A power transfer unit comprising a first shaft configured to receive an input torque from a first vehicle component, a second shaft configured to selectively receive the torque from the first shaft and transmit the torque to a second vehicle component, an engaging mechanism, a housing configured to
A power transfer unit comprising a first shaft configured to receive an input torque from a first vehicle component, a second shaft configured to selectively receive the torque from the first shaft and transmit the torque to a second vehicle component, an engaging mechanism, a housing configured to enclose at least a portion of the power transfer unit, and a seal system having a first seal and a second seal. The engaging mechanism configured to operate in a first mode and a second mode. When in the first mode, the engaging mechanism selectively couples the second shaft to the first shaft, and when in the second mode, the second shaft is decoupled from the first shaft. The first seal is disposed between the housing and a first end of the second shaft, and the second seal is disposed between the housing and a second end of the second shaft.
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1. A power transfer unit for a vehicle, comprising: a first shaft configured to receive an input torque from a first vehicle component;a second shaft configured to selectively receive the torque from the first shaft and transmit the torque to a second vehicle component, the second shaft having a fir
1. A power transfer unit for a vehicle, comprising: a first shaft configured to receive an input torque from a first vehicle component;a second shaft configured to selectively receive the torque from the first shaft and transmit the torque to a second vehicle component, the second shaft having a first end and a second end;an engaging mechanism configured to operate in a first mode and a second mode, when in the first mode the engaging mechanism selectively couples the second shaft to the first shaft, when in the second mode the second shaft is decoupled from the first shaft;a housing configured to enclose at least a portion of the power transfer unit; anda seal system having a first seal and a second seal, the first seal being disposed between the housing and the first end of the second shaft, the second seal being disposed between the housing and the second end of the second shaft, wherein the first seal includes a first support member, a first biasing member, and a first lip member having a first portion that is coupled to the first support member and a second portion that is biased by the first biasing member, and the first seal includes a second support member, a second biasing member, and a second lip member having a first portion that is coupled to the second support member and a second portion that is biased by the second biasing member and wherein the first support member is connected to the second support member independently of the housing, first shaft and second shaft. 2. The power transfer unit of claim 1, wherein the first support member abuts the housing and the second portion of the first lip member is biased into engagement with the second shaft. 3. The power transfer unit of claim 1, wherein the second support member abuts the housing, the first support member is connected directly to the second support member, the second portion of the first lip member is biased into engagement with a first portion of the second shaft, and the second portion of the second lip member is biased into engagement with a second portion of the second shaft. 4. The power transfer unit of claim 1, wherein the first seal further includes a gate that extends through the first seal and communicates with an outside surface of the housing to transfer fluid to outside of the power transfer unit. 5. The power transfer unit of claim 4, wherein the gate is disposed between the first lip member and the second lip member. 6. The power transfer unit of claim 1, wherein the first support member abuts a portion of the housing, and wherein the first lip member includes a first contact surface that is biased by the first biasing member into engagement with a first portion of the second shaft. 7. The power transfer unit of claim 6, wherein each of the first and second seals further includes a second biasing member that is configured to bias a second contact surface of the first lip member into engagement with a second portion of the second shaft. 8. The power transfer unit of claim 1, wherein a first fluid is retained in a volume enclosed by the first and second seals. 9. The power transfer unit of claim 8, further comprising a needle bearing provided between the first shaft and the second shaft to permit efficient rotation of the first shaft relative to the second shaft when the second shaft is decoupled from the first shaft. 10. The power transfer unit of claim 9, wherein a second fluid different from the first fluid is used to lubricate the needle bearing, and wherein the seal system prohibits mixing of the first and second fluids. 11. The power transfer unit of claim 1, wherein the first vehicle component is a front differential assembly and the second vehicle component is a propshaft for communicating torque to a set of rear wheels of the vehicle. 