Claims
- 1. A motor protector for a submersible pumping system, comprising:
a bellows assembly adapted to pressurize an internal fluid of the submersible pumping system relative to an external fluid; and a fluid absorbent assembly configured for removing an undesirable fluid from the internal fluid.
- 2. The motor protector of claim 1, wherein the bellows assembly comprises a spring positioned to compress the variable chamber.
- 3. The motor protector of claim 1, wherein the bellows assembly is formed by a material substantially impermeable by the external fluid.
- 4. The motor protector of claim 1, wherein the bellows assembly has an open end configured for fixedly sealing with an interior of the submersible pumping system.
- 5. The motor protector of claim 1, further comprising a particulate filter assembly.
- 6. The motor protector of claim 5, wherein the particulate filter assembly is configured for positioning in the internal fluid.
- 7. The motor protector of claim 5, wherein the particulate filter assembly is configured for positioning in the external fluid.
- 8. The motor protector of claim 1, further comprising a labyrinth structure.
- 9. The motor protector of claim 8, wherein the labyrinth structure comprises a multi-directional conduit winding that is operable in multiple orientations, the multi-directional conduit winding having at least one conduit extending back and forth in the multiple orientations.
- 10. The motor protector of claim 9, wherein the labyrinth structure comprises an annular geometry configured for positioning circumferentially about a motor-to-pump shaft assembly.
- 11. A motor protector for a submersible pumping system, comprising:
a bellows assembly configured for positioning between an internal fluid of the submersible pumping system and an external fluid to pressurize the internal fluid relative to the external fluid; and a particulate filter assembly.
- 12. The motor protector of claim 11, comprising a fluid absorbent assembly configured for removing an undesirable fluid from the internal fluid.
- 13. The motor protector of claim 11, wherein the bellows assembly is formed by a material substantially impermeable by the external fluid.
- 14. The motor protector of claim 11, wherein the particulate filter assembly is configured for positioning in the internal fluid.
- 15. The motor protector of claim 11, wherein the particulate filter assembly is configured for positioning in the external fluid.
- 16. The motor protector of claim 11, comprising a multi-orientable labyrinth that is operable in multiple orientations by a multi-directional conduit, which extends back and forth in the multiple orientations.
- 17. A motor protector for a submersible pumping system, comprising:
a bellows assembly comprising:
an accordion-like enclosure forming a movable fluid separation interface configured for isolating an internal fluid of the submersible pumping system; an attachment structure adapted to attach the enclosure to a protector component; and the attachment structure being free of sliding seals.
- 18. The motor protector of claim 17, wherein the movable fluid separation interface is configured for substantially balancing fluid pressures of the internal fluid and a fluid separated from the internal fluid by the accordion-like enclosure.
- 19. The motor protector of claim 17, wherein the bellows assembly includes one end and the attachment structure is adapted to attach the end to the protector component.
- 20. The motor protector of claim 19, wherein the bellows assembly includes two ends and the attachment structure is adapted to attach each of the two ends to a protector component.
- 21. The motor protector of claim 17, wherein the bellows assembly is configured for positioning about a pump-to-motor shaft assembly of the submersible pumping system.
- 22. The motor protector of claim 17, wherein the accordion-like enclosure comprises inner and outer annular walls intercoupled at a ring-shaped member.
- 23. The motor protector of claim 22, wherein the inner and outer annular walls are disposed longitudinally adjacent one another, the ring-shaped member forming a fluid interface step between the inner and outer annular walls.
- 24. The motor protector of claim 17, comprising a particulate filter assembly.
- 25. The motor protector of claim 17, comprising a fluid absorbent assembly configured for removing an undesirable fluid from the internal fluid.
- 26. The motor protector of claim 17, wherein the accordion-like enclosure is formed by a material substantially impermeable by an undesirable fluid.
- 27. The motor protector of claim 17, comprising a multi-orientable labyrinth that is operable in multiple orientations by a multi-directional conduit, which extends back and forth in the multiple orientations.
- 28. A pressure equalization system for a submersible pumping system, comprising:
a motor protector having a multi-orientable labyrinth assembly comprising at least one conduit extending back and forth in multiple directions to provide operability in the multiple orientations, wherein first and second ends of the at least one conduit are configured for fluid coupling with a first fluid and a second fluid, respectively.
- 29. The pressure equalization system of claim 28, wherein the first fluid comprises an internal fluid of the submersible pumping system and the second fluid comprises an external fluid.
- 30. The pressure equalization system of claim 28, wherein the multi-orientable labyrinth assembly comprises an annular geometry configured for positioning circumferentially about a motor-to-pump shaft assembly.
- 31. The pressure equalization system of claim 28, wherein the multi-orientable labyrinth assembly is configured for positioning adjacent a motor of the submersible pumping system between the first and second fluids.
- 32. The pressure equalization system of claim 29, further comprising a bellows assembly configured for positioning between an internal motor fluid of the submersible pumping system and the external fluid, wherein the bellows assembly is formed by a material substantially impermeable by the external fluid.
