Claims
- 1. A compliant foil fluid film thrust bearing comprising:
(a) a thrust disk rotatably supported by a non-rotating thrust bearing surface, said thrust disk having a direction of rotation; and (b) a compliant bearing operably disposed between said thrust disk and said non-rotating thrust bearing surface, said compliant bearing including:
(i) a first corrugated spring, said first corrugated spring having a trailing edge with respect to the direction of rotation of said thrust disk; (ii) a first shim between said first corrugated spring and said non-rotating thrust bearing surface, said first shim having a trailing edge substantially aligned with said first corrugated spring trailing edge; and (iii) a top foil between said first corrugated spring and said thrust disk, said top foil having a trailing edge substantially aligned with said first corrugated spring trailing edge and said first shim trailing edge.
- 2. A compliant foil fluid film thrust bearing according to claim 1, wherein said first corrugated spring has a leading edge attached to said non-rotating thrust bearing surface.
- 3. A compliant foil fluid film thrust bearing according to claim 2, wherein said top foil has a leading edge attached to said non-rotating thrust bearing surface forward of said leading edge of said first corrugated spring leading edge.
- 4. A compliant foil fluid film thrust bearing according to claim 2, wherein said first shim is attached to said corrugated spring.
- 5. A compliant foil fluid film thrust bearing according to claim 2, wherein said first shim is attached to said non-rotating thrust bearing surface.
- 6. A compliant foil fluid film thrust bearing according to claim 1, wherein:
(a) said top foil includes:
(i) an outer edge; (ii) an inner edge; and (iii) a leading edge attached to said non-rotating thrust bearing surface; (b) said first shim includes:
(i) an outer edge substantially aligned with said top foil outer edge; (ii) an inner edge substantially aligned with said top foil inner edge; and (iii) a leading edge extending substantially parallel with said top foil leading edge but located closer to said top foil trailing edge than to said top foil leading edge.
- 7. A compliant foil fluid film thrust bearing according to claim 6, wherein:
(a) said top foil leading edge, said top foil outer edge, said top foil inner edge, and said top foil trailing edge define a top foil surface area; (b) said first shim leading edge, said first shim outer edge, said first shim inner edge, and said first shim trailing edge define a first shim surface area; and (c) wherein said first shim surface area is equal to about 5 to about 50 percent of said top foil surface area.
- 8. A compliant foil fluid film thrust bearing according to claim 6, comprising:
a second shim between said top foil and said first corrugated spring, said second shim having (1) an outer edge substantially aligned with said first corrugated spring outer edge and (2) an inner edge extending substantially parallel to said first corrugated spring inner edge but located closer to said first corrugated spring outer edge than said first corrugated spring inner edge.
- 9. A compliant foil fluid film thrust bearing according to claim 8, wherein said top foil has an outer edge and second shim outer edge is substantially aligned with said top foil outer edge.
- 10. A compliant foil fluid film thrust bearing according to claim 9, wherein (1) said top foil includes a leading edge and said second shim includes a leading edge substantially aligned with said top foil leading edge and (2) said top foil includes a trailing edge and said second shim includes a trailing edge substantially aligned with said top foil trailing edge.
- 11. A compliant foil fluid foil film thrust bearing according to claim 10, wherein said top foil includes an inner edge and said second shim includes an inner edge substantially parallel to said top foil inner edge but located closer to said top foil outer edge than said top foil inner edge.
- 12. A compliant foil fluid film thrust bearing according to claim 11, wherein:
(a) said top foil leading edge, said top foil outer edge, said top foil trailing edge, and said top foil inner edge define a top foil surface area; (b) said second shim leading edge, said second shim outer edge, said second shim trailing edge, and said second shim inner edge define a second shim surface area; and (c) wherein said second shim surface area is equal to about 5 to about 50 percent of said top foil surface area.
- 13. A compliant foil fluid film thrust bearing according to claim 8, wherein said second shim is attached to said first corrugated spring.
- 14. A compliant foil fluid film thrust bearing according to claim 1, comprising:
(a) at least one spacer foil under said first corrugated spring; and (b) a second corrugated spring between said at least one spacer foil and said non-rotating thrust bearing surface.
- 14. A compliant foil fluid film thrust bearing according to claim 14, wherein said first corrugated spring is attached to said at least one spacer foil, said at least one spacer foil is attached to said second corrugated spring, and said second corrugated spring is attached to said non-rotating thrust bearing surface.