12. The power transfer unit of claim 1, wherein the engaging mechanism is a clutch mechanism that is disposed external to a volume enclosed by the first and second seals. 13. The power transfer unit of claim 1, wherein the second shaft is a hollow shaft and the first shaft is received by the second shaft. 14. The power transfer unit of claim 1 wherein the second seal includes a first support member, a first biasing member, and a first lip member having a first portion that is coupled to the first support member of the second seal and a second portion that is biased by the first biasing member of the second seal, and the second seal further includes a second support member, a second biasing member, and a second lip member having a first portion that is coupled to the second support member of the second seal and a second portion that is biased by the second biasing member of the second seal. 15. The power transfer unit of claim 4, wherein the first lip member includes a contact surface engaged with the second shaft, the second lip member includes a contact surface that also is engaged with the second shaft, and the gate is disposed between the contact surface of the first lip member and the contact surface of the second lip member. 16. A power transfer unit for a vehicle, comprising: a first shaft configured to receive an input torque from a first vehicle component;a second shaft configured to selectively receive the torque from the first shaft and transmit the torque to a second vehicle component;an engaging mechanism having a first mode in which the second shaft is coupled to the first shaft, and a second mode in which the second shaft is decoupled from the first shaft;a housing enclosing at least a portion of the power transfer unit, with the second shaft rotating relative to the housing; anda seal disposed between the housing and the second shaft and including a support member engaging the housing, a first biasing member, a second biasing member, and at least one lip member, said at least one lip member having a portion that is coupled to the support member, a first contact surface and a second contact surface, wherein the first biasing member urges the first contact surface into engagement with the second shaft and the second biasing member urges the second contact surface into engagement with the second shaft at a location spaced from the first contact surface. 17. The power transfer unit of claim 16 wherein said first contact surface and said second contact surface are defined on the same lip member. 18. The power transfer unit of claim 16 wherein said first contact surface is defined on a first lip member and said second contact surface is defined on a second lip member, and wherein said support member comprises a first support member and wherein the seal also includes a second support member connected to the first support member, and wherein the first lip member is coupled to the first support member and the second lip member is coupled to the second support member. 19. The power transfer unit of claim 16 which also includes a second seal disposed between the housing and the second shaft, spaced from the other seal and wherein the second seal includes a support member engaging the housing, a first biasing member, a second biasing member, and at least one lip member, said at least one lip member of the second seal having a portion that is coupled to the support member of the second seal, a first contact surface and a second contact surface, wherein the first biasing member of the second seal urges the first contact surface of the second seal into engagement with the second shaft and the second biasing member of the second seal urges the second contact surface of the second seal into engagement with the second shaft at a location spaced from the first contact surface of the second seal.
Miyawaki Motohisa (Nakanoshima JPX), Control system for a transfer device of a four-wheel drive vehicle with a continuously variable belt-drive transmission.
Steinhagen Horst G. (Rockford IL) Blank Paul C. (Rockford IL), Inter-axle differential having a friction-type biasing clutch and wheel slip sensing control means therefor.
Watson Will (Southfield MI) Miller Alan L. (Ithaca NY) Sundquist Drew A. (Canton MI) Simpson Roger T. (Ithaca NY) Ducklow Diane K. (Farmington MI) Beckerman Joseph W. (Livonia MI) Showalter Dan J. (P, On demand vehicle drive system.
Watson Will (Southfield MI) Miller Alan L. (Ithaca NY) Sundquist Drew A. (Canton MI) Simpson Roger T. (Ithaca NY) Ducklow Diane K. (Farmington MI) Beckerman Joseph W. (Livonia MI) Showalter Dan J. (P, On demand vehicle drive system.
Watson Will (Southfield MI) Miller Alan L. (Ithaca NY) Sundquist Drew A. (Canton MI) Simpson Roger T. (Ithaca NY) Ducklow Diane K. (Farmington MI) Beckerman Joseph W. (Livonia MI) Showalter Dan J. (P, On demand vehicle drive system.
Watson Will ; Miller Alan L. ; Sundquist Drew A. ; Simpson Roger T. ; Ducklow Diane K. ; Beckerman Joseph W. ; Showalter Dan J., On demand vehicle drive system.
Watson Will ; Miller Alan L. ; Sundquist Drew A. ; Simpson Roger T. ; Ducklow Diane K. ; Beckerman Joseph W. ; Showalter Dan J., On demand vehicle drive system.
Lunn, Royston C.; MacAfee, J. Edwin; Grabowski, Robert C.; Renneker, Dennis N.; Winkler, John W., Vehicle drive system having first and second operating modes and method of operating same.
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