초록 ▼

A hydrostatic mechanical seal assembly includes a locally deployed pump for pressurizing a lubricant fluid between the opposing faces of a mating ring and a sealing ring. In one exemplary embodiment, such pressurization may be achieved via a device that converts the rotational motion of a drive shaf

A hydrostatic mechanical seal assembly includes a locally deployed pump for pressurizing a lubricant fluid between the opposing faces of a mating ring and a sealing ring. In one exemplary embodiment, such pressurization may be achieved via a device that converts the rotational motion of a drive shaft into fluid pressure. The locally deployed pump is intended to advantageously provide a stable positive pressure on the sealing interface between the mating and sealing rings, which may provide improved sealing characteristics, especially in demanding downhole environments.

대표청구항 ▼

I claim: 1. A hydrostatic mechanical face seal assembly comprising: a mating ring having a first sealing face; a sealing ring having a second sealing face, the sealing ring deployed substantially coaxially with the mating ring, the sealing ring further disposed to rotate relative to the mating ring

I claim: 1. A hydrostatic mechanical face seal assembly comprising: a mating ring having a first sealing face; a sealing ring having a second sealing face, the sealing ring deployed substantially coaxially with the mating ring, the sealing ring further disposed to rotate relative to the mating ring; the first and second sealing faces biased towards one another; and a pump disposed to pressurize a lubricating fluid at an interface between the first and second sealing faces, the pump deployed locally with the mating ring and the sealing ring, but not on either of the first and second sealing faces. 2. The hydrostatic mechanical face seal assembly of claim 1, wherein at least one of the mating ring and the sealing ring are fabricated from a material having a Rockwell C hardness value of greater than about 65. 3. The hydrostatic mechanical face seal assembly of claim 1, wherein at least one of the mating ring and the sealing ring are fabricated from a material selected from the group consisting of tungsten carbide, silicon carbide, boron-containing steel, nitrogen-containing steel, tool steel, high chrome cast iron, cubic boron nitride, ceramic, carbon graphite, and diamond. 4. The hydrostatic mechanical face seal assembly of claim 1, wherein the first and second sealing faces are biased towards one another via a member selected from the group consisting of bellows and springs. 5. The hydrostatic mechanical face seal assembly of claim 1, wherein the pump is deployed integrally with the seal assembly. 6. The hydrostatic mechanical face seal assembly of claim 1, wherein the pump is deployed integrally with a member of the group consisting of the sealing ring and the mating ring. 7. The hydrostatic mechanical face seal assembly of claim 1, wherein: the mating ring is coupled to a mating ring carrier and the sealing ring is coupled to a sealing ring carrier; and the pump is deployed on a member selected from the group consisting of the sealing ring, the sealing ring carrier, the mating ring, and the mating ring carrier. 8. The hydrostatic mechanical face seal assembly of claim 7, wherein the pump is deployed integrally with a member selected from the group consisting of the sealing ring, the sealing ring carrier, the mating ring, and the mating ring carrier. 9. The hydrostatic mechanical face seal assembly of claim 7, wherein the pump comprises a helical groove pump. 10. The hydrostatic mechanical face seal assembly of claim 1, wherein the pump comprises a member selected from the group consisting of a screw pump, a piston pump, a vane pump, a gear pump, an electromechanical pump, a positive displacement pump, a centrifugal pump, a cam driven piston pump, and a helical groove pump. 11. A hydrostatic mechanical face seal assembly comprising: a mating ring having first sealing face, the mating ring deployed on a mating ring carrier; a sealing ring having a second sealing face, the sealing ring deployed on a sealing ring carrier, the sealing ring deployed substantially coaxially with the mating ring, the sealing ring and the sealing ring carrier disposed to rotate relative to the mating ring and the mating ring carrier; the first and second sealing faces biased towards one another; and a pump disposed to pressure a lubricating fluid at an interface between the sealing faces, the pump deployed locally with the seal assembly, but not on either of the first and second sealing faces. 12. The hydrostatic mechanical face seal assembly of claim 11, wherein the mating ring is sealingly engaged with the mating ring carrier and the sealing ring is sealingly engaged with the sealing ring carrier. 13. The hydrostatic mechanical face seal assembly of claim 11, wherein the first and second sealing faces are biased towards one another via a spring member selected the group consisting of bellows and springs, the spring member coupled to at least one of the sealing ring, the sealing ring carrier, the mating ring, and the mating ring carrier. 14. The hydrostatic mechanical face seal assembly of claim 11, wherein: the mating ring carrier is deployed on a tool housing; and the pump is integral with the tool housing adjacent to one of the sealing ring and the sealing ring carrier. 15. The hydrostatic mechanical face seal assembly of claim 11, wherein the pump comprises a helical groove pump deployed integrally with one of the sealing ring, the sealing ring carrier, the mating ring, and the mating ring carrier. 