Torque converter reverse clutch system and method of operating a reverse clutch system
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F16H-045/00
F16H-045/02
출원번호
US-0380620
(2009-03-02)
등록번호
US-8201675
(2012-06-19)
발명자
/ 주소
Heeke, Gregory
출원인 / 주소
Schaeffler Technologies AG & Co. KG
대리인 / 주소
Simpson & Simpson, PLLC
인용정보
피인용 횟수 :
0인용 특허 :
5
초록▼
A torque converter including a clutch assembly and a channel. The clutch assembly includes: a reverse clutch with a piston plate, the reverse clutch controllably connecting a reverse stator and a drive hub; a forward clutch including the piston plate, the forward clutch controllably connecting a tur
A torque converter including a clutch assembly and a channel. The clutch assembly includes: a reverse clutch with a piston plate, the reverse clutch controllably connecting a reverse stator and a drive hub; a forward clutch including the piston plate, the forward clutch controllably connecting a turbine and the drive hub; and a cavity partially formed by the piston plate. The channel supplies fluid to the cavity and to vent fluid from the cavity and the piston plate is displaceable in response to fluid pressure in the cavity to control operation of the reverse and forward clutches. In a preferred embodiment, forces associated with operation of the reverse and forward clutches are balanced within the clutch assembly. The torque converter also includes a clutch rotationally connected to a turbine and a ground and a one-way clutch rotationally connected to a forward stator and the ground.
대표청구항▼
1. A torque converter, comprising: a torus;a forward stator;a reverse stator separate from the forward stator and separately rotatable with respect to the forward stator;a clutch assembly including: a reverse clutch with a piston plate, the reverse clutch controllably connecting the reverse stator a
1. A torque converter, comprising: a torus;a forward stator;a reverse stator separate from the forward stator and separately rotatable with respect to the forward stator;a clutch assembly including: a reverse clutch with a piston plate, the reverse clutch controllably connecting the reverse stator and a drive hub;a forward clutch including the piston plate, the forward clutch controllably connecting a turbine and the drive hub; and,a cavity partially formed by the piston plate; and,a channel to supply fluid to the cavity and to vent fluid from the cavity, wherein the piston plate is displaceable in response to fluid pressure in the cavity to control operation of the reverse and forward clutches and wherein for a first force on the piston plate due to fluid pressure in the cavity substantially equal to a second force on the piston plate due to fluid pressure in the torus, the piston plate is displaceable such that both the forward clutch and the reverse clutch are disengaged. 2. The torque converter of claim 1 wherein forces associated with operation of the reverse and forward clutches are balanced within the clutch assembly. 3. The torque converter of claim 1 further comprising: a clutch rotationally connected to a turbine in the torus and a ground and in fluid communication with the cavity and the torus; and,a one-way clutch rotationally connected to the forward stator and the ground and in fluid communication with the cavity and the torus, wherein the clutch and the one-way clutch are displaceable such that the clutch is disengaged to enable rotation of the turbine, the one-way clutch is engaged or disengaged, and the reverse stator is rotatable in a reverse direction and in a forward direction, opposite the reverse direction. 4. The torque converter of claim 1 wherein the clutch and the one-way clutch are respective slipper clutches. 5. The torque converter of claim 1 wherein the clutch is a first friction clutch and the one-way clutch is groundable by a second friction clutch. 6. The torque converter of claim 1 wherein for a first force on the piston plate due to fluid pressure in the cavity less than a second force on the piston plate due to fluid pressure in the torus, the piston plate is displaceable in an axial direction to engage the forward clutch and disengage the reverse clutch. 7. The torque converter of claim 6 further comprising: a clutch rotationally connected to a turbine in the torus and a ground and in fluid communication with the cavity and the torus; and,a one-way clutch rotationally connected to the forward stator and the ground and in fluid communication with the cavity and the torus, wherein the clutch and the one-way clutch are displaceable such that the clutch is disengaged to enable rotation of the turbine, the one-way clutch is engaged to rotationally lock the forward stator in a reverse direction, and the reverse stator is rotatable in a reverse direction and in a forward direction, opposite the reverse direction. 8. The torque converter of claim 6 wherein the clutch and the one-way clutch are respective slipper clutches. 9. The torque converter of claim 6 wherein the clutch is a first friction clutch and the one-way clutch is groundable by a second friction clutch. 10. The torque converter of claim 1 wherein for a first force on the piston plate due to fluid pressure in the cavity greater than a second force on the piston plate due to fluid pressure in the torus, the piston plate is displaceable in an axial direction to disengage the forward clutch and engage the reverse clutch. 