IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0455727
(2003-06-06)
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발명자
/ 주소 |
- Thoma, Christian Helmut
- Arnold, George Duncan McRae
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출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
2 인용 특허 :
23 |
초록
▼
An axle assembly has an internally disposed hydrostatic transmission and speed reducing gearing. An input shaft supported in the housing drives a variable-displacement hydraulic pump, the pump fluidly coupled to a fixed-displacement hydraulic motor, and the motor drivingly connected through the spee
An axle assembly has an internally disposed hydrostatic transmission and speed reducing gearing. An input shaft supported in the housing drives a variable-displacement hydraulic pump, the pump fluidly coupled to a fixed-displacement hydraulic motor, and the motor drivingly connected through the speed reducing gearing to an output axle shaft. The housing being formed by three housing members and joined together along a substantially planar and horizontally peripheral seam formed therebetween such that two of the housing members are to one side of the seam and join with the third housing element. Two internal chambers formed by the three housing elements where one chamber contains the hydrostatic transmission and the other chamber contains the speed reducing gearing. A connecting shaft spanning between the chambers to provide the power transmission link between the hydrostatic transmission and the speed reducing gearing.
대표청구항
▼
1. An axle assembly comprising a hydrostatic transmission and a differentialled gear reduction transmission disposed adjacent one another within respective chambers formed by at least three surrounding housing elements, said hydrostatic transmission including a hydrostatic pump and motor and said di
1. An axle assembly comprising a hydrostatic transmission and a differentialled gear reduction transmission disposed adjacent one another within respective chambers formed by at least three surrounding housing elements, said hydrostatic transmission including a hydrostatic pump and motor and said differentialled gear reduction transmission including a reduction gear train comprising a plurality of interconnecting gears, said hydrostatic transmission having pump and motor cylinder barrels fluidly connected together, and said motor cylinder barrel connected to said reduction gear train by a power transmission link having a horizontal axis of rotation disposed in a first horizontal plane and comprising a motor output shaft and a reduction gear train input shaft, said motor shaft having first and second respective ends, said first end disposed in said hydrostatic chamber and connected to said motor cylinder barrel, said second end connectable to said reduction gear train input shaft, said first and second respective ends being surrounded by said at least three surrounding housing elements, wherein two of said at least three surrounding housing elements reside side by side one another on one side of said first horizontal plane.2. The axle assembly according to claim 1 wherein those remaining of said at least three surrounding housing elements not disposed to said one side of said first horizontal plane are arranged to reside on the opposite side of said first horizontal plane.3. The axle assembly according to claim 2 wherein said at least three surrounding housing elements are respectively provided with uniplanar junction seams meeting at a common parting plane arranged to be coincident with said first horizontal plane.4. The axle assembly according to claim 3 wherein two of said least three surrounding housing elements are upper cover housing elements.5. The axle assembly according to claim 3 wherein two of said least three surrounding housing elements are lower case housing elements.6. The axle assembly according to claim 3, and further comprising an input drive shaft having a vertical axis of rotation rotatably supported in one of said at least three surrounding housing elements, said vertical axis of rotation of said input drive shaft disposed perpendicular to said first horizontal plane, wherein said input drive shaft comprises a first portion protruding outside of the respective housing element and a second portion protruding inside of said respective housing element to drivingly engage said pump.7. The axle assembly according to claim 6, and further comprising a pair of axle shafts rotatably supported in at least two of said at least three housing elements, said axle shafts having a horizontal axis of rotation disposed parallel with said first horizontal plane.8. The axle assembly according to claim 7 wherein said differentialled gear reduction transmission further comprising a mechanical differential drivingly connected to said axle shafts.9. The axle assembly according to claim 8 wherein said horizontal axis of rotation of said axle shafts is coincident with said first horizontal plane.10. The axle assembly according to claim 8, and further comprising interior mounting surfaces disposed on a second horizontal plane in at least one of said at least three housing elements; said hydrostatic transmission further comprises a pintle-valve or centersection equivalent for fluidly coupling said pump and motor together, said pintle-valve or centersection equivalent fixed to said interior mounting surfaces, wherein said second horizontal plane resides parallel to and not coincident with said first horizontal plane and said second horizontal plane positioned nearer said first portion of said input drive shaft than said first horizontal plane.11. The axle assembly according to claim 10 and further comprising a bulkhead