16. The hydrostatic mechanical face seal assembly of claim 11, wherein the pump comprises a member selected from the group consisting of a screw pump, a piston pump, a vane pump, a gear pump, an electromechanical pump, a positive displacement pump, a centrifugal pump, a cam driven piston pump, and a helical groove pump. 17. The hydrostatic mechanical face seal assembly of claim 11, wherein at least one of the mating ring and the sealing ring are fabricated from a material having a Rockwell C hardness value of greater than about 65. 18. The hydrostatic mechanical face seal assembly of claim 11, wherein at least one of the mating ring and the sealing ring are fabricated from a material selected from the group consisting of tungsten carbide, silicon carbide, boron-containing steel nitrogen-containing steel, tool steel, high chrome cast iron, cubic boron nitride, ceramic, carbon graphite, and diamond. 19. A downhole tool comprising: a substantially cylindrical downhole tool body having a cylindrical axis; and a hydrostatic mechanical face seal assembly disposed to seal a drilling fluid, the seal assembly comprising: a) a mating ring having a first sealing face; b) a sealing ring having a second sealing face, the sealing ring deployed substantially coaxially with the mating ring, the sealing ring further disposed to rotate about the cylindrical axis relative to the mating ring, the first and second sealing faces biased towards one another; and c) a pump disposed to pressurize a lubricating fluid at an interface between the first and second sealing faces, the pump deployed locally with the seal assembly, but not on either of the first and second sealing faces. 20. The downhole tool of claim 19, wherein the downhole tool comprises a member selected from the group consisting of a drilling motor, a drill bit assembly, a stabilizer, a measurement while drilling tool, a logging while drilling tool, a steering tool, a turbine, an alternator, a production pump, an under-reamer, a hole-opener, a turbine-alternator, and a downhole hammer. 21. The downhole tool of claim 19, wherein the pump comprises a member selected from the group consisting of a screw pump, a piston pump, a vane pump, a gear pump, an electromechanical pump, a positive displacement pump, a centrifugal pump, a cam driven piston pump, and a helical groove pump. 22. The downhole tool of claim 19, wherein at least one of the mating ring and the sealing ring are fabricated from a material having a Rockwell C hardness value of greater than about 65. 23. The downhole tool of claim 19, wherein at least one of the mating ring and the sealing ring are fabricated from a material selected from the group consisting of tungsten carbide, silicon carbide, boron-containing steel, nitrogen-containing steel, tool steel, high chrome cast iron, cubic boron nitride, ceramic, carbon graphite, and diamond. 24. The downhole tool of claim 19, further comprising a rotatable drive shaft deployed substantially coaxially with the cylindrical axis, the sealing ring being coupled to the drive shaft. 25. The downhole tool of claim 24, wherein the mating ring is coupled to the downhole tool body. 26. The downhole tool of claim 25, wherein: the mating ring is coupled to a mating ring carrier; the sealing ring is coupled to a sealing ring carrier; and the pump comprises a helical groove pump deployed on one of the mating ring, the mating ring carrier, the sealing ring, and the sealing ring carrier. 27. The downhole tool of claim 24, wherein: the pump includes a cam driven piston pump, and the drive shaft includes an eccentric diameter cam disposed to drive the earn driven piston pump. 28. The downhole tool of claim 19, wherein the pump is in fluid communication with a fluid filled chamber, the pump disposed to pressurize the lubricating fluid from the fluid filled chamber to the interface between the first and second sealing faces. 29. The downhole tool of claim 28, wherein the fluid filled chamber includes a bladder deployed therein, the bladder deployed between the lubricating fluid and the drilling fluid, the bladder disposed to equalize pressure spikes between the lubricating fluid and the drilling fluid. 30. The downhole tool of claim 29, wherein the bladder comprises an elastomeric material. 31. A tool comprising: a rotatable drive shaft deployed in a substantially non rotating tool housing; a hydrostatic mechanical face seal assembly disposed to seal a contaminant fluid, the seal assembly comprising: a) mating ring having a first sealing face, the mating ring deployed substantially coaxially about the drive shaft; the mating ring being substantially non rotational relative to the tool housing; b) a sealing ring having a second sealing face, the sealing ring deployed substantially coaxially about and coupled with the drive shaft, the sealing ring and the mating ring disposed to rotate relative to one another, the first face and the second face biased towards one another; and c) a pump disposed to pressurize a lubricating fluid at an interface between the first and second sealing faces, the pump deployed locally with the seal assembly, but not on either of the first and second sealing faces. 32. The tool of claim 31, wherein: the mating ring is coupled to a mating ring carrier; the sealing ring is coupled to a sealing ring carrier; and the pump comprises a helical groove pump deployed on one of the mating ring, the mating ring carrier, the sealing ring, the sealing ring carrier and the tool housing. 33. The tool of claim 31, wherein: the pump includes a cam driven piston pump; and the drive shaft includes an eccentric diameter cam disposed to drive the cam driven piston pump. 34. The tool of claim 31, wherein: the pump is in fluid communication with a fluid filled chamber, the pump disposed to pressurize the lubricating fluid from the fluid filled chamber to the interface between the first and second sealing faces; and the fluid filled chamber includes a bladder deployed therein, the bladder deployed between the lubricating fluid and the drilling fluid, the bladder disposed to equalize pressure spikes between the lubricating fluid and the drilling fluid.