IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
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출원번호 |
US-0758401
(2010-04-12)
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등록번호 |
US-8272469
(2012-09-25)
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발명자
/ 주소 |
- Stoehr, Kyle C.
- Breyer, Scott T.
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
2 인용 특허 :
0 |
초록
▼
The invention provides a trunnion bearing assembly for the drive system of a snow blower, mower, tractor, or other self-propelled utility vehicle. In certain embodiments, the trunnion assembly comprises a bearing having ball bearings, roller bearings, or another type of bearing set. This can provide
The invention provides a trunnion bearing assembly for the drive system of a snow blower, mower, tractor, or other self-propelled utility vehicle. In certain embodiments, the trunnion assembly comprises a bearing having ball bearings, roller bearings, or another type of bearing set. This can provide free relative rotation of several components of the bearing assembly relative to a trunnion housing of the bearing assembly. This rotation is imparted when a friction disk of the assembly engages a spinning motor flywheel of the drive system.
대표청구항
▼
1. A bearing assembly comprising a tube shaft having a central axis and extending between a trunnion housing and a friction disk base plate, the trunnion housing having two opposed trunnions each defining an elongated mount opening centered on an axis at least generally perpendicular to the central
1. A bearing assembly comprising a tube shaft having a central axis and extending between a trunnion housing and a friction disk base plate, the trunnion housing having two opposed trunnions each defining an elongated mount opening centered on an axis at least generally perpendicular to the central axis of the tube shaft, wherein a bearing comprising an inner race, an outer race, and a bearing set is assembled onto an exterior surface of the tube shaft such that the inner race is carried against the exterior surface of the tube shaft, and the trunnion housing is disposed about the bearing so as to provide free rotation of the tube shaft relative to the trunnion housing, the friction disk base plate being mounted on the tube shaft and being retained at a position spaced apart from the trunnion housing by an alignment spacer provided between the friction disk base plate and the bearing. 2. The bearing assembly of claim 1 wherein the alignment spacer contacts the bearing but is spaced apart from the trunnion housing. 3. The bearing assembly of claim 1 wherein the alignment spacer has opposed first and second ends, the first end carried directly against the bearing, the second end carried directly against the friction disk base plate. 4. The bearing assembly of claim 3 wherein the first end of the alignment spacer is a generally planar surface that buts-up against a generally planar side of the bearing. 5. The bearing assembly of claim 3 wherein the first end of the alignment spacer is carried directly against the inner race of the bearing. 6. The bearing assembly of claim 3 wherein a plane that is perpendicular to the tube shaft's central axis and that passes through the first end of the alignment spacer also passes through the trunnion housing. 7. The bearing assembly of claim 1 wherein the alignment spacer has an exterior surface with a maximum height section located at least substantially entirely between adjacent facing sides of the trunnion housing and the friction disk base plate, wherein height is defined as the radial distance from the central axis of the tube shaft. 8. The bearing assembly of claim 1 wherein the alignment spacer entirely spans the distance between the friction disk plate and the bearing. 9. The bearing assembly of claim 1 wherein the alignment spacer comprises a positioner shoulder defined by the tube shaft, the positioner shoulder projecting radially outward. 10. The bearing assembly of claim 9 wherein the tube shaft has opposed first and second end regions, the bearing being mounted on the first end region, and the trunnion housing being mounted on the bearing, the friction disk base plate being mounted on the second end region of the tube shaft. 11. The bearing assembly of claim 1 wherein the alignment spacer is a discrete positioner ring mounted around an exterior sidewall of the tube shaft. 12. The bearing assembly of claim 1 wherein the tube shaft has opposed first and second end regions, the trunnion housing being located at the first end region of the tube shaft, the friction disk base plate being located at the second end region of the tube shaft. 13. The bearing assembly of claim 1 wherein the friction disk base plate defines a central opening in which an end region of the tube shaft is mounted. 14. The bearing assembly of claim 13 wherein the tube shaft is staked to the friction disk base plate. 15. The bearing assembly of claim 13 wherein the friction disk base plate lies in a plane at least generally perpendicular to the central axis of the tube shaft. 16. The bearing assembly of claim 1 wherein a friction disk is provided on the friction disk base plate, the friction disk having a tread surface to engage a motor flywheel. 17. The bearing assembly of claim 1 wherein the friction disk base plate and the tube shaft are configured to rotate together freely relative to the trunnion housing. 18. The bearing assembly of claim 1 wherein the bearing is retained between the outer surface of the tube shaft, the trunnion housing, the alignment spacer, and either an enlarged head of the tube shaft or a retention ring on an end region of the tube shaft. 