wall provided by at least one of said at least three surrounding housing elements, said bulkhead wall formed substantially vertically to be disposed generally parallel to the vertical axis of said input drive shaft, said bulkhead wall delimiting an inner fluid reservoir surrounding said hydrostatic transmission from an inner fluid reservoir surrounding said differentialled gear reduction transmission such that said hydrostatic transmission is disposed one side of said internal bulkhead wall whereas said differentialled gear reduction transmission is disposed on the opposite side.12. The axle assembly according to claim 11 wherein only two of said at least three surrounding housing elements are aluminium pressure die-castings.13. The axle assembly according to claim 10 wherein said motor output shaft is piloted to said gear reduction train input shaft, the piloting of said motor output shaft and said gear reduction train input shaft constituting the alignment mechanism of said power transmission link.14. The axle assembly according to claim 1 wherein any two of said at least three surrounding housing elements are aluminium pressure die-castings.15. The axle assembly according to claim 14 wherein the remaining at least one of said at least three surrounding housing elements is a pressed steel component.16. The axle assembly according to claim 14 wherein the remaining at least one of said at least three surrounding housing elements is a plastic or nylon moulding.17. An axle assembly comprising a hydrostatic transmission and a differentialled gear reduction transmission disposed within at least three surrounding housing elements, said hydrostatic transmission including a hydrostatic pump and motor and said differentialled gear reduction transmission including a reduction gear train comprising a plurality of interconnecting gears, said hydrostatic transmission connected to said reduction gear train by a power transmission link having a horizontal axis of rotation disposed in a first horizontal plane and comprising a motor output shaft and a reduction gear train input shaft, a user operated mechanical disconnect mechanism for selectively disengaging said motor output shaft from said reduction train input shaft; a bridging element surrounding said motor output shaft and disposed adjacent said mechanical disconnect mechanism, wherein at least two of said at least three surrounding housing elements reside side by side one another on one side of said first horizontal plane and wherein those remaining housing elements of said at least three surrounding housing elements not disposed to said one side of said first horizontal plane reside on the opposite side of said first horizontal plane, said at least three surrounding housing elements are respectively provided with uniplanar junction seams meeting at a common parting plane coincident with said first horizontal plane.18. The axle assembly according to claim 17, wherein said two of said least three surrounding housing elements are housing cover elements, and where each housing cover element overlies a respective end of said bridging element.19. The axle assembly according to claim 17, wherein said two of said least three surrounding housing elements are housing case elements, and where each housing case element overlies a respective end of said bridging element.20. The axle assembly according to claim 21, and further comprising an input drive shaft having a vertical axis of rotation rotatably supported in one of said at least three surrounding housing elements, said vertical axis of rotation of said input drive shaft disposed perpendicular to said first horizontal plane, wherein said input drive shaft comprises a first portion protruding outside of the respective housing element and a second portion protruding inside of said respective housing element to drivingly engage said pump.21. The axle assembly according to claim 20, and further comprising a pair of axle shafts rotatably supported in at least two of said at least three housing elements, said axle shafts having a horizontal axis of rotation disposed parallel with said first horizontal plane.22. The axle assembly according to claim 21 wherein said differentialled gear reduction transmission further comprising a mechanical differential drivingly connected to said axle shafts.23. The axle assembly according to claim 22 wherein said horizontal axis of rotation of said axle shafts is coincident with said first horizontal plane.24. The axle assembly according to claim 22, and further comprising a collar element disposed on respective ends of said motor output shaft and said reduction gear train input shaft, said collar element having a locked axial position where it is rotationally locked to said respective ends of said motor output shaft and said reduction gear train input shaft and an unlocked axial position where it is rotationally locked to the end of only one of said motor output shaft and said reduction gear train input shaft, said collar operationally connected to said user operated disconnect member.25. The axle assembly according to claim 22, and further comprising a collar element disposed on respective ends of said motor output shaft and said reduction gear train input shaft, said collar element shiftable in one axial direction for drivingly connecting said motor output shaft to said reduction gear train input shaft and in the other axial direction for drivingly disconnecting said motor output shaft from said reduction gear train input shaft, said collar operationally connected to said user operated disconnect member.26. The axle assembly according to claim 22, and further comprising interior mounting surfaces disposed on a second horizontal