Auxillary drive system for motor vehicles having axle assembly and electric drive unit
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F16H-003/72
F16H-003/44
출원번호
UP-0110718
(2008-04-28)
등록번호
US-7588508
(2009-09-24)
발명자
/ 주소
Marsh, Gregory A.
Degowske, Robert J.
Huang, Zugang
출원인 / 주소
American Axle & Manufacturing, Inc.
대리인 / 주소
Harness, Dickey & Pierce, P.L.C.
인용정보
피인용 횟수 :
3인용 특허 :
67
초록▼
A vehicle with an axle assembly, which has a housing, a differential, an input shaft, a pair of shafts and a pair of wheel hubs, and an auxiliary drive unit that includes an electric motor and an overrunning clutch. The differential and the input shaft are disposed in the housing for rotation therei
A vehicle with an axle assembly, which has a housing, a differential, an input shaft, a pair of shafts and a pair of wheel hubs, and an auxiliary drive unit that includes an electric motor and an overrunning clutch. The differential and the input shaft are disposed in the housing for rotation therein. The differential includes a case and a ring gear that is coupled to the case. The input shaft has a pinion that is meshingly engaged to the ring gear. Each shaft couples the differential to one of the wheel hubs. The clutch includes an input portion, which is coupled to the output shaft of the electric motor, and an output portion, which is coupled to the input shaft. The output portion is de-coupled from the input portion when a rotational speed of the input portion is not greater than a rotational speed of the output portion.
대표청구항▼
What is claimed is: 1. A vehicle comprising: a primary powertrain providing a primary source of propulsive power; a first axle receiving propulsive power from the primary powertrain and transmitting power to a first set of vehicle wheels; and a drive train module for selectively providing propulsiv
What is claimed is: 1. A vehicle comprising: a primary powertrain providing a primary source of propulsive power; a first axle receiving propulsive power from the primary powertrain and transmitting power to a first set of vehicle wheels; and a drive train module for selectively providing propulsive power to a second set of vehicle wheels, the drive train module including a second axle assembly and an auxiliary drive, the second axle assembly having a housing, a differential unit, an input shaft, a pair of drive shafts and a pair of wheel hubs, the differential unit disposed in the housing for rotation about a differential axis, the input shaft being disposed in the housing for rotation about an input shaft axis that is transverse to the differential axis, the differential unit including a case and a bevel ring gear that is coupled to the case, the input shaft having a bevel pinion that is meshingly engaged to the bevel ring gear, each drive shaft coupling the differential unit to an associated one of the wheel hubs, the auxiliary drive having an electric motor and an overrunning clutch, the electric motor having an output shaft that is coaxial with the input shaft, the overrunning clutch including an input portion, which is coupled to the output shaft, and an output portion, which is coupled to the input shaft, the output portion being de-coupled from the input portion when a rotational speed of the input portion is not greater than a rotational speed of the output portion. 2. The vehicle of claim 1, wherein the auxiliary drive includes a housing that is fixedly but removably coupled to the housing of the axle assembly. 3. The vehicle of claim 1, wherein the electric motor has an outer diameter that is less than about 8 inches. 4. The vehicle of claim 3, wherein the outer diameter is less than about 6 inches. 5. The vehicle of claim 4, wherein a maximum sustained torque of an output of the electric motor is less than about 50 ft-lbs. 6. The vehicle of claim 1, wherein the input portion of the clutch includes an inner cone structure and the output portion of the clutch includes an outer cone structure and wherein the inner cone structure translates to engage the outer cone structure when the rotational speed of the inner cone structure exceeds the rotational speed of the outer cone structure. 7. The vehicle of claim 6, wherein the outer cone structure includes first and second interfaces, wherein the inner cone structure includes first and second mating interfaces, wherein the first mating interface engages the first interface when the inner and outer cone structures rotate in a first direction and wherein the second mating interface engages the second interface when the inner and outer cone structures rotate in a second direction opposite the first direction. 8. The vehicle of claim 7, wherein a rest area is formed on the outer cone structure between the first and second interfaces, the rest area being operable for axially spacing the first and second interfaces apart from one another, and wherein the inner cone structure is biased into the rest area. 9. A vehicle comprising: a primary powertrain providing a primary source of propulsive power; a first axle receiving propulsive power from the primary powertrain and transmitting power to a first set of vehicle wheels; and a drive train module for selectively providing propulsive power to a second set of vehicle wheels, the drive train module including a second axle assembly and an auxiliary drive, the second axle assembly having a housing, a differential unit, an input shaft, a pair of drive shafts and a pair of wheel hubs, the differential unit disposed in the housing for rotation about a differential axis, the input shaft being disposed in the housing for rotation about an input shaft axis that is transverse to the differential axis, the differential unit including a case and a bevel ring gear that is coupled to the case, the input shaft having a bevel pinion that is meshingly engaged to the bevel ring gear, each drive shaft coupling the differential unit to an associated one of the wheel hubs, the an auxiliary drive having an electric motor and an overrunning clutch, the electric motor having an outer diameter that is less than about 8 inches in diameter and being capable of providing a sustained rotary output that is less than or equal to about 50 ft-lbs, the electric motor having an output shaft that is coaxial with the input shaft, the overrunning clutch having a first portion, which is coupled to the output shaft, and a second portion, which is coupled to the input shaft. 