11. The torque converter of claim 10 further comprising: a clutch rotationally connected to a turbine in the torus and a ground and in fluid communication with the cavity and the torus; and,a one-way clutch rotationally connected to the forward stator and the ground and in fluid communication with the cavity and the torus, wherein the clutch and the one-way clutch are displaceable such that the clutch is disengaged to enable rotation of the turbine, the one-way clutch is engaged to rotationally lock the forward stator in a reverse direction, and the reverse stator is rotatable in a reverse direction and in a forward direction, opposite the reverse direction. 12. The torque converter of claim 11 wherein the clutch and the one-way clutch are respective slipper clutches. 13. The torque converter of claim 11 wherein the clutch is a first friction clutch and the one-way clutch is groundable by a second friction clutch. 14. The torque converter of claim 1 further comprising an impeller shell, a rear cover, and an impeller clutch operable to rotationally connect the impeller shell with the rear cover. 15. The torque converter of claim 1 further comprising a front cover and a converter by-pass clutch operable to rotationally connect the front cover to the drive hub. 16. A method of operating a torque converter including a torus, a forward stator, and a reverse stator, separate from the forward stator, comprising the steps of: rotating the forward stator independently of the reverse stator;pressurizing fluid in the torus to apply a first force on the piston plate;controlling, through a single channel, fluid pressure in a cavity partially formed by a piston plate for a clutch assembly including a reverse clutch and a forward clutch, wherein the reverse clutch and the forward clutch include the piston plate; and,displacing the piston plate in response to fluid pressure in the cavity to: controllably connect the reverse stator with a drive hub; and,controllably connect a turbine with the drive hub, wherein controlling fluid pressure in the cavity includes pressurizing the cavity to apply a second force on the piston plate substantially equal to the first force and wherein displacing the piston plate includes displacing the piston plate such that both the forward clutch and the reverse clutch are disengaged. 17. The method of claim 16 wherein displacing the piston plate in response to fluid pressure in the cavity includes balancing force associated with operation of the reverse and forward clutches within the clutch assembly. 18. The method of claim 17 wherein the clutch assembly includes a plate connecting the clutch assembly to the hub and wherein balancing force associated with operation of the reverse and forward clutches within the clutch assembly includes displacing one or both of the piston plate or the plate. 19. The method of claim 16 wherein the torque converter includes a clutch rotationally connected to a turbine in the torus and a ground and in fluid communication with the cavity and the torus and a one-way clutch rotationally connected to the forward stator and the ground and in fluid communication with the cavity and the torus, the method including displacing the clutch and the one-way clutch such that the clutch is disengaged to enable rotation of the turbine, the one-way clutch is engaged or disengaged, and the reverse stator is rotatable in a reverse direction and in a forward direction, opposite the reverse direction. 20. The method of claim 19 wherein the clutch and the one-way clutch are respective slipper clutches. 21. The method of claim 19 wherein the clutch is a first friction clutch and the method further comprising controlling grounding of the one-way clutch with a second friction clutch. 22. The method of claim 16 wherein controlling fluid pressure in the cavity includes pressurizing the cavity to apply a second force on the piston plate less than the first force and wherein displacing the piston plate includes displacing the piston plate to engage the forward clutch and disengage the reverse clutch. 23. The method of claim 22 wherein the torque converter includes a clutch rotationally connected to a turbine in the torus and a ground and in fluid communication with the cavity and the torus and a one-way clutch rotationally connected to the forward stator and the ground and in fluid communication with the cavity and the torus, the method including displacing the clutch and the one-way clutch such that the clutch is disengaged to enable rotation of the turbine, the one-way clutch is engaged to rotationally lock the forward stator in a reverse direction, and the reverse stator is rotatable in a reverse direction and in a forward direction, opposite the reverse direction. 24. The method of claim 23 wherein the clutch and the one-way clutch are respective slipper clutches. 25. The method of claim 23 wherein the clutch is a first friction clutch and the method further comprising controlling grounding of the one-way clutch with a second friction clutch. 26. The method of claim 16 wherein controlling fluid pressure in the cavity includes pressurizing the cavity to apply a second force on the piston plate greater than the first force and wherein displacing the piston plate includes displacing the piston plate to disengage the forward clutch and engage the reverse clutch. 27. The method of claim 16 further comprising an impeller shell, a rear cover, and an impeller clutch and the method further comprising operating the impeller clutch to rotationally connect or disconnect the impeller shell with the rear cover.
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이 특허에 인용된 특허 (5)
John Hugh Kerr CA, Full-complement multi-directional coupling.
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