged on an output side of the electrical continuously variable transmission; the electrical continuously variable transmission comprises an input element, a reaction element and an output element capable of rotating differentially among each other; the input element is connected with the engine; the reaction element is connected with the first electric motor; the output element is connected with the second electric motor and the input side of the transmission; and speed change ratio of the electrical continuously variable transmission can be controlled steplessly by controlling an output of the first electric motor establishing an reaction force against the engine; and the inertia phase judging means includes a means for determining an inertia phase in the process of carrying out a shifting operation of the transmission while the engine torque is being transmitted to the transmission through the electrical continuously variable transmission. 4. The control system for a drive unit of a vehicle as claimed in claim 1, wherein: the first input torque control means includes a means starting a control for lowering the reaction torque established by the reaction force establishing device, in case the torque capacity of the clutch mechanism exceeds a torque inputted to the clutch mechanism. 5. The control system for a drive unit of a vehicle as claimed in claim 3, further comprising: a target input revolution calculating means for calculating a target input revolution of the transmission after a commencement of the inertia phase in the process of the shifting operation of the transmission; a first torque capacity control means obtaining a target torque capacity of the clutch mechanism to be engaged under the gear stage after the shifting operation of the transmission according to a change in the target input revolution, and then approximating an actual torque capacity of the clutch mechanism in the process of the shifting operation of the transmission to the target torque capacity; and an electric motor control means obtaining a target input revolution of the first electric motor in the process of the shifting operation of the transmission based on the target input revolution of the transmission and the target engine revolution, and approximating an actual input revolution of the first electric motor to the target input revolution of the first electric motor. 6. The control system for a drive unit of a vehicle as claimed in claim 5, comprising: an input torque calculating means for calculating a torque inputted to the transmission on the basis of a speed change ratio of the electrical continuously variable transmission and a correction value used for a feedback control of the torque of the first electric motor, after the commencement of the inertia phase in the process of a shifting operation of the transmission; and a second torque capacity control means for controlling the torque capacity of the clutch mechanism on the basis of the input torque of the transmission obtained from the correction value, in case of controlling the input revolution of the transmission after the commencement of the inertia phase in the process of the shifting operation of the transmission. 7. The control system for a drive unit of a vehicle as claimed in claim 3, further comprising: an electric power feeding device for exchanging electric power with the first and the second electric motors; and an electric power balance control means for controlling an output of the second electric motor on the basis of a balance of electric power in the electric power feeding device, in case of equalizing the engine power by reducing the reaction force established by the first electric motor after the commencement of the inertia phase in the transmission, and by controlling the second electric motor. 8. The control system for a drive unit of a vehicle as claimed in claim 3, further comprising: a second input torque control means for lowering a torque to be inputted to the transmission by lowering the torque of the second electric motor during the shifting operation of the transmission, in case the torque of the second electric motor is transmitted to the wheel but the torque of the engine is not transmitted to the wheel. 9. The control system for a drive unit of a vehicle as claimed in claim 5, further comprising: an engine revolution control means for reducing a change in the engine revolution in the process of a shifting operation of the transmission. 10. The control system for a drive unit of a vehicle as claimed in claim 1, wherein: a transmission is arranged on a route to which the power is outputted from the continuously variable transmission; the continuously variable transmission is constructed of an electrical continuously variable transmission in which a speed change ratio thereof is controlled electrically and varied continuously; and the transmission is constructed of a geared transmission in which a gear stage thereof is changed stepwise. 11. The control system for a drive unit of a vehicle as claimed in claim 10, wherein: the electrical continuously variable transmission and the geared transmission are connected in tandem so as to input power outputted from any one of those transmissions to the other one. 12. The control system for a drive unit of a vehicle as claimed in claim 10, wherein: a speed change ratio of the drive unit is set by both of the electrical continuously variable transmission and geared transmission. 