Methods and apparatus for lubricating suspension components

What is claimed is: 1. A self-lubricating suspension comprising: an upper leg tube; a lower leg tube, said lower leg tube having an opening therein for telescopically receiving said upper leg tube, said upper leg tube and said lower leg tube telescopically moveable with respect to each other during operation of said self-lubricating suspension; a seal assembly coupled to said lower leg tube proximate said opening, said seal assembly configured to seal against an outer surface of said upper leg tube as said upper leg tube moves telescopically with respect to said lower leg tube, said seal assembly further comprising a linear motion ball bearing bushing; a fluid reservoir disposed at least partially between an inner surface of said lower leg tube and an outer surface of said upper leg tube, said fluid reservoir having a pressure therein, wherein said pressure is dynamically affected as said upper leg tube moves telescopically with respect to said lower leg tube; a fluid conduit, said fluid conduit in fluid communication with said fluid reservoir and said seal assembly, said fluid conduit defining a flow path extending between said seal assembly and said fluid reservoir, wherein said pressure, which is dynamically affected as said upper leg tube moves telescopically with respect to said lower leg tube, causes fluid to flow from said fluid reservoir into said fluid conduit, to said seal assembly, and then back into said fluid reservoir such that as said upper leg tube moves telescopically with respect to said lower leg tube said fluid flows through said fluid conduit and to said seal assembly to repeatedly provide said fluid to said seal assembly for generating lubrication between said upper leg tube and said lower leg tube and such that said self-lubricating suspension generates said lubrication as said upper leg tube moves telescopically with respect to said lower leg tube; and an annular space extending from said seal assembly to said fluid reservoir. 2. The self-lubricating suspension of claim 1 wherein said linear motion ball bearing bushing further comprises an inverted linear motion ball bearing bushing. 3. The self-lubricating suspension of claim 2 wherein said inverted linear motion ball bearing bushing is fixed to an exterior of said upper leg tube. 4. The self-lubricating suspension of claim 3 wherein said upper leg tube has a surface hardness treatment applied to an exterior of said upper leg tube. 5. The self-lubricating suspension of claim 4 wherein said surface hardness treatment is selected from the group consisting of: shot peening, nitriding, carburizing and ceramic coating. 6. The self-lubricating suspension of claim 1 wherein said linear ball bearing bushing includes circumferential fluid flow gaps which are positioned circumferentially around at least a portion of said linear ball bearing bushing. 7. The self-lubricating suspension of claim 6 wherein said fluid flow gaps receive fluid flowing from said fluid conduit, said fluid flow gaps delivering said fluid to an inner portion of said linear ball bearing bushing. 8. The self-lubricating suspension of claim 6 wherein said fluid flow gaps of said linear ball bearing bushing comprise a fluid holding region. 9. The self-lubricating suspension of claim 8 wherein said fluid holding region delivers fluid therefrom based on depletion and a corresponding siphon effect. 10. The self-lubricating suspension of claim 8 wherein said fluid holding region circumferentially surrounds at least a portion of said linear ball bearing bushing and said fluid in said fluid holding region leaks into said linear ball bearing bushing through said fluid flow gaps. 11. The self-lubricating suspension of claim 8 further comprising a fluid channel fluidically coupling said fluid conduit and said fluid holding region. 12. The self-lubricating suspension of claim 11 wherein said fluid channel delivers said fluid from said fluid conduit to said fluid holding region during operation of said self-lubricating suspension.