Bumper cap for damper

The invention claimed is: 1. A bumper cap for a damper, the damper including an outer tube, the outer tube having an end, and a rod extending through the end in the outer tube, the damper including a damping fluid that is movable within the damper in response to movement of the rod, the bumper cap comprising: a cup shaped body having a side wall and a base, the side wall having an inner surface and an outer surface, the inner surface having a dimension that is sized to be press fit over the outer tube and the base having a through hole in the base, the through hole configured to have the rod pass therethrough, the base having at least one fluid passage extending away from the through hole; the side wall having at least one fluid reservoir located in the side wall and in fluid communication with the fluid passage, the at least one fluid reservoir being radially between the inner surface and the outer surface of the side wall. 2. The bumper cap as in claim 1 further comprising at least one ventilation opening between the fluid passage and the fluid reservoir. 3. The bumper cap as in claim 2 including at least four fluid passages, and four fluid reservoirs, each fluid passage being in fluid communication with one of the fluid reservoirs. 4. The bumper cap as in claim 3 including at least four ventilation openings. 5. The bumper cap as in claim 2 wherein the ventilation opening is at a corner where the base meets the side wall. 6. The bumper cap as in claim 1 wherein the inner surface having the dimension that is sized to be press fit over the outer tube is smooth and abuts the outer tube. 7. The bumper cap as in claim 1 wherein an oil absorbing material is located in the oil reservoir. 8. The bumper cap as in claim 7 wherein the oil absorbing material is ceramic. 9. A damper comprising: an outer tube having an end; the outer tube having a rod, the rod extending through the end in the outer tube, the damper including a damper fluid, the damper fluid movable within the damper in response to movement of the rod; a cup shaped bumper cap configured to fit over the end of the outer tube, the bumper cap having a through hole, the rod passaging through the through hole, the cup shaped body having a side wall and a base, the side wall having an inner surface and an outer surface, the inner surface having a dimension that is sized to be press fit over the outer tube and the base having a through hole in the base, the through hole configured to have the rod pass therethrough, the base having at least one fluid passage extending away from the through hole; the side wall having at least one fluid reservoir located in the side wall and in fluid communication with the fluid passage, the at least one fluid reservoir is radially between the inner surface and the outer surface of the side wall. 10. The damper as in claim 9 wherein the rod includes a chrome surface. 11. The damper as in claim 10 further comprising a seal within the damper tube through hole, the seal configured to substantially prevent damping fluid from escaping the damper. 12. The damper as in claim 11 wherein the bumper cap further comprises at least one ventilation opening between the fluid passage and the fluid reservoir. 13. The damper as in claim 12 wherein the bumper cap further comprises and wherein the ventilation opening is at a corner where the base meets the side wall. 14. The damper as in claim 10 wherein the bumper cap further comprises at least four fluid passages, and four fluid reservoirs, each fluid passage being in fluid communication with one of the fluid reservoirs. 15. The damper as in claim 14 wherein the bumper cap further comprises at least four ventilation openings. 16. The damper as in claim 9 where the bumper cap is injection molded from a polymer. 17. The damper as in claim 16 wherein the inner surface having the dimension that is sized to be press fit over the outer tube is smooth and abuts the outer tube. 18. The damper as in claim 9 wherein the bumper cap includes an oil absorbing material in the oil reservoir.