IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0356684
(2006-02-17)
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등록번호 |
US-7699579
(2010-05-20)
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발명자
/ 주소 |
|
대리인 / 주소 |
Garvey, Smith, Nehrbass & North, L.L.C.
|
인용정보 |
피인용 횟수 :
2 인용 특허 :
9 |
초록
▼
An improved mechanical seal and repair method can be used with mechanical pump seal assemblies. The improved seal utilizes rotating and non-rotating sections of improved configuration, each of which can form a seal using a standard size carbon-face O-ring. The mechanical seal can be in the form of r
An improved mechanical seal and repair method can be used with mechanical pump seal assemblies. The improved seal utilizes rotating and non-rotating sections of improved configuration, each of which can form a seal using a standard size carbon-face O-ring. The mechanical seal can be in the form of replacement parts that replace the old parts without modifications to the overall seal and assembly.
대표청구항
▼
The invention claimed is: 1. A barge pump apparatus, comprising: a) a pump housing that is configured to be mounted to a barge deck and extend vertically below deck, the pump housing having a pump head; b) a pump shaft extending vertically in the housing; c) a driver that rotates the pump shaft; an
The invention claimed is: 1. A barge pump apparatus, comprising: a) a pump housing that is configured to be mounted to a barge deck and extend vertically below deck, the pump housing having a pump head; b) a pump shaft extending vertically in the housing; c) a driver that rotates the pump shaft; and d) a mechanical seal that prevents leakage of the barge cargo from a tank of the barge to the surrounding atmosphere, the seal including: a seal flange that attaches to the pump head, the seal flange having a central flange opening receptive of the pump shaft and an annular socket surrounding the central flange opening; a sleeve that closely fits the pump shaft, being attached to the pump shaft and rotating therewith, said sleeve having an upper smaller diameter section and a lower, larger diameter section; an annular non-rotating seal element that seats upon the seal flange socket, the non-rotating seal element providing a carbon containing sealing face; an annular rotating seal element that is in face-to-face contact with the carbon containing sealing face, said rotating seal element having an open center and being mounted upon the sleeve at the open center; a spring assembly that biases the seal elements together, the spring assembly having an open center that receives the sleeve and shaft, one end of the spring assembly bearing against the sleeve, the other end of the spring assembly bearing against the rotating seal element; a plurality of O-rings that are carried by the seal members, one O-ring attached to the non-rotating seal element and another O-ring attached to the rotating seal element and sealing against the smaller diameter section of the sleeve. 2. The barge pump apparatus of claim 1 wherein the rotating seal member is of a metallic material. 3. The barge pump apparatus of claim 1 wherein the non-rotating seal member is of a non-metallic material. 4. The barge pump apparatus of claim 1 wherein the spring assembly and rotating seal member are interconnected. 5. The barge pump apparatus of claim 1 wherein the O-rings are circular in transverse cross section. 6. The barge pump apparatus of claim 5 wherein the O-rings are of uniform transverse cross section. 7. The barge pump apparatus of claim 5 wherein one or more of the O-rings are of a perfluoroelastomer material. 8. The barge pump apparatus of claim 1 wherein the sleeve has an annular shoulder and the spring assembly bears against the annular shoulder of the sleeve. 9. The barge pump apparatus of claim 1 wherein one of the O-rings contacts the seal flange. 10. A barge pump seal apparatus for sealing leakage around the pump shaft of a barge pump having a pump housing that is configured to be mounted to a barge deck and extend vertically below deck, the pump housing having a pump head and a driver that rotates the pump shaft, said seal apparatus comprising: a) a seal flange that attaches to the pump head, the seal flange having a central flange opening receptive of the pump shaft and an annular socket surrounding the central flange opening; b) a sleeve that closely fits the pump shaft, being attached to the pump shaft and rotating therewith, said sleeve having an upper smaller diameter section and a lower larger diameter section; c) an annular non-rotating seal element that seats upon the seal flange socket, the non-rotating seal element providing a carbon containing sealing face; d) an annular rotating seal element that is in face-to-face contact with the carbon containing sealing face, said rotating seal element having a cylindrically shaped inner wall surrounding an open center and being mounted upon the sleeve at the open center; e) an annular groove in the annular rotating seal element at the cylindrically shaped inner wall, wherein portions of the cylindrically shaped inner wall extend above and below the annular groove; f) a spring assembly that biases the seal elements together, the spring assembly having an open center that receives the sleeve and shaft, one end of the spring assembly bearing against the sleeve, the other end of the spring assembly bearing against the rotating seal element; and g) a plurality of O-rings that are carried by the seal members, one O-ring attached to the non-rotating seal element and another O-ring attached to the rotating seal element, occupying said annular groove, and sealing against the smaller diameter section of the sleeve. 11. The pump seal apparatus of claim 10 wherein the rotating seal member is of a metallic material. 12. The pump seal apparatus of claim 10 wherein the non-rotating seal member is of a non-metallic material. 13. The pump seal apparatus of claim 10 wherein the spring assembly and rotating seal member are interconnected. 14. The pump seal apparatus of claim 10 wherein the O-rings are circular in transverse cross section. 15. The pump seal apparatus of claim 14 wherein the O-rings are of uniform transverse cross section. 