Multi-tapered suspension component

We claim: 1. An energy storing suspension component in combination with a bushing comprising: an energy storing suspension component comprising: an axle seat portion, an end configured to include an eye, and a limb extending between the axle seat portion and the end, wherein the limb comprises a first taper wherein the limb decreases in width as the limb extends toward the end, a second taper wherein the limb decreases in thickness as the limb extends toward the end, wherein along the limb there is at least a portion where both the first taper and second taper are present, and a third taper that is further from the axle seat portion than the first taper and wherein the limb increases in width as the limb extends toward the end, wherein the energy storing suspension component has a lower lateral spring rate than vertical spring rate; a bushing having a high radial to axial rate ratio; the bushing further comprising a central body and at least one rate ring portion having two or more pieces, with at least one first elastomeric member disposed between the central body and the at least one rate ring portion, and at least one second elastomeric member disposed outside of the at least one rate ring portion; and wherein the two or more pieces of the at least one rate ring have been forced toward each other so as to pre-compress the at least one first elastomeric member prior to being received by the eye of the energy storing suspension component. 2. The energy storing suspension component in combination with a bushing of claim 1 wherein the central body of the bushing is bonded to the at least one elastomeric member. 3. The energy storing suspension component in combination with a bushing of claim 2 wherein the central body includes a bar pin or a sleeve having a passage therethrough. 4. The energy storing suspension component in combination with a bushing of claim 1 wherein the at least one rate ring portion further comprises a cylindrical sleeve having a passage therethrough. 5. The energy storing suspension component in combination with a bushing of claim 1 wherein the two or more pieces of the at least one rate ring portion are configured substantially as portions of a cylinder. 6. The energy storing suspension component in combination with a bushing of claim 1 wherein the at least second elastomeric member is bonded to the at least one rate ring portion. 7. The energy storing suspension component in combination with a bushing of claim 1 wherein the two or more pieces of the at least one rate ring portion and pre-compressed at least one first elastomeric member are received by an outer can prior to being received by the eye of the energy storing suspension component. 8. The energy storing suspension component of claim 1 wherein the end is configured to have a constant thickness and/or width. 9. The energy storing suspension component of claim 1 wherein the limb further comprises a fourth taper further from the axle seat portion than the second taper and wherein the limb increases in thickness as the limb extends toward the end. 10. The energy storing suspension component of claim 1 wherein the end is a first end and the limb is a first limb, and the energy storing suspension component further comprises a second end and a second limb extending between the axle seat portion and the second end. 11. The energy storing suspension component of claim 10 wherein the second end includes at least one hole therethrough. 12. An energy storing suspension component in combination with a bushing comprising: an energy storing suspension component comprising: an axle seat portion, an end configured to include an eye, and a limb extending between the axle seat portion and the end, wherein the limb comprises a first taper wherein the limb decreases in width as the limb extends toward the end, a second taper wherein the limb decreases in thickness as the limb extends toward the end, wherein along the limb there is at least a portion where both the first taper and second taper are present, and a third taper that is further from the axle seat portion than the first taper and wherein the limb increases in width as the limb extends toward the end, wherein the energy storing suspension component has a lower lateral spring rate than vertical spring rate; a bushing having a high radial to axial rate ratio; the bushing further comprising a central body and at least one rate ring portion having two or more pieces, with at least one first elastomeric member bonded between the central body and the at least one rate ring portion, and at least one second elastomeric member bonded to an outer surface of the at least one rate ring portion; and wherein the two or more pieces of the at least one rate ring have been forced toward each other so as to pre-compress the at least one first elastomeric member prior to being received by the eye of the energy storing suspension component. 13. The energy storing suspension component in combination with a bushing of claim 12 wherein the central body includes a bar pin or a sleeve having a passage therethrough. 14. The energy storing suspension component in combination with a bushing of claim 12 wherein the at least one rate ring portion further comprises a cylindrical sleeve having a passage therethrough. 15. The energy storing suspension component in combination with a bushing of claim 12 wherein the two or more pieces of the at least one rate ring portion are configured substantially as portions of a cylinder. 16. The energy storing suspension component in combination with a bushing of claim 12 wherein the two or more pieces of the at least one rate ring portion and pre-compressed at least one first elastomeric member are received by an outer can prior to being received by the eye of the energy storing suspension component. 17. The energy storing suspension component in combination with a bushing of claim 12 wherein the at least one first elastomeric member has at least one radial gap, the at least one rate ring portion has at least one radial gap, and the at least one second elastomeric member has at least one radial gap. 18. The energy storing suspension component in combination with a bushing of claim 17 wherein the at least one radial gap of the at least one first elastomeric member, at least one radial gap of the at least one rate ring portion and the at least one radial gap of the at least one second elastomeric member are radially aligned.