19. The bearing assembly of claim 1 wherein the tube shaft defines an internal passage configured to receive a mating axle such that the tube shaft and axle are secured together for conjoint rotation. 20. The bearing assembly of claim 19 wherein the internal passage of the tube shaft has a polygonal interior configuration. 21. The bearing assembly of claim 1 wherein the trunnion housing has a generally annular configuration. 22. The bearing assembly of claim 21 wherein the trunnion housing comprises two plates assembled together with the bearing in between, each plate of the trunnion housing defining half of each trunnion. 23. The bearing assembly of claim 1 wherein each of the two trunnions has a generally cylindrical configuration projecting radially outward. 24. The bearing assembly of claim 1 wherein the bearing set comprises a series of ball bearings disposed between the inner and outer races. 25. A self-propelled snow blower, mower, or tractor having a drive assembly comprising a motor flywheel, a shift linkage, an axle, a trunnion bearing assembly, and at least one driven wheel to create a driving force for the snow blower, mower, or tractor, the trunnion bearing assembly comprising a tube shaft having a central axis and defining an internal passage in which the axle is received such that the axle and tube shaft are configured to rotate together, the tube shaft extending between a trunnion housing and a friction disk base member on which a friction disk is provided, the trunnion housing having two opposed trunnions each defining an elongated mount opening centered on an axis at least generally perpendicular to the central axis of the tube shaft, wherein a bearing comprising an inner race, an outer race, and a bearing set is assembled on an exterior surface of the tube shaft such that the inner race is carried against the exterior surface of the tube shaft, the trunnion housing being disposed about the bearing so as to provide free rotation of the tube shaft relative to the trunnion housing, the friction disk base member being mounted on the tube shaft and being retained at a position spaced apart from the trunnion housing by an alignment spacer provided between the friction disk base member and the bearing, the shift linkage comprising two shafts mounted respectively in the two elongated mount openings of the trunnions, the shift linkage being moveable between a neutral position and a drive position, wherein the friction disk moves into driven engagement with the motor flywheel in response to the shift linkage moving from its neutral position to its drive position, and wherein when the friction disk is in driven engagement with the motor flywheel the friction disk, the friction disk base member, the tube shaft, and the axle rotate together in response to which the driven wheel rotates so as to propel the snow blower, mower, or tractor. 26. The snow blower, mower, or tractor of claim 25 wherein the alignment spacer contacts the bearing but is spaced apart from the trunnion housing. 27. The snow blower, mower, or tractor of claim 25 wherein the alignment spacer has opposed first and second ends, the first end carried directly against the bearing, the second end carried directly against the friction disk base plate. 28. The snow blower, mower, or tractor of claim 27 wherein the first end of the alignment spacer is a generally planar surface that buts-up against a generally planar side of the bearing. 29. The snow blower, mower, or tractor of claim 27 wherein the first end of the alignment spacer is carried directly against the inner race of the bearing. 30. The snow blower, mower, or tractor of claim 27 wherein a plane that is perpendicular to the tube shaft's central axis and that passes through the first end of the alignment spacer also passes through the trunnion housing. 31. The snow blower, mower, or tractor of claim 25 wherein the alignment spacer has an exterior surface with a maximum height section located at least substantially entirely between adjacent facing sides of the trunnion housing and the friction disk plate, wherein height is defined as the radial distance from the central axis of the tube shaft. 32. The snow blower, mower, or tractor of claim 25 wherein the alignment spacer comprises a positioner shoulder defined by the tube shaft, the positioner shoulder projecting radially outward. 33. The snow blower, mower, or tractor of claim 25 wherein the alignment spacer is a discrete positioner ring mounted around an exterior sidewall of the tube shaft. 34. The snow blower, mower, or tractor of claim 25 wherein the friction disk base member comprises a plate defining a central opening in which an end region of the tube shaft is mounted, said plate lying in a plane at least generally perpendicular to the central axis of the tube shaft. 35. The snow blower, mower, or tractor of claim 25 wherein the friction disk comprises a rubber surface that contacts the motor flywheel when in said driven engagement. 36. The snow blower, mower, or tractor of claim 25 wherein the bearing is retained between the outer surface of the tube shaft, the trunnion housing, the alignment spacer, and either an enlarged head of the tube shaft or a retention ring on an end region of the tube shaft. 37. The snow blower, mower, or tractor of claim 25 wherein the tube shaft's internal passage has a polygonal interior configuration, the axle having a matching polygonal exterior configuration.
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