A thrust bearing assembly in which each thrust pad is individually mounted on a deflection element. An embodiment of the invention comprises a rotating bearing runner having a wear resistant face and a stationary bearing carrier defining a plurality of cavities disposed annularly around the carrier.
A thrust bearing assembly in which each thrust pad is individually mounted on a deflection element. An embodiment of the invention comprises a rotating bearing runner having a wear resistant face and a stationary bearing carrier defining a plurality of cavities disposed annularly around the carrier. A deflection element, such as a Belleville washer, is disposed in a cavity of the plurality of cavities and a pad is disposed over the deflection element. The pad is at least partially disposed within the cavity. The wear resistant face of the rotating bearing runner contacts the pad.
대표청구항▼
What is claimed is: 1. A thrust bearing assembly comprising: a rotating bearing runner having a wear resistant face; a stationary bearing carrier defining a plurality of cavities disposed annularly around the carrier; a deflection element disposed in a cavity of the plurality of cavities; and a pad
What is claimed is: 1. A thrust bearing assembly comprising: a rotating bearing runner having a wear resistant face; a stationary bearing carrier defining a plurality of cavities disposed annularly around the carrier; a deflection element disposed in a cavity of the plurality of cavities; and a pad disposed over the deflection element, the pad at least partially disposed within the cavity, and the wear resistant face of the rotating bearing runner contacting the pad. 2. The thrust bearing assembly of claim 1, further comprising a load distribution washer disposed between the deflection element and the pad. 3. The thrust bearing assembly of claim 2, the load distribution washer comprising a steel disc. 4. The thrust bearing assembly of claim 1, the pad and the cavity being generally circular, and the pad comprising a ceramic disc. 5. The thrust bearing assembly of claim 1, the deflection element comprising a Belleville washer. 6. The thrust bearing assembly of claim 1, the cavity having a longitudinal axis, the cavity constraining the pad in a radial direction while allowing the pad to move in a direction generally along the longitudinal axis. 7. The thrust bearing assembly of claim 1, the wear resistant face of the rotating bearing runner comprising a wear resistant insert. 8. The thrust bearing assembly of claim 1, the deflection element being partially compressed before operation of the thrust bearing assembly. 9. The thrust bearing assembly of claim 1, the deflection element and the pad being unconnected. 10. A thrust bearing assembly for a downhole motor comprising: a first stationary bearing carrier defining a first plurality of cavities disposed annularly around the first stationary bearing carrier; a second stationary bearing carrier defining a second plurality of cavities disposed annularly around the second stationary bearing carrier; and a rotating bearing runner disposed between the first stationary bearing carrier and the second stationary bearing carrier, the rotating bearing carrier having a first wear resistant face and a second wear resistant face, each cavity of the first plurality of cavities and the second plurality of cavities holding a deflection element and a pad disposed over the deflection element, the first wear resistant face in contact with the pads of the first stationary bearing carrier, and the second wear resistant face in contact with the pads of the second stationary bearing carrier. 11. The thrust bearing assembly of claim 10, further comprising a load distribution washer disposed between the deflection element and the pad of the each cavity. 12. The thrust bearing assembly of claim 11, the load distribution washer comprising a steel disc. 13. The thrust bearing assembly of claim 10, the first wear resistant face and the second wear resistant face comprising abrasion resistant rings. 14. The thrust bearing assembly of claim 10, the first stationary bearing carrier being fixed to the second stationary bearing carrier by one of bolting and welding. 15. The thrust bearing assembly of claim 10, the pad comprising a ceramic disc. 16. The thrust bearing assembly of claim 10, the deflection element comprising a Belleville washer. 17. The thrust bearing assembly of claim 10, the first stationary bearing carrier further defining a third plurality of cavities facing in a direction opposite to the first plurality of cavities, each cavity of the third plurality of cavities holding a deflection element and a pad disposed over the deflection element, and the thrust bearing assembly further comprising: a second rotating bearing runner having a first wear resistant face and a second wear resistant face, the first wear resistant face of the second rotating bearing runner in contact with the pads of the third plurality of cavities; and a stationary bearing member defining a fourth plurality of cavities, each cavity of the fourth plurality of cavities holding a deflection element and a pad disposed over the deflection element, the pads of the fourth plurality of cavities in contact with the second wear resistant face of the second bearing runner. 18. The thrust bearing assembly of claim 17, the stationary bearing member adapted to be compressed by a drill casing. 19. The thrust bearing assembly of claim 17, further comprising a blank runner coupled to the second stationary bearing carrier, the blank runner configured to engage a blank overload stop prior to bottoming of the deflection elements. 20. The thrust bearing assembly of claim 10, each cavity of the first and second pluralities of cavities having a longitudinal axis, the each cavity constraining the pad in a radial direction while allowing the pad to move in a direction generally along the longitudinal axis. 21. The thrust bearing assembly of claim 10, each cavity of the first and second pluralities of cavities comprising a counterbored circular hole. 22. A downhole drilling apparatus that includes a progressive cavity drive train comprising: a housing structure; a stator, the stator having a longitudinal axis; a rotor having a true center, the rotor being located within the stator; the stator and the rotor each having coacting helical lobes that are in contact with one another at any transverse section, the stator having one more helical lobe than the rotor such that a plurality of progressive cavities is defined between the rotor and the stator, and the rotor being adapted to rotate within the stator such that the true center of the rotor orbits the axis of the stator, the orbit having a predetermined radius and the orbiting motion of the rotor causing a progression of the progressive cavities in the direction of the axis of the stator; a thrust bearing assembly coupled to the rotor, the thrust bearing assembly comprising a rotating bearing runner having a wear resistant face; a stationary bearing carrier defining a plurality of cavities disposed annularly around the carrier; a deflection element disposed in a cavity of the plurality of cavities; and a pad disposed over the deflection element, the pad at least partially disposed within the cavity, and the wear resistant face of the rotating bearing runner contacting the pad. 23. The downhole drilling apparatus of claim 22, the cavity having a longitudinal axis, the cavity constraining the pad in a radial direction while allowing the pad to move in a direction generally along the longitudinal axis.
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