- 33. The motor protector of claim 32, wherein the bellows assembly positively pressurizes the internal fluid relative to an external fluid.
- 34. The motor protector of claim 32, wherein the bellows assembly is configured for positioning about a pump-to-motor shaft assembly of the submersible pumping system.
- 35. A submersible pumping system, comprising:
a motor having an internal motor fluid; a pump operatively coupled to the motor; a motor protection assembly coupled to the motor, comprising:
a bellows assembly configured for separating the motor fluid from an external fluid and for pressurizing the internal motor fluid to a pressure higher than that of the external fluid; a fluid absorbent assembly configured for removing an undesirable fluid from the internal fluid; and a particulate filter assembly.
- 36. The motor protector of claim 35, further comprising a labyrinth structure.
- 37. The motor protector of claim 36, wherein the labyrinth structure comprises a multi-directional conduit winding that is operable in multiple orientations, the multi-directional conduit winding having at least one conduit extending back and forth in the multiple orientations.
- 38. A submersible pumping system, comprising:
a motor comprising an internal motor fluid; a pump operatively coupled to the motor; a motor protection assembly coupled to the motor, comprising:
a multi-orientable labyrinth assembly comprising at least one conduit extending back and forth in multiple directions to provide operability in the multiple orientations, wherein first and second ends of the at least one conduit are configured for fluid coupling with a first fluid and a second fluid, respectively.
- 39. The pressure equalization system of claim 38, wherein the first fluid comprises an internal fluid of the submersible pumping system and the second fluid comprises an external fluid.
- 40. The submersible pumping system of claim 38, wherein the multi-orientable labyrinth assembly comprises an annular geometry configured for positioning circumferentially about a shaft assembly extending between the motor and the pump.
- 41. The submersible pumping system of claim 38, wherein the motor protection assembly comprises a bellows assembly configured for separating the first fluid from the second fluid.
- 42. The motor protector of claim 41, wherein the bellows assembly positively pressurizes the first fluid relative to the second fluid.
- 43. The motor protector of claim 41, wherein the bellows assembly is disposed about a pump-to-motor shaft assembly and is coupled to an interior portion of the submersible pumping system without any sliding seals.
- 44. The submersible pumping system of claim 38, wherein the motor protection assembly comprises a fluid absorbent assembly configured for removing an undesirable fluid from the internal motor fluid.
- 45. The submersible pumping system of claim 38, wherein the motor protection assembly comprises a particulate filter assembly.
- 46. A met hod for protecting a motor from undesirable fluids external to the motor, comprising:
separating a motor fluid from an external fluid via a bellows assembly; pressurizing the motor fluid relative to the external fluid; and removing undesirable elements to protect the motor fluid.
- 47. The method of claim 46, wherein separating the motor fluid comprises coupling an open end of the bellows assembly to the motor.
- 48. The method of claim 46, wherein separating the motor fluid comprises positioning a labyrinth structure between the motor fluid and the external fluid.
- 49. The method of claim 48, wherein positioning the labyrinth structure comprises inhibiting inflow of the external fluid for a plurality of motor orientations via a multi-directional conduit winding of the labyrinth structure, the multi-directional conduit winding extending back and forth in each of the plurality of motor orientations.
- 50. The method of claim 46, wherein pressurizing the motor fluid comprises springably biasing the bellows assembly toward the motor fluid.
- 51. The method of claim 46, wherein removing undesirable elements comprises absorbing undesirable fluids.
- 52. The method of claim 46, wherein removing undesirable elements comprises filtering undesirable particulate.
- 53. A method for protecting a motor from undesirable fluids external to the motor, comprising:
coupling a first end of a conduit to the motor in fluid communication with an internal fluid of the motor; extending the conduit back and forth in multiple orientations; and fluidly coupling a second end of the conduit to the undesirable fluids.
- 54. The method of claim 53, wherein extending the conduit back and forth comprises facilitating fluid separation between the internal and undesirable fluids in each of the plurality of orientations.
- 55. A system for protecting a motor from undesirable fluids external to the motor, comprising:
labyrinth means for separating a motor fluid from an external fluid in multiple orientations of the motor.
- 56. A system for protecting a motor from undesirable fluids external to the motor, comprising:
bellows means for separating a motor fluid from an external fluid and for pressurizing the motor fluid to a relatively higher pressure than the external fluid; fluid filtering means for filtering undesirable particulate; and fluid absorbing means for removing undesirable fluids.
- 57. A system for protecting a motor from undesirable fluids external to the motor, comprising:
bellows means for separating a motor fluid from an external fluid in a region between the motor and a pump without sliding seals.
PRIORITY
[0001] The following claims priority to prior provisional application No. 60/303,860 (filed Jul. 7, 2001) and prior provisional application No. 60/299,013 (filed Jun. 18, 2001).
Provisional Applications (2)
|
Number |
Date |
Country |
|
60303860 |
Jul 2001 |
US |
|
60299013 |
Jun 2001 |
US |