Rotational coupling device with improved lubrication
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F16D-027/115
F16D-013/74
출원번호
US-0594240
(2012-08-24)
등록번호
US-8881882
(2014-11-11)
발명자
/ 주소
Pardee, James A.
Gill, George P.
출원인 / 주소
Warner Electric Technology LLC
대리인 / 주소
Reising Ethington P.C.
인용정보
피인용 횟수 :
1인용 특허 :
12
초록▼
A rotational coupling device having improved lubrication is provided. The device includes a hub disposed about a rotational axis. A rotor is supported on, and configured for rotation about, the hub and defines a radially extending wall and a chamber on one side of the wall surrounding said hub and d
A rotational coupling device having improved lubrication is provided. The device includes a hub disposed about a rotational axis. A rotor is supported on, and configured for rotation about, the hub and defines a radially extending wall and a chamber on one side of the wall surrounding said hub and defining a sump containing a fluid. An armature is supported on the hub for rotation therewith within the chamber and axially spaced from the wall. Clutch plates are disposed between the rotor wall and armature and rotatably coupled to the rotor or armature. A field shell is disposed on an opposite side of the rotor wall from the armature and houses a conductor. One or more tubes have an end submerged in the fluid and extend through apertures in the armature. Rotation of said armature draws fluid through the tubes and onto the clutch plates.
대표청구항▼
1. A rotational coupling device, comprising: a hub configured for coupling to a shaft for rotation with said shaft about an axis of rotation;a rotor supported on said hub and configured for rotation relative to said hub about said axis of rotation, said rotor defining a radially extending wall and a
1. A rotational coupling device, comprising: a hub configured for coupling to a shaft for rotation with said shaft about an axis of rotation;a rotor supported on said hub and configured for rotation relative to said hub about said axis of rotation, said rotor defining a radially extending wall and a chamber on one side of said radially extending wall surrounding said hub, said chamber defining a sump containing a fluid;an armature supported on said hub for rotation therewith and disposed within said chamber, said armature axially spaced from said radially extending wall of said rotor;a first clutch plate disposed axially between said radially extending wall of said rotor and said armature, said first clutch plate coupled to said hub for rotation therewith, but axially movable relative to said hub;a second clutch plate disposed axially between said radially extending wall of said rotor and said armature, said second clutch plate coupled to said rotor for rotation therewith, but axially movable relative to said rotor;a field shell disposed about said hub on an opposite side of said radially extending wall of said rotor from said armature, said field shell housing a conductor therein; and,a first tube having a first end submerged in said fluid and extending through a first aperture in said armaturewherein rotation of said armature draws fluid through said first tube and onto said first and second clutch plates. 2. The rotational coupling device of claim 1, wherein said first end of said first tube defines a fluid inlet and a second end of said tube defines a fluid outlet and a direction of fluid flow through said fluid inlet is different than a direction of fluid flow through said fluid outlet. 3. The rotational coupling device of claim 2, wherein said direction of fluid flow through said fluid inlet is perpendicular to said direction of fluid flow through said fluid outlet. 4. The rotational coupling device of claim 1, wherein fluid exits said first tube in a direction parallel to said axis of rotation. 5. The rotational coupling device of claim 1, wherein fluid enters said first tube in a circumferential direction relative to said axis of rotation. 6. The rotational coupling device of claim 1, wherein said first aperture is nearer to a radially inner surface of said armature than to a radially outer surface of said armature. 7. The rotational coupling device of claim 1, further comprising a second tube having a first end submerged in said fluid and a second end extending through a second aperture in said armature wherein rotation of said armature draws fluid through said second tube and onto said first and second clutch plates. 8. The rotational coupling device of claim 7, wherein said first and second apertures are diametrically opposite one another. 9. The rotational coupling device of claim 1, further comprising a fluid slinger disposed about said hub. 10. The rotational coupling device of claim 9, wherein said fluid slinger is disposed on an opposite side of said first and second clutch plates relative to said armature. 11. A rotational coupling device, comprising: a hub configured for coupling to a shaft for rotation with said shaft about an axis of rotation;a rotor supported on said hub and configured for rotation relative to said hub about said axis of rotation, said rotor defining a radially extending wall and a chamber on one side of said radially extending wall surrounding said hub, said chamber defining a sump containing a fluid;an armature supported on said hub for rotation therewith and disposed within said chamber, said armature axially spaced from said radially extending wall of said rotor;a first clutch plate disposed axially between said radially extending wall of said rotor and said armature, said first clutch plate coupled to said hub for rotation therewith, but axially movable relative to said hub;a second clutch plate disposed axially between said radially extending wall of said rotor and said armature, said second clutch plate coupled to said rotor for rotation therewith, but axially movable relative to said rotor;a field shell disposed about said hub on an opposite side of said radially extending wall of said rotor from said armature, said field shell housing a conductor therein; and,means for transporting said fluid from said sump to said first and second clutch plateswherein said transporting means comprises a first tube having a first end submerged in said fluid and extending through a first aperture in said armature. 12. The rotational coupling device of claim 11, wherein said transporting means comprises a second tube having a first end submerged in said fluid and a second end extending through a second aperture in said armature. 13. The rotational coupling device of claim 12, wherein said first and second apertures are diametrically opposite one another. 14. The rotational coupling device of claim 11, wherein a direction of fluid flow into said transporting means is different than a direction of fluid flow out of said transporting means. 15. The rotational coupling device of claim 14, wherein said direction of fluid flow into said transporting means is perpendicular to a direction of fluid flow out of said transporting means. 16. The rotational coupling device of claim 11, wherein fluid exits said transporting means in a direction parallel to said axis of rotation. 17. The rotational coupling device of claim 11, wherein fluid enters said transporting means in a circumferential direction relative to said axis of rotation. 18. The rotational coupling device of claim 11, further comprising a fluid slinger disposed about said hub. 19. The rotational coupling device of claim 18, wherein said fluid slinger is disposed on an opposite side of said first and second clutch plates relative to said armature.
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이 특허에 인용된 특허 (12)
Charles A. Boyer ; Jeffrey C. Steiner, Armature for a selectively engageable and disengageable coupling.
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