13. The control system for a drive unit of a vehicle as claimed in claim 3, wherein: the electrical continuously variable transmission includes a planetary gear mechanism comprising a carrier functioning as the input element, a sun gear functioning as the reaction element, and a ring gear functioning the output element. 14. The control system for a drive unit of a vehicle as claimed in claim 3, wherein: the transmission is constructed of two sets of planetary gear mechanisms and a plurality of engagement devices, and the clutch mechanism includes the plurality of engagement devices. 15. The control system for a drive unit of a vehicle as claimed in claim 14, wherein: the two sets of planetary gear mechanisms include a single pinion type planetary gear mechanism; the sun gears of the first and the second planetary gear mechanisms are connected with each other, and the carrier of the first planetary gear mechanism and the ring gear of the second planetary gear mechanism are connected with each other; and the engagement device comprises a first clutch connecting the ring gear of the first planetary gear mechanism and the output element of a power distribution mechanism selectively; a second clutch connecting the sun gear of the first planetary gear mechanism and the sun gear of the second planetary gear mechanism with the output element of the power distribution mechanism selectively; a first brake fixing the sun gears of the first and the second planetary gear mechanisms selectively; and a second brake fixing the carrier of the second planetary gear mechanisms selectively. 16. The control system for a drive unit of a vehicle as claimed in claim 1, wherein: the reaction force establishing device functions as a first electric motor; the continuously variable transmission functions as an electrical continuously variable transmission; and a transmission, in which a gear stage thereof is controlled by controlling the torque capacity of the clutch mechanism, is arranged on an output side of the electrical continuously variable transmission; and comprising: an input torque calculating means for calculating a torque inputted to the transmission on the basis of a speed change ratio of the electrical continuously variable transmission and a correction value used for a feedback control of the torque of the first electric motor, after the commencement of the inertia phase in the process of a shifting operation of the transmission; and a torque capacity control means for controlling the torque capacity of the clutch mechanism on the basis of the input torque of the transmission obtained from the correction value, in case of controlling the input revolution of the transmission after the commencement of the inertia phase in the process of the shifting operation of the transmission. 17. The control system for a drive unit of a vehicle as claimed in claim 1, wherein: an electric motor is arranged on the input side of the clutch mechanism; the engine is connected to the input side of the continuously variable transmission; and a transmission, in which a gear stage thereof is controlled by controlling the torque capacity of the clutch mechanism, is arranged on an output side of the electrical continuously variable transmission; and further comprising a second input torque control means for lowering a torque to be inputted to the transmission by lowering the torque of the second electric motor during the shifting operation of the transmission, in case the torque of the second electric motor is transmitted to the wheel but the torque of the engine is not transmitted to the wheel. 18. The control system for a drive unit of a vehicle as claimed in claim 5, comprising: an input torque calculating means for calculating a torque inputted to the transmission on the basis of a speed change ratio of the electrical continuously variable transmission and a correction value used for a feedback control of the torque of the first electric motor, upon commencement of the inertia phase in the process of a shifting operation of the transmission; and a second torque capacity control means for controlling the torque capacity of the clutch mechanism on the basis of the input torque of the transmission obtained from the correction value, in case of controlling the input revolution of the transmission upon commencement of the inertia phase in the process of the shifting operation of the transmission. 19. A control method for a drive unit of a vehicle, which has a reaction force establishing device controlling a speed change ratio of a continuously variable transmission, and a clutch mechanism which is arranged on a power transmission route from the continuously variable transmission to a wheel and in which a torque capacity thereof is controllable, comprising: a first input torque control of lowering a torque to be inputted to the clutch mechanism through the continuously variable transmission, by controlling a torque of the reaction force establishing device while the torque capacity of the clutch mechanism is being controlled. 20. The control method for a drive unit of a vehicle as claimed in claim 19: wherein a prime mover is arranged on an input side of the clutch mechanism; comprising an inertia phase judging of determining an inertia phase established as a result of controlling the torque capacity of the clutch mechanism; and wherein the first input torque control includes lowering the torque inputted to the input side of the clutch mechanism by controlling a torque of the prime mover before a commencement of the inertia phase, and lowering the torque inputted to the clutch mechanism by lowering a reaction torque established by the reaction force establishing means once the inertia phase commences. 