A limited slip differential assembly includes a planetary gear assembly, a differential case, a differential gear assembly and a hydraulic clutch assembly. The differential case is coupled for rotation with a portion of the planetary gear assembly. The differential gear assembly is arranged within t
A limited slip differential assembly includes a planetary gear assembly, a differential case, a differential gear assembly and a hydraulic clutch assembly. The differential case is coupled for rotation with a portion of the planetary gear assembly. The differential gear assembly is arranged within the differential case and includes a first side gear and a second side gear for coupling with first and second drive wheels of a vehicle, respectively. The hydraulic clutch assembly includes a clutch pack and a clutch actuator. Pressurized hydraulic fluid from a transmission pump is selectively provided to the clutch pack to actuate the clutch pack between an open configuration, in which the side gears rotate independently, and a fully closed configuration, in which the side gears rotate together such that the first and second drive wheels rotate at a same speed.
대표청구항▼
1. A limited slip differential assembly for a vehicle, comprising: a planetary gear assembly including a sun gear, a plurality of planet gears and a ring gear, the sun gear being rotatably coupled to an automatic transmission and configured to transmit rotational force to the plurality of planet gea
1. A limited slip differential assembly for a vehicle, comprising: a planetary gear assembly including a sun gear, a plurality of planet gears and a ring gear, the sun gear being rotatably coupled to an automatic transmission and configured to transmit rotational force to the plurality of planet gears;a differential case coupled for rotation with the plurality of planet gears;a differential gear assembly arranged within the differential case and including a first side gear and a second side gear coupled to first and second drive wheels of the vehicle, respectively; anda hydraulic clutch assembly coupling the planetary gear assembly with the differential gear assembly, the hydraulic clutch assembly including a clutch pack and a clutch actuator, the clutch actuator being in fluid communication with an automatic transmission pump of the vehicle such that pressurized hydraulic fluid from the transmission pump is provided to the clutch pack to selectively actuate the clutch pack between an open configuration and a fully closed configuration,wherein the clutch pack includes a plurality of annular plates interleaved with a plurality of annular friction disks, the plurality of annular plates being coupled for rotation with one of the differential case and the differential gear assembly and the plurality of annular friction disks being coupled for rotation with the other one of the differential case and the differential gear assembly,wherein (i) the open configuration corresponds to the plurality of annular plates and the plurality of annular friction disks being configured to rotate independently in a substantially non-contacting relationship, and (ii) the fully closed configuration corresponds to the plurality of annular plates and the plurality of annular friction disks being configured to rotate together in a contacting relationship, andwherein the first and second side gears: (i) rotate independently in the open configuration such that the first and second drive wheels can rotate at different speeds, and (ii) rotate together in the fully closed configuration such that the first and second drive wheels rotate at a same speed. 2. The limited slip differential assembly of claim 1, wherein the clutch actuator includes a piston that interacts with the clutch pack to selectively actuate the clutch pack between the open and fully closed configuration, the piston being in fluid communication with a hydraulic fluid valve that provides pressurized hydraulic fluid from the transmission pump to the clutch pack. 3. The limited slip differential assembly of claim 2, wherein the clutch actuator further includes the hydraulic fluid valve. 4. The limited slip differential assembly of claim 3, wherein the hydraulic fluid valve is a spool valve. 5. The limited slip differential assembly of claim 2, further comprising: a pressure sensor for sensing a pressure of the pressurized hydraulic fluid provided to the clutch pack; anda controller in communication with the pressure sensor and configured to provide a control signal to the hydraulic fluid valve to adjust the pressure. 6. The limited slip differential assembly of claim 5, wherein the controller is a proportional-integral-derivative controller. 7. The limited slip differential assembly of claim 1, wherein the clutch actuator is configured to selectively actuate the clutch pack between the open configuration, the fully closed configuration and at least one intermediate partially closed configuration, wherein the at least one intermediate partially closed configuration corresponds to the plurality of annular plates and the plurality of annular friction disks being in a contacting relationship in order to reduce relative rotation between the plurality of annular plates and the plurality of annular friction disks such that the first and second side gears do not rotate completely independently. 8. The limited slip differential assembly of claim 1, wherein the first and second drive wheels of the vehicle are front wheels. 