16. The pump seal apparatus of claim 10 wherein one or more of the O-rings are of a perfluoroelastomer material. 17. The pump seal apparatus of claim 10 wherein the sleeve has an annular shoulder and the spring assembly bears against the annular shoulder of the sleeve. 18. A pump seal apparatus for sealing leakage around the pump shaft of a pump having a pump housing and a driver that rotates the pump shaft relative to the housing, said seal apparatus comprising: a) a seal flange that attaches to the pump housing, the seal flange having a central flange opening receptive of the pump shaft and an annular socket surrounding the central flange opening; b) a sleeve that closely fits the pump shaft and being attached to the pump shaft and rotating therewith, said sleeve having an upper smaller diameter section and a lower, larger diameter section; c) an annular non-rotating seal element that seats upon the seal flange socket and connects to the seal flange, the non-rotating seal element providing a carbon containing sealing face; d) an annular rotating seal element that is in face-to-face sealing contact with the carbon containing sealing face, said rotating seal element having a cylindrically shaped inner wall surrounding an open center and being mounted upon the sleeve at the open center, the contact defining a gas seal that prevents leakage of gas molecules, the sealing face and the rotating seal element each having a flatness of not more than two light bands; e) a spring assembly that biases the seal elements together, the spring assembly having an open center that receives the sleeve and shaft, one end of the spring assembly bearing against the sleeve, the other end of the spring assembly bearing against the rotating seal element; f) an annular groove in the annular rotating seal element at the cylindrically shaped inner wall, wherein portions of the cylindrically shaped inner wall extend above and below the annular groove; g) a plurality of O-rings that are carried by the seal members, one O-ring attached to the non-rotating seal element and another O-ring attached to the rotating seal element, occupying the annular groove, and sealing against the smaller diameter section of the sleeve. 19. The pump seal apparatus of claim 18 wherein the non-rotating seal element is of a seal-grade silicon carbide. 20. The pump seal apparatus of claim 18 wherein the non-rotating seal element is of a seal-grade carbon material. 21. The barge pump apparatus of claim 18 wherein the non-rotating seal member is of a non-metallic material. 22. The barge pump apparatus of claim 21 wherein the rotating seal element is of a stainless steel material. 23. The barge pump apparatus of claim 18 further comprising a spring that urges the seal elements together. 24. The pump seal apparatus of claim 23 wherein the sleeve has an annular shoulder that transfers load between the sleeve and the spring. 25. The pump seal apparatus of claim 24 wherein the spring rotates with the sleeve. 26. The pump seal apparatus of claim 18 wherein one or more of the O-rings are of a perfluoroelastomer material. 27. The pump seal apparatus of claim 18 wherein the sealing face and the rotating seal element each having a flatness of not more than one light band. 28. A mechanical pump seal assembly for sealing a rotatable pump shaft, a sleeve that is fitted to the shaft for rotation therewith, the sleeve having a smaller diameter section and a larger diameter section, and a stationary housing containing a chemically active fluid, comprising: a) a stationary seal ring section connected to said housing b) a rotatable seal ring section connected to said sleeve; c) seal faces on said seal rings opposed to one another, the rotatable seal ring having a pair of cylindrically shaped seal faces and a first annular groove in between the cylindrically shaped seal faces; d) wherein the stationary seal ring section has a second art annular groove; e) an O-ring that occupies each annular groove; f) wherein one of the O-rings engages the smaller diameter section of the sleeve in between the cylindrically shaped seal faces and the other O-ring engages the stationary housing. 29. The seal assembly of claim 28 wherein the stationary seal ring is of metallic material. 30. The seal assembly of claim 29 wherein the stationary ring section is of a stainless steel material. 31. The seal assembly of claim 28 wherein the rotatable ring section is of a silicon carbide material. 32. The seal assembly of claim 31 wherein the silicon carbide is a seal-grade silicon carbide. 33. The seal assembly of claim 28 wherein the rotatable ring section is of a carbon material. 34. The seal assembly of claim 28 wherein at least one of the O-rings is a carbon-face O-ring. 35. The seal assembly of claim 33 wherein the carbon material is a seal-grade carbon. 36. A method of sealing a rotatable shaft mechanical seal with an assembly, wherein the seal assembly includes a sleeve that is fitted to the shaft, the sleeve having a smaller diameter section and a larger diameter section, and a stationary housing containing a chemically active fluid, comprising: a) providing a stationary seal ring section connected to said sleeve; b) providing a rotatable ring section connected to said sleeve; c) providing seal faces on said seal rings opposed to one another; d) wherein in step “c” each ring section has an annular groove; e) placing an O-ring in each annular groove; f) wherein one of the O-rings engages the smaller diameter section of the sleeve and the other O-ring engages the stationary housing. 37. The method of claim 36 wherein the stationary seal ring is of metallic material. 38. The method of claim 37 wherein the stationary ring section is of a stainless steel material. 39. The method of claim 36 wherein the rotatable ring section is of a silicon carbide material. 40. The method of claim 39 wherein the silicon carbide is a seal-grade silicon carbide. 41. The method of claim 36 wherein the rotatable ring section is of a carbon material. 42. The method of claim 41 wherein the carbon material is a seal-grade carbon. 43. The method of claim 36 wherein at least one of the O-rings is a carbon-face 0-ring.
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