plane in at least one of said at least three housing elements; said hydrostatic transmission further comprises a pintle-valve or centersection equivalent for fluidly coupling said pump and motor together, said pintle-valve or centersection equivalent fixed to said interior mounting surfaces, wherein said second horizontal plane resides parallel to and not coincident with said first horizontal plane and said second horizontal plane positioned nearer said first portion of said input drive shaft than said first horizontal plane.27. The axle assembly according to claim 26 and further comprising a bulkhead wall provided by at least one of said at least three surrounding housing elements, said bulkhead wall formed substantially vertically to be disposed generally parallel to the vertical axis of said input drive shaft, said bulkhead wall delimiting an inner fluid reservoir surrounding said hydrostatic transmission from an inner fluid reservoir surrounding said differentialled gear reduction transmission such that said hydrostatic transmission is disposed one side of said internal bulkhead wall whereas said differentialled gear reduction transmission is disposed on the opposite side.28. The axle assembly according to claim 27 wherein only two of said at least three surrounding housing elements are aluminium pressure die-castings.29. The axle assembly according to claim 26 wherein said motor output shaft is piloted to said gear reduction train input shaft, the piloting of said motor output shaft and said gear reduction train input shaft constituting the alignment mechanism of said power transmission link.30. The axle assembly according to claim 29 wherein said bridging element has a male profile arranged to protrude into female pockets provided in respective said two of at least three surrounding housing elements.31. The axle assembly according to claim 30 wherein said bridging element is cylindrical and where each of said female pockets is semi-cylindrical in shape.32. An axle assembly according to claim 30 wherein said bridging element furthermore performs in the role of bearing to support said motor output shaft.33. An axle assembly according to claim 32 wherein said bridging element includes an intermediate portion and where said intermediate portion is exposed exteriorly of said at least three surrounding housing elements.34. The axle assembly according to claim 17 wherein said bridging element includes an intermediate portion and where said intermediate portion is exposed exteriorly of said at least three surrounding housing elements such that said power transmission link is protected from exposure to the ambient environment.35. The axle assembly according to claim 17, further comprising at least one recessed pocket provided in one of said at least three surrounding housing elements, said recessed pocket overlying said bridging element.36. The axle assembly according to claim 35 wherein said bridging element is cylindrical and performs role of bearing to support said motor output shaft.37. The axle assembly according to claim 36 wherein said bridging element includes an intermediate portion and where said intermediate portion is exposed exteriorly of said at least three surrounding housing elements.38. The axle assembly according to claim 37 wherein said bridging element is in engaging contact with said at least one recessed pocket.39. The axle assembly according to claim 17 wherein any two of said at least three surrounding housing elements are aluminium pressure die-castings.40. The axle assembly according to claim 39 wherein the remaining at least one of said at least three surrounding housing elements is a pressed steel component.41. The axle assembly according to claim 39 wherein the remaining at least one of said at least three surrounding housing elements is a plastic or nylon moulding.42. An axle assembly comprising a hydrostatic transmission and a differentialled gear reduction transmission disposed within at least three surrounding housing elements, said hydrostatic transmission including a hydrostatic pump and motor and said differentialled gear reduction transmission including a reduction gear train comprising a plurality of interconnecting gears, said hydrostatic transmission connected to said reduction gear train by a power transmission link having a horizontal axis of rotation disposed in a first horizontal plane and comprising a motor output shaft and a reduction gear train input shaft, a user operated mechanical disconnect mechanism disposed intermediate said motor output shaft and said reduction train input shaft; a bridging element surrounding said motor output shaft and disposed adjacent said mechanical disconnect mechanism, wherein at least two of said at least three surrounding housing elements are provided with uniplanar junction seams meeting at a common parting plane arranged to be coincident with said first horizontal plane.43. The axle assembly according to claim 42, and further comprising an input drive shaft having a vertical axis of rotation rotatably supported in one of said at least three surrounding housing elements, said vertical axis of rotation of said input drive shaft disposed perpendicular to said first horizontal plane, wherein said input drive shaft comprises a first portion protruding outside of the respective housing element and a second portion protruding inside of said respective housing element to drivingly engage said pump.44. The axle assembly according to claim 43, and further comprising a pair of axle shafts rotatably supported in at least two of said at least three housing elements, said axle shafts having a horizontal axis of rotation disposed parallel with said first horizontal plane.45. The