- 16. A compliant foil fluid film thrust bearing according to claim 8, comprising:
(a) at least one spacer foil under said first corrugated spring; and (b) a second corrugated spring between said at least one spacer foil and said non-rotating thrust bearing surface.
- 17. A compliant foil fluid film thrust bearing according to claim 16, wherein said first corrugated spring is attached to said at least one spacer foil, said at least one spacer foil is attached to said second corrugated spring, and said second corrugated spring is attached to said non-rotating thrust bearing surface.
- 18. A method of making a compliant foil fluid film thrust bearing comprising the steps of:
(a) providing a thrust disk rotatably supported by a non-rotating thrust bearing surface, said thrust disk having a direction of rotation; and (b) providing a compliant bearing operably disposed between said thrust disk and said non-rotating thrust bearing surface, said compliant bearing including:
(i) a first corrugated spring, said first corrugated spring having a trailing edge with respect to the direction of rotation of said thrust disk; (ii) a first shim between said first corrugated spring and said non-rotating thrust bearing surface, said first shim having a trailing edge substantially aligned with said first corrugated spring trailing edge; and (iii) a top foil between said first corrugated spring and said thrust disk, said top foil having a trailing edge substantially aligned with said first corrugated spring trailing edge and said first shim trailing edge.
- 19. A method of making a compliant foil fluid film thrust bearing according to claim 18, comprising the step of attaching a leading edge of said first corrugated spring to said non-rotating thrust bearing surface.
- 20. A method of making a compliant foil fluid film thrust bearing according to claim 19, comprising the step of attaching a leading edge of said top foil to said non-rotating thrust bearing surface forward of said leading edge of said first corrugated spring leading edge.
- 21. A method of making a compliant foil fluid film thrust bearing according to claim 19, comprising the step of attaching said first shim to said corrugated spring.
- 22. A method of making a compliant foil fluid film thrust bearing according to claim 19, comprising the step of attaching said first shim to said non-rotating thrust bearing surface.
- 23. A compliant foil fluid film thrust bearing according to claim 18, comprising the steps of:
(a) forming said top foil with:
(i) an outer edge; (ii) an inner edge; and (iii) a leading edge and attaching said top foil leading edge to said non-rotating thrust bearing surface; (b) forming said first shim with:
(i) an outer edge and substantially aligning said first shim outer edge with said top foil outer edge; (ii) an inner edge and substantially aligning said first shim inner edge with said top foil inner edge; and (iii) a leading edge extending substantially parallel with said top foil leading edge but located closer to said top foil trailing edge than to said top foil leading edge.
- 24. A method of making a compliant foil fluid film thrust bearing according to claim 23, comprising the steps of:
(a) defining a top foil surface area by said top foil leading edge, said top foil outer edge, said top foil inner edge, and said top foil trailing edge; (b) defining a first shim surface area by said first shim leading edge, said first shim outer edge, said first shim inner edge, and said first shim trailing edge; and (c) wherein said first shim surface area is equal to about 5 to about 50 percent of said top foil surface area.
- 25. A method of making a compliant foil fluid film thrust bearing according to claim 23, comprising the steps of:
(a) providing a second shim between said top foil and said first corrugated spring; (b) forming said second shim with an outer edge, an inner edge, a leading edge, and a trailing edge; (b) substantially aligning said second shim outer edge with said first corrugated spring outer edge; (c) arranging said second shim inner edge substantially parallel to said first corrugated spring inner edge but located closer to said first corrugated spring outer edge than said first corrugated spring inner edge.
- 26. A method of making a compliant foil fluid film thrust bearing according to claim 25, comprising the steps of:
(a) forming said top foil with a outer edge; and (b) substantially aligning said second shim outer edge with said top foil outer edge.
- 27. A method of making a compliant foil fluid film thrust bearing according to claim 26, comprising the steps of:
(a) forming said top foil with a leading edge and a trailing edge; (b) forming said second shim with a leading edge and a trailing edge; (c) substantially aligning said second shim leading edge with said top foil leading edge; and (d) substantially aligning said second shim trailing edge said top foil trailing edge.
- 28. A method of making a compliant foil fluid foil film thrust bearing according to claim 27, comprising the steps of:
(a) forming said top foil with an inner edge; (b) forming said second shim with an inner edge; (c) arranging said second shim inner edge substantially parallel to said top foil an inner edge but located closer to said top foil outer edge than said top foil inner edge.
