IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0614820
(2003-07-09)
|
우선권정보 |
JP-0200761 (2002-07-10) |
발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
20 인용 특허 :
7 |
초록
▼
In torque controlling method and apparatus for a hybrid vehicle, a vehicular propelling torque transmitted to the driven wheels is controlled under a predetermined torque distribution condition, a motor is made to perform a power running by supplying a generated electric power obtained as a result o
In torque controlling method and apparatus for a hybrid vehicle, a vehicular propelling torque transmitted to the driven wheels is controlled under a predetermined torque distribution condition, a motor is made to perform a power running by supplying a generated electric power obtained as a result of a drive of a generator by the engine to the motor, an engine torque is distributed into both of a clutch transmission torque transmitted to the driven wheels via the clutch and a generation torque transmitted to the generator; and both of a clutch rate of the clutch and the generation torque of the generator are controlled on the basis of at least a vehicular velocity.
대표청구항
▼
1. A torque controlling apparatus for a hybrid vehicle, comprising:a clutch rate adjustable clutch, an output axle of the clutch being connected to driven wheels; an engine; a generator, both of the engine and the generator being connected to an input axle of the clutch; a motor connected to the out
1. A torque controlling apparatus for a hybrid vehicle, comprising:a clutch rate adjustable clutch, an output axle of the clutch being connected to driven wheels; an engine; a generator, both of the engine and the generator being connected to an input axle of the clutch; a motor connected to the output axle of the clutch; and a controller to control a vehicular propelling torque transmitted to the driven wheels under a predetermined torque distribution condition, the controller including: a power supplying section that makes the motor perform a power running by supplying a generated electric power obtained as a result of a drive of the generator by the engine to the motor; and a torque distribution section that distributes an engine torque into a clutch transmission torque transmitted to the driven wheels via the clutch and a generation torque transmitted to the generator, the torque distribution section controlling the clutch rate of the clutch and the generation torque of the generator on the basis of at least a vehicular velocity. 2. A torque controlling apparatus for a hybrid vehicle as claimed in claim 1, wherein the torque distribution section controls the clutch rate of the clutch and generation torque of the generator in such a manner as to maximize a vehicular propelling torque.3. A torque controlling apparatus for a hybrid vehicle as claimed in claim 1, wherein the predetermined torque distribution condition includes a condition under which the vehicle is started or the vehicle is running at a predetermined low vehicular velocity.4. A torque controlling apparatus for a hybrid vehicle as claimed in claim 1, wherein, as the vehicular velocity becomes higher, the clutch rate of the clutch becomes larger.5. A torque controlling apparatus for a hybrid vehicle as claimed in claim 1, wherein a sum of the clutch transmission torque and an output torque of the motor is the vehicular propelling torque.6. A torque controlling apparatus for a hybrid vehicle as claimed in claim 1, wherein the generator and the motor constitute a three-phase alternating current motor/generator.7. A torque controlling apparatus for a hybrid vehicle as claimed in claim 1, wherein the clutch comprises a frictional clutch.8. A torque controlling apparatus for a hybrid vehicle as claimed in claim 1, wherein a ratio of the distribution of the engine torque to the generator becomes reduced as the vehicular velocity becomes increased.9. A torque controlling apparatus for a hybrid vehicle as claimed in claim 1, wherein the torque controlling apparatus further comprises a battery to perform a power supply and receipt of the electric power to and from the generator and the motor and the predetermined torque distribution condition includes a condition that an output enabling power of the battery is limited or inhibited.10. A torque controlling apparatus for a hybrid vehicle as claimed in claim 9, wherein the power supplying section makes the motor perform the power running by supplying directly the generated power obtained by the drive of the generator by the engine to the motor without intervention of the battery.11. A torque controlling apparatus for a hybrid vehicle as claimed in claim 9, wherein a torque distribution ratio of the generation torque with respect to the engine torque is corrected in accordance with an output enabling power of the battery.12. A torque controlling apparatus for a hybrid vehicle as claimed in claim 11, wherein, the ratio of the distribution of the engine torque to the generation torque of the generator is 0% and the clutch rate of the clutch is 100% to completely clutch the clutch, if an output power of the battery is equal to or larger than a predetermined power value.13. A torque controlling apparatus for a hybrid vehicle as claimed in claim 1, wherein the torque distribution ratio of the generation torque with respect to the engine torque is corrected in accordance with a magnitude of a heat of at least one of the clutch, the generator, and the motor.14. A torque controlling apparatus for a hybrid vehicle as claimed in claim 13, the ratio of the distribution of the engine torque to the generation torque of the generator is reduced as the magnitude of the temperature of at least one of the generator and the motor becomes higher.15. A torque controlling apparatus for a hybrid vehicle as claimed in claim 14, wherein the clutch rate of the clutch is 100% to completely clutch the clutch and the ratio of the distribution of the engine torque to the generation torque of the generator is zeroed if the magnitude of the one of the generator and the motor is in excess of a predetermined upper limit.16. A torque controlling apparatus for a hybrid vehicle as claimed in claim 13, wherein, as a temperature of the clutch becomes higher, a ratio of the distribution of the engine torque to the clutch transmission torque becomes reduced.17. A torque controlling apparatus for a hybrid vehicle as claimed in claim 16, wherein the clutch transmission torque is zeroed if the temperature of the clutch is in excess of a predetermined temperature value.18. A torque controlling apparatus for a hybrid vehicle as claimed in claim 17, wherein the clutch rate of the clutch is 0% to completely release the clutch, if the clutch transmission torque is zeroed.19. A torque controlling apparatus for a hybrid vehicle, comprising:clutch rate adjustable clutch means, an output axle of the clutch means being connected to driven wheels; primary power source means; power generation means, both of the primary power source means and the power generation means being connected to an input axle of the clutch means; secondary power source means connected to the output axle of the clutch means; and controlling means for controlling a vehicular propelling torque transmitted to the driven wheels under a predetermined torque distribution condition, the controlling means including: power supplying means for making the secondary power source perform a power running by supplying a generated electric power obtained as a result of a drive of the power generating means by the engine to the secondary power source means; and torque distribution means for distributing a torque generated by the primary power source into a clutch transmission torque transmitted to the driven wheels via the clutch means and a generation torque transmitted to the power generating means, the torque distribution means controlling a clutch rate of the clutch means and the generation torque of the power generating means on the basis of at least a vehicular velocity. 20. A torque controlling method for a hybrid vehicle, the hybrid vehicle comprising:a clutch rate adjustable clutch, an output axle of the clutch being connected to driven wheels; an engine; a generator, both of the engine and the generator being connected to an input axle of the clutch; and a motor connected to the output axle of the clutch, and the torque controlling method comprising: controlling a vehicular propelling torque transmitted to the driven wheels under a predetermined torque distribution condition; making the motor perform a power running by supplying a generated electric power obtained as a result of a drive of the generator by the engine to the motor; distributing an engine torque into a clutch transmission torque transmitted to the driven wheels via the clutch and a generation torque transmitted to the generator; and controlling a clutch rate of the clutch and the generation torque of the generator on the basis of at least a vehicular velocity.
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