axle assembly according to claim 44 wherein said differentialled gear reduction transmission further comprising a mechanical differential drivingly connected to said pair of axle shafts.46. The axle assembly according to claim 45, and further comprising a collar element disposed on respective ends of said motor output shaft and said reduction gear train input shaft, said collar element having a locked axial position where it is rotationally locked to said respective ends of said motor output shaft and said reduction gear train input shaft and an unlocked axial position where it is rotationally locked to the end of only one of said motor output shaft and said reduction gear train input shaft, said collar operationally connected to said user operated disconnect member.47. The axle assembly according to claim 45 wherein said horizontal axis of rotation of said axle shafts is coincident with said first horizontal plane.48. The axle assembly according to claim 47, and further comprising a bulkhead wall provided by at least one of said at least three surrounding housing elements, said bulkhead wall formed substantially vertically to be disposed generally parallel to the vertical axis of said input drive shaft, said bulkhead wall delimiting an inner fluid reservoir surrounding said hydrostatic transmission from an inner fluid reservoir surrounding said differentialled gear reduction transmission such that said hydrostatic transmission is disposed one side of said internal bulkhead wall whereas said differentialled gear reduction transmission is disposed on the opposite side.49. The axle assembly according to claim 47, and further comprising a collar element disposed on respective ends of said motor output shaft and said reduction gear train input shaft, said collar element shiftable in one axial direction for drivingly connecting said motor output shaft to said reduction gear train input shaft and in the other axial direction for drivingly disconnecting said motor output shaft from said reduction gear train input shaft, said collar operationally connected to said user operated disconnect member.50. The axle assembly according to claim 49, and further comprising interior mounting surfaces disposed on a second horizontal plane in at least one of said at least three housing elements; said hydrostatic transmission further comprises a pintle-valve or centersection equivalent for fluidly coupling said pump and motor together, said pintle-valve or centersection equivalent fixed to said interior mounting surfaces, wherein said second horizontal plane resides parallel to and not coincident with said first horizontal plane and said second horizontal plane positioned nearer said first portion of said input drive shaft than said first horizontal plane.51. The axle assembly according to claim 50 wherein only two of said at least three surrounding housing elements are aluminium pressure die-castings.52. The axle assembly according to claim 50 wherein said motor output shaft is piloted to said gear reduction train input shaft, the piloting of said motor output shaft and said gear reduction train input shaft constituting the alignment mechanism of said power transmission link.53. The axle assembly according to claim 52 wherein said bridging element has a male profile arranged to protrude into female pockets provided in respective said two of at least three surrounding housing elements.54. The axle assembly according to claim 53 wherein said bridging element is cylindrical and where each of said female pockets is semi-cylindrical in shape.55. An axle assembly according to claim 54 wherein said bridging element furthermore performs in the role of bearing to support said motor output shaft.56. An axle assembly according to claim 55 wherein said bridging element includes an intermediate portion and where said intermediate portion is exposed exteriorly of said at least three surrounding housing elements.57. The axle assembly according to claim 42, wherein said bridging element includes an intermediate portion and where said intermediate portion is exposed exteriorly of said at least three surrounding housing elements.58. The axle assembly according to claim 42, further comprising at least one recessed pocket provided in one of said at least three surrounding housing elements, said recessed pocket overlying said bridging element.59. The axle assembly according to claim 58 wherein said bridging element is cylindrical and performs role of bearing to support said motor output shaft.60. The axle assembly according to claim 59 wherein said bridging element includes an intermediate portion and where said intermediate portion is exposed exteriorly of said at least three surrounding housing elements.61. The axle assembly according to claim 60 wherein said bridging element is in engaging contact with said at least one recessed pocket.62. The axle assembly according to claim 42 wherein any two of said at least three surrounding housing elements are aluminium pressure die-castings.63. The axle assembly according to claim 62 wherein the remaining at least one of said at least three surrounding housing elements is a pressed steel component.64. The axle assembly according to claim 62, wherein the remaining at least one of said at least three surrounding housing elements is a plastic or nylon moulding.65. The axle assembly according to claim 42 wherein said differentialled gear reduction transmission includes a mechanical differential.66. The axle assembly according to claim 42 wherein said hydrostatic transmission further comprises a pintle-valve or centersection equivalent for fluidly coupling said pump and motor together.
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