21. The control method for a drive unit of a vehicle as claimed in claim 20, wherein: an engine is connected to the input side of the continuously variable transmission; the reaction force establishing device functions as a first electric motor; the prime mover functions as a second electric motor; and the continuously variable transmission functions as an electrical continuously variable transmission; a transmission, in which a gear stage thereof is controlled by controlling the torque capacity of the clutch mechanism, is arranged on an output side of the electrical continuously variable transmission; the electrical continuously variable transmission comprises an input element, a reaction element and an output element capable of rotating differentially among each other; the input element is connected with the engine; the reaction element is connected with the first electric motor; the output element is connected with the second electric motor and the input side of the transmission; and speed change ratio of the electrical continuously variable transmission can be controlled steplessly by controlling an output of the first electric motor establishing an reaction force against the engine; and the inertia phase judging includes determining an inertia phase in the process of carrying out a shifting operation of the transmission while the engine torque is being transmitted to the transmission through the electrical continuously variable transmission. 22. The control method for a drive unit of a vehicle as claimed in claim 19, wherein: the first input torque control includes starting a control for lowering the reaction torque established by the reaction force establishing device, in case the torque capacity of the clutch mechanism exceeds a torque inputted to the clutch mechanism. 23. The control method for a drive unit of a vehicle as claimed in claim 21, further comprising: a target input revolution calculating of calculating a target input revolution of the transmission after a commencement of the inertia phase in the process of the shifting operation of the transmission; a first torque capacity control of obtaining a target torque capacity of the clutch mechanism to be engaged under the gear stage after the shifting operation of the transmission according to a change in the target input revolution, and then approximating an actual torque capacity of the clutch mechanism in the process of the shifting operation of the transmission to the target torque capacity; and an electric motor control of obtaining a target input revolution of the first electric motor in the process of the shifting operation of the transmission based on the target input revolution of the transmission and the target engine revolution, and approximating an actual input revolution of the first electric motor to the target input revolution of the first electric motor 24. The control method for a drive unit of a vehicle as claimed in claim 23, comprising: an input torque calculating of calculating a torque inputted to the transmission on the basis of a speed change ratio of the electrical continuously variable transmission and a correction value used for a feedback control of the torque of the first electric motor after the commencement of the inertia phase in the process of a shifting operation of the transmission; and a second torque capacity control of controlling the torque capacity of the clutch mechanism on the basis of the input torque of the transmission obtained from the correction value, in case of controlling the input revolution of the transmission after the commencement of the inertia phase in the process of the shifting operation of the transmission. 25. The control method for a drive unit of a vehicle as claimed in claim 21, further comprising: an electric power feeding device for exchanging electric power with the first and the second electric motors; and an electric power balance control of controlling an output of the second electric motor on the basis of a balance of electric power in the electric power feeding device, in case of equalizing the engine power by reducing the reaction force established by the first electric motor after the commencement of the inertia phase in the transmission, and by controlling the second electric motor. 26. The control method for a drive unit of a vehicle as claimed in claim 21, further comprising: a second input torque control of lowering a torque to be inputted to the transmission by lowering the torque of the second electric motor during the shifting operation of the transmission, in case the torque of the second electric motor is transmitted to the wheel but the torque of the engine is not transmitted to the wheel. 27. The control method for a drive unit of a vehicle as claimed in claim 23, further comprising: an engine revolution control of reducing a change in the engine revolution in the process of a shifting operation of the transmission. 28. A control system for a drive unit of a vehicle, which has a reaction force establishing device controlling a speed change ratio of a continuously variable transmission, and a clutch mechanism which is arranged on a power transmission route from the continuously variable transmission to a wheel and in which a torque capacity thereof is controllable, comprising: a first input torque control device for lowering a torque to be inputted to the clutch mechanism through the continuously variable transmission, by controlling a torque of the reaction force establishing device while the torque capacity of the clutch mechanism is being controlled.