10. The vehicle of claim 9, wherein the outer diameter is less than about 6 inches. 11. The vehicle of claim 9, wherein the auxiliary drive includes a housing that is fixedly but removably coupled to the housing of the axle assembly. 12. The vehicle of claim 9, wherein the first portion of the clutch includes an inner cone structure and the second portion of the clutch includes an outer cone structure and wherein the inner cone structure translates to engage the outer cone structure when a rotational speed of the inner cone structure exceeds a rotational speed of the outer cone structure. 13. The vehicle of claim 12, wherein the outer cone structure includes first and second interfaces, wherein the inner cone structure includes first and second mating interfaces, wherein the first mating interface engages the first interface when the inner and outer cone structures rotate in a first direction and wherein the second mating interface engages the second interface when the inner and outer cone structures rotate in a second direction opposite the first direction. 14. The vehicle of claim 13, wherein a rest area is formed on the outer cone structure between the first and second interfaces, the rest area being operable for axially spacing the first and second interfaces apart from one another, and wherein the inner cone structure is biased into the rest area. 15. A vehicle comprising: a primary powertrain providing a primary source of propulsive power; a first axle receiving propulsive power from the primary powertrain and transmitting power to a first set of vehicle wheels; and a drive train module for selectively providing propulsive power to a second set of vehicle wheels, the drive train module including a second axle assembly and an auxiliary drive, the second axle assembly having a housing, a differential unit, an input shaft, a pair of drive shafts and a pair of wheel hubs, the differential unit and the input shaft being disposed in the housing for rotation therein, the differential unit including a case and a ring gear that is coupled to the case, the input shaft having a pinion that is meshingly engaged to the ring gear, each drive shaft coupling the differential unit to an associated one of the wheel hubs, the auxiliary drive having an electric motor and an overrunning clutch, the electric motor having an outer diameter that is less than about 8 inches in diameter and being capable of providing a sustained rotary output that is less than or equal to about 50 ft-lbs, the electric motor having an output shaft, the overrunning clutch having a first portion, which is coupled to the output shaft, and a second portion, which is coupled to the input shaft; wherein the first portion of the clutch includes an inner cone structure and the second portion of the clutch includes an outer cone structure and wherein the inner cone structure translates to engage the outer cone structure when a rotational speed of the inner cone structure exceeds a rotational speed of the outer cone structure. 16. The vehicle of claim 15, wherein the outer cone structure includes first and second interfaces, wherein the inner cone structure includes first and second mating interfaces, wherein the first mating interface engages the first interface when the inner and outer cone structures rotate in a first direction and wherein the second mating interface engages the second interface when the inner and outer cone structures rotate in a second direction opposite the first direction. 17. The vehicle of claim 16, wherein a rest area is formed on the outer cone structure between the first and second interfaces, the rest area being operable for axially spacing the first and second interfaces apart from one another, and wherein the inner cone structure is biased into the rest area. 18. A vehicle comprising: a primary powertrain providing a primary source of propulsive power; a first axle receiving propulsive power from the primary powertrain and transmitting power to a first set of vehicle wheels; and a drive train module for selectively providing propulsive power to a second set of vehicle wheels, the drive train module including a second axle assembly and an auxiliary drive, the second axle assembly having a housing, a differential unit, an input shaft, a pair of drive shafts and a pair of wheel hubs, the differential unit disposed in the housing for rotation about a differential axis, the input shaft being disposed in the housing for rotation about an input shaft axis that is transverse to the differential axis, the differential unit including a case and a bevel ring gear that is coupled to the case, the input shaft having a bevel pinion that is meshingly engaged to the bevel ring gear, each drive shaft coupling the differential unit to an associated one of the wheel hubs, the auxiliary drive having an electric motor and an overrunning clutch, the electric motor having an output shaft that is coaxial with the input shaft, the overrunning clutch including an input portion, which is coupled to the output shaft, and an output portion, which is coupled to the input shaft, the output portion being de-coupled from the input portion when a rotational speed of the input portion is not greater than a rotational speed of the output portion, wherein the input portion of the clutch includes an inner cone structure and the output portion of the clutch includes an outer cone structure and wherein the inner cone structure translates to engage the outer cone structure when the rotational speed of the inner cone structure exceeds the rotational speed of the outer cone structure. 19. The vehicle of claim 18, wherein the outer cone structure includes first and second interfaces, wherein the inner cone structure includes first and second mating interfaces, wherein the first mating interface engages the first interface when the inner and outer cone structures rotate in a first direction and wherein the second mating interface engages the second interface when the inner and outer cone structures rotate in a second direction opposite the first direction. 20. The vehicle of claim 19, wherein a rest area is formed on the outer cone structure between the first and second interfaces, the rest area being operable for axially spacing the first and second interfaces apart from one another, and wherein the inner cone structure is biased into the rest area.
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