Claims
- 1. A damper spring strut comprising:
a cylindrical housing having an inner cylindrical surface; an upper end cap sealing one end of said housing; a compression spring having an upper end engaging said end cap and a lower end; a piston assembly including a spool and annular friction element positioned on said spool and within said cylinder, said spool having an upper surface engaging said lower end of said compression spring; a piston rod mounted to said spool and extending from said spool through said compression spring; and a lower end cap enclosing a lower end of said cylindrical housing, and wherein said upper end cap includes an aperture through which said rod extends, such that said rod can be coupled to a support member.
- 2. The strut as defined in claim 1 and further including a cylindrical spring stop surrounding said rod and extending into the annular space between said rod and said compression spring.
- 3. The strut as defined in claim 1 and further including a lubricant extending between said friction element and said inner surface of said cylindrical housing.
- 4. The strut as defined in claim 3 wherein said spool is made of a polymeric material.
- 5. The strut as defined in claim 4 wherein said friction element is made from a closed-cell foam polymeric material.
- 6. The strut as defined in claim 5 wherein said foam polymeric material is polyurethane.
- 7. The strut as defined in claim 6 wherein said cylindrical housing is made of steel.
- 8. The strut as defined in claim 7 wherein said friction element has a height of from about 6 mm to about 40 mm.
- 9. The strut as defined in claim 1 wherein said piston rod has an enlarged end engaging a lower surface of said spool.
- 10. The strut as defined in claim 1 wherein said spool is a molded polymeric material such as polyethylene and said lower end cap includes an aperture for receiving a threaded fastener.
- 11. A damper spring strut comprising:
a cylindrical housing having an inner cylindrical surface; a first end cap mounted to one end of said cylinder and including an aperture therethrough through which there extends a threaded fastener for securing said end cap to an object; a piston assembly mounted within said cylinder, including a spool supporting an annular friction element for engaging said inner surface of said cylindrical housing, said spool including a central aperture; a support rod extending through said central aperture of said spool and having an enlarged end extending over an outer surface of said spool facing said first end cap; a compression spring extending between a surface of said spool opposite said first end cap and extending upwardly in annular concentric relationship with said rod; and a second end cap mounted to an opposite end of said cylindrical housing and including an aperture through which said rod extends, such that said threaded fastener and said rod can be mounted to support objects for compressing said spring.
- 12. The strut as defined in claim 11 and further including a cylindrical spring stop surrounding said rod and extending into the annular space between said rod and said compression spring.
- 13. The strut as defined in claim 12 and further including a lubricant extending between said friction element and said inner surface of said cylindrical housing.
- 14. The strut as defined in claim 13 wherein said spool is made of a polymeric material.
- 15. The strut as defined in claim 14 wherein said friction element is made from a closed-cell foam polymeric material.
- 16. The strut as defined in claim 15 wherein said foam polymeric material is polyurethane.
- 17. The strut as defined in claim 16 wherein said cylindrical housing is made of steel.
- 18. The strut as defined in claim 17 wherein said friction element has a height of from about 10 mm to about 40 mm.
- 19. A damper spring strut comprising:
a cylindrical housing having an end cap at one end thereof; a piston assembly, including a spool having a central aperture and an annular recess for receiving an annular friction element; a rod extending through said central aperture in said spool and including an enlarged end engaging a first surface of said spool adjacent said end cap; a second end cap on an end of said cylindrical housing opposite said first end cap; and a compression spring engaging a surface of said spool opposite said first surface and extending to said second end cap which includes an aperture allowing said rod to extend therethrough.
- 20. The damper spring as defined in claim 19 and further including a cylindrical spring stop surrounding said rod and extending into the annular space between said rod and said compression spring.
- 21. The damper spring as defined in claim 20 wherein said second end cap has a hemispherical outer surface.
- 22. The strut as defined in claim 19 and further including a lubricant extending between said friction element and said inner surface of said cylindrical housing.
- 23. The strut as defined in claim 22 wherein said spool is made of a polymeric material.
- 24. The strut as defined in claim 23 wherein said friction element is made from a closed-cell foam polymeric material.
- 25. The strut as defined in claim 24 wherein said foam polymeric material is polyurethane.
- 26. The strut as defined in claim 25 wherein said cylindrical housing is made of steel.
- 27. The strut as defined in claim 26 wherein said friction element has a height of from about 10 mm to about 40 mm.
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] This application claims priority under 35 U.S.C. § 119(e) on U.S. Provisional Application No. 60/367,855 entitled DAMPER SPRING STRUT, filed on Mar. 27, 2002, by D. Stewart Atwater, the entire disclosure of which is incorporated herein by reference.
Provisional Applications (1)
|
Number |
Date |
Country |
|
60367855 |
Mar 2002 |
US |