9. The limited slip differential assembly of claim 6 wherein the controller further comprises a proportional-derivative controller, an integral controller and a feed forward circuit, wherein an output of the integral controller is provided to a first saturation limiting circuit, wherein respective outputs of the proportional-derivative controller and the integral controller are summed at a second saturation limiting circuit, wherein an output of the second saturation limiting circuit is summed with an output of the feed forward circuit and provided to a third saturation limiting circuit, an output of the third saturation limiting circuit controlling the hydraulic fluid valve. 10. The limited slip differential assembly of claim 9 wherein each of the first, second and third saturation limiting circuits ensure that a respective output signal does not exceed a saturation limit of the hydraulic fluid valve. 11. A vehicle driveline, comprising: an engine;an automatic transmission coupled to and receiving a rotary output from the engine, the transmission including an automatic transmission pump; and a limited slip differential assembly coupled to the transmission and configured to provide a drive force to first and second drive wheels of a vehicle, the limited slip differential assembly comprising:a planetary gear assembly coupled to and receiving rotational force from the transmission,a differential case coupled for rotation with a portion of the planetary gear assembly,a differential gear assembly arranged within the differential case and including a first side gear and a second side gear for coupling with the first and second drive wheels of the vehicle, respectively, anda hydraulic clutch assembly coupling the planetary gear assembly with the differential gear assembly, the hydraulic clutch assembly including a clutch pack and a clutch actuator, the clutch actuator being in fluid communication with the transmission pump such that the pressurized hydraulic fluid from the transmission pump is selectively provided to the clutch pack to actuate the clutch pack between an open configuration and a fully closed configuration,wherein the first and second side gears: (i) rotate independently in the open configuration such that the first and second drive wheels can rotate at different speeds, and (ii) rotate together in the fully closed configuration such that the first and second drive wheels rotate at a same speed. 12. The vehicle driveline of claim 11, wherein: the clutch pack includes a plurality of annular plates interleaved with a plurality of annular friction disks, the plurality of annular plates being coupled for rotation with one of the differential case and the differential gear assembly and the plurality of annular friction disks being coupled for rotation with the other one of the differential case and the differential gear assembly,the open configuration corresponds to the plurality of annular plates and the plurality of annular friction disks being configured to rotate independently in a substantially non-contacting relationship, andthe fully closed configuration corresponds to the plurality of annular plates and the plurality of annular friction disks being configured to rotate together in a contacting relationship. 13. The vehicle driveline of claim 12, wherein the clutch actuator is configured to selectively actuate the clutch pack between the open configuration, the fully closed configuration and at least one intermediate partially closed configuration, wherein the at least one intermediate partially closed configuration corresponds to the plurality of annular plates and the plurality of annular friction disks being in a contacting relationship in order to reduce relative rotation between the plurality of annular plates and the plurality of annular friction disks such that the first and second side gears do not rotate completely independently. 14. The vehicle driveline of claim 11, further comprising a hydraulic fluid valve that provides pressurized hydraulic fluid from the transmission pump to the clutch pack, wherein the clutch actuator includes a piston that interacts with the clutch pack to selectively actuate the clutch pack between the open and fully closed configuration, the piston being in fluid communication with the hydraulic fluid valve. 15. The vehicle driveline of claim 14, wherein the clutch actuator further includes the hydraulic fluid valve. 16. The vehicle driveline of claim 15, wherein the hydraulic fluid valve is a spool valve. 17. The vehicle driveline of claim 11, wherein the limited slip differential assembly further includes: a pressure sensor for sensing a pressure of the pressurized hydraulic fluid provided to the clutch pack; anda controller in communication with the pressure sensor and configured to provide a control signal to the hydraulic fluid valve to adjust the pressure. 18. The vehicle driveline of claim 17, wherein the controller is a proportional-integral-derivative controller. 19. The vehicle driveline of claim 11, wherein the first and second drive wheels of the vehicle are front wheels. 20. The vehicle driveline of claim 18 wherein the controller further comprises a proportional-derivative controller, an integral controller and a feed forward circuit, wherein an output of the integral controller is provided to a first saturation limiting circuit, wherein respective outputs of the proportional-derivative controller and the integral controller are summed at a second saturation limiting circuit, wherein an output of the second saturation limiting circuit is summed with an output of the feed forward circuit and provided to a third saturation limiting circuit, an output of the third saturation limiting circuit controlling the hydraulic fluid valve, wherein each of the first, second and third saturation limiting circuits ensure that a respective output signal does not exceed a saturation limit of the hydraulic fluid valve.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (19)
Imaseki Takashi (Zushi JPX), Active driving force control for four-wheel drive vehicle.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.