- 29. A method of making a compliant foil fluid film thrust bearing according to claim 28, comprising the steps of:
(a) defining a top foil surface area by said top foil leading edge, said top foil outer edge, said top foil trailing edge, and said top foil inner edge; (b) defining a second shim surface area by said second shim leading edge, said second shim outer edge, said second shim trailing edge, and said second shim inner edge; and (c) wherein said second shim surface area is equal to about 5 to about 50 percent of said top foil surface area.
- 30. A method of making a compliant foil fluid film thrust bearing according to claim 25, comprising the step of attaching said second shim to said first corrugate spring.
- 31. A method of making a compliant foil fluid film thrust bearing according to claim 18, comprising the steps of:
(a) providing at least one spacer foil under said first corrugated spring; and (b) providing a second corrugated spring between said at least one spacer foil and said non-rotating thrust bearing surface.
- 32. A method of making a compliant foil fluid film thrust bearing according to claim 31, comprising the steps of:
(a) attaching said first corrugated spring to said at least one spacer foil; (b) attaching said at least one spacer foil to said second corrugated spring; and (c) attaching said second corrugated spring to said non-rotating thrust bearing surface.
- 33. A method of making a compliant foil fluid film thrust bearing according to claim 25, comprising the steps of:
(a) providing at least one spacer foil under said first corrugated spring; and (b) providing a second corrugated spring between said at least one spacer foil and said non-rotating thrust bearing surface.
- 34. A method of making a compliant foil fluid film thrust bearing according to claim 33, comprising the steps of:
(a) attaching said first corrugated spring to said at least one spacer foil; (b) attaching said at least one spacer foil to said second corrugated spring; and (c) attaching said second corrugated spring to said non-rotating thrust bearing surface.
- 35. A compliant foil fluid film thrust bearing comprising:
(a) first means rotatably supported by non-rotating second means, said first means having a direction of rotation; and (b) third means operably disposed between said first means and said non-rotating second means, said third means including:
(i) first spring means, said first spring means having a trailing edge with respect to the direction of rotation of said first means; (ii) first shim means between said first spring means and said non-rotating second means, said first shim means having a trailing edge substantially aligned with said first spring means trailing edge; and (iii) top foil means between said first spring means and said first means, said top foil means having a trailing edge substantially aligned with said first spring means trailing edge and said first shim means trailing edge.
- 36. A compliant foil fluid film thrust bearing according to claim 35, wherein:
(a) said first spring means includes:
(i) an outer edge; (ii) an inner edge; and (iii) a leading edge attached to said non-rotating second means; (b) said first shim means includes:
(i) an outer edge substantially aligned with said first spring means outer edge; (ii) an inner edge substantially aligned with said first spring means inner edge; and (iii) a leading edge extending substantially parallel with said first spring means leading edge but located closer to said first spring means trailing edge than to said first spring means leading edge.
- 37. A compliant foil fluid film thrust bearing according to claim 36, comprising:
second shim means between said top foil means and said first spring means, said second shim means having (1) an outer edge substantially aligned with said first spring means outer edge and (2) an inner edge extending substantially parallel to said first spring means inner edge but located closer to said first spring means outer edge than said first spring means inner edge.
- 38. A compliant foil fluid film thrust bearing according to claim 35, comprising:
(a) at least one spacer means under said first spring means; and (b) a second spring means between said at least one spacer means and said non-rotating second means.
- 39. A compliant foil fluid film thrust bearing according to claim 37, comprising:
(a) at least one spacer means under said first spring means; and (b) a second spring means between said at least one spacer means and said non-rotating second means.
- 40. A method comprising the step of using a compliant foil fluid film thrust bearing made according to claim 18.
- 41. A method comprising the step of using a compliant foil fluid film thrust bearing made according to claim 25.
- 42. A method comprising the step of using a compliant foil fluid film thrust bearing made according to claim 31.
- 43. A method comprising the step of using a compliant foil fluid film thrust bearing made according to claim 33.
REFERENCE TO RELATED APPLICATION
[0001] This application claims the benefit of priority under 35 USC 119(e) of U.S. provisional application No. 60/250,633, filed on Dec. 1, 2000, which is incorporated herein by reference.
Provisional Applications (1)
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Number |
Date |
Country |
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60250633 |
Dec 2000 |
US |