Transmission having a continuously or infinitely variable variator drive
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F16H-037/02
F16H-015/52
출원번호
US-0425598
(2013-09-03)
등록번호
US-9556941
(2017-01-31)
국제출원번호
PCT/US2013/057866
(2013-09-03)
국제공개번호
WO2014/039447
(2014-03-13)
발명자
/ 주소
Ziech, James F.
Cooper, Kenneth E.
출원인 / 주소
Dana Limited
대리인 / 주소
Marshall & Melhorn, LLC
인용정보
피인용 횟수 :
0인용 특허 :
138
초록▼
A transmission having a variator drive capable of being placed in a continuously variable operating mode or an infinitely variable operating mode, capable of having a wide ratio range, and capable of transmitting large amounts of power. Variable transmissions comprising three clutches, three groundi
A transmission having a variator drive capable of being placed in a continuously variable operating mode or an infinitely variable operating mode, capable of having a wide ratio range, and capable of transmitting large amounts of power. Variable transmissions comprising three clutches, three grounding clutches or brakes, and a variator comprising a plurality of tilting variators balls disposed between a first drive ring and a second drive ring allow a single variator to function as an infinitely variable transmission when power is inputted to the carrier assembly and as a continuously variable transmission when power is inputted through a first ring assembly. Certain embodiments include a differential that allows a parallel power path around the variator to improve the variator torque capacity and a direct drive mode to improve the efficiency of the variator.
대표청구항▼
1. A variable transmission comprising: an input shaft;a first ring assembly rotatably disposed in a housing selectively drivingly engaged with the input shaft using a first clutch, the first ring assembly configured to be prevented from rotating relative to the housing by a first grounding clutch an
1. A variable transmission comprising: an input shaft;a first ring assembly rotatably disposed in a housing selectively drivingly engaged with the input shaft using a first clutch, the first ring assembly configured to be prevented from rotating relative to the housing by a first grounding clutch and the first ring assembly comprising a first variator ball engagement surface that is in driving engagement with a plurality of tiltable variator balls;a carrier assembly rotatably disposed in the housing and selectively drivingly engaged with the input shaft using a second clutch, the carrier assembly comprising an annular arrangement of the plurality of tiltable variator balls each having a ball axle shafts, and configured to be prevented from rotating relative to the housing by a second grounding clutch;a second ring assembly rotatably disposed in the housing selectively drivingly engaged with an output shaft using a third clutch or gears of a planetary gearset rotatably disposed on the second ring assembly, the second ring assembly comprising a second variator ball engagement surface that is in driving engagement with each of the variator balls;a third grounding clutch that engages the ring gear of the planetary gearset; andthe output shaft selectively drivingly engaged to a sun gear and a plurality of planet output gears of the planetary gearset using the third grounding clutch,wherein said transmission has a forward infinitely variable operating mode, a reverse infinitely variable operating mode, a continuously variable operating mode, and a continuously variable overdrive operating mode. 2. The variable transmission of claim 1, wherein a middle portion of the input shaft is selectively drivingly engaged with the first ring assembly. 3. The variable transmission of claim 1, wherein the forward infinitely variable operating mode is achievable when the first clutch is disengaged, the second clutch is engaged, the third clutch is engaged, the first grounding clutch is engaged, the second grounding clutch is disengaged, and the third grounding clutch is disengaged. 4. The variable transmission of claim 1, wherein the reverse infinitely variable operating mode is achievable when the first clutch is disengaged, the second clutch is engaged, the third clutch is engaged, the first grounding clutch is engaged, the second grounding clutch is disengaged, and the third grounding clutch is disengaged. 5. The variable transmission of claim 1, wherein the continuously variable operating mode exists when the first clutch is engaged, the second clutch is disengaged, the third clutch is engaged, the first grounding clutch is disengaged, the second grounding clutch is engaged, and the third grounding clutch is disengaged. 6. The variable transmission of claim 1, wherein the continuously variable overdrive operating mode exists when the first clutch is engaged, the second clutch is disengaged, the third clutch is disengaged, the first grounding clutch is disengaged, the second grounding clutch is engaged, and the third grounding clutch is engaged. 7. The variable transmission of claim 1, wherein the input shaft and the output shaft are at least partially disposed in the housing. 8. The vehicle transmission of claim 1, comprising an axial force generator configured to generate sufficient axial force to properly operate the vehicle transmission. 9. The vehicle transmission of claim 8, wherein the axial force generator comprises one or more clamping mechanisms. 10. The vehicle transmission of claim 8, wherein the axial force generator comprises a ball ramp. 11. The vehicle transmission of claim 8, wherein the axial force generator comprises a ball ramp thrust ring. 12. The vehicle transmission of claim 8, wherein the axial force generator comprises a load applied during assembly of the variable transmission. 13. The variable transmission of claim 1, wherein the first clutch comprises a wet plate clutch, a dry plate clutch, a cone clutch, or any other clutch type that may be variably engaged. 14. The variable transmission of claim 1, wherein the second clutch comprises a wet plate clutch, a dry plate clutch, a cone clutch, or any other clutch type that may be variably engaged. 15. The variable transmission of claim 1, wherein the third clutch comprises a wet plate clutch, a dry plate clutch, a cone clutch, or any other clutch type that may be variably engaged. 16. The variable transmission of claim 1, wherein each of the ball axle shafts is adjusted using a split carrier axle skewing mechanism. 17. The variable transmission of claim 1, wherein the first ring assembly comprises a first clutch engagement portion. 18. The variable transmission of claim 17, wherein the first clutch engagement portion extends inwardly from an inner surface of the first ring assembly. 19. The variable transmission of claim 1, wherein the second ring assembly comprises a third clutch engagement portion. 20. The variable transmission of claim 19, wherein the third clutch engagement portion extends inwardly from an inner surface of the second ring assembly.
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