Spherical support for a spring seat in a vehicle suspension system

The invention claimed is: 1. A spring-damper assembly for use in a suspension system of a vehicle, the spring-damper assembly comprising: a damper; a coil spring disposed axially about the damper and extending between a lower spring seat and an upper spring seat; and one or more spherical supports disposed about and coupled to the damper and movably engaging a complementary surface of one or more of the lower spring seat and the upper spring seat, wherein the one or more of the lower spring seat and the upper spring seat are symmetrically shaped about the damper, the one or more spherical supports minimizing side forces exerted by the coil spring on the damper by allowing relative movement between the coil spring and the damper perpendicular to an axis of the spring-damper assembly as the complementary surface of the one or more of the lower spring seat and the upper spring seat translates along the one or more spherical supports perpendicular to the axis of the spring-damper assembly; wherein each of the one or more spherical supports comprises a convex surface with a peak disposed along an axis of the damper and directed towards the coil spring and the complementary surface of the one or more of the lower spring seat and the upper spring seat comprises a mating concave surface. 2. The spring-damper assembly of claim 1 , further comprising a layer of material disposed between each of the one or more spherical supports and the respective one or more of the lower spring seat and the upper spring seat for facilitating relative movement therebetween. 3. The spring-damper assembly of claim 2 , wherein the layer of material comprises an elastomeric material. 4. The spring-damper assembly of claim 2 , wherein the layer of material is bonded to one or more of the spherical support and the associated spring seat. 5. The spring-damper assembly of claim 1 , wherein a profile of each of the one or more spherical supports is such that the spherical support continuously increases in elevation from an outermost radial point distal the damper to an innermost radial point proximate the damper by a distance, ΔH. 6. The spring-damper assembly of claim 1 , wherein each of the one or more spherical supports is symmetrically disposed about the damper. 7. The spring-damper assembly of claim 1 , wherein each of the one or more spherical supports comprises an exterior surface and an interior surface both formed with a radius, R. 8. The spring-damper assembly of claim 1 , wherein each of the one or more spherical supports comprises the convex surface with a radius R and the complementary surface of the one or more of the lower spring seat and the upper spring seat comprises the mating convex surface with a corresponding radius R. 9. A damper assembly for use in a suspension system of a vehicle, the damper assembly comprising: a housing comprising a lower portion and an upper portion, wherein the lower portion and the upper portion of the housing are axially translatable with respect to one another; and one or more spherical supports disposed about and coupled to one or more of the lower portion and the upper portion, respectively, of the housing and adapted to movably engage a complementary surface of one or more of a lower spring seat and an upper spring seat, respectively, coupled to either end of a coil spring disposed therebetween, wherein the one or more of the lower spring seat and the upper spring seat are symmetrically shaped about the housing; wherein the one or more spherical supports are adapted to minimize side forces exerted by the coil spring on the housing by allowing relative movement between the coil spring and the housing perpendicular to an axis of the damper assembly as the complementary surface of the one or more of the lower spring seat and the upper spring seat translates along the one or more spherical supports perpendicular to the axis of the damper assembly; and wherein each of the one or more spherical supports comprises a convex surface with a peak disposed along the axis of the damper assembly and directed towards the coil spring and the complementary surface of the one or more of the lower spring seat and the upper spring seat comprises a mating concave surface. 10. The damper assembly of claim 9 , further comprising a layer of material coupled to each of the one or more spherical supports and adapted to contact the associated one or more of the lower spring seat and the upper spring seat for facilitating relative movement therebetween. 11. The damper assembly of claim 10 , wherein the layer of material comprises an elastomeric material. 12. The damper assembly of claim 10 , wherein the layer of material is bonded to the spherical support. 13. The damper assembly of claim 9 , wherein a profile of each of the one or more spherical supports is such that the spherical support continuously increases in elevation from an outermost radial point distal the damper to an innermost radial point proximate the damper by a distance, ΔH. 14. The damper assembly of claim 9 , wherein each of the one or more spherical supports is symmetrically disposed about the housing. 15. The damper assembly of claim 9 , wherein each of the one or more spherical supports comprises an exterior surface and an interior surface both formed with a radius, R. 16. The damper assembly of claim 9 , wherein each of the one or more spherical supports comprises the convex surface with a radius R and the complementary surface of the one or more of the lower spring seat and the upper spring seat comprises the mating concave surface with a corresponding radius R. 17. A vehicle suspension system, comprising: a control arm; and a spring-damper assembly coupled to the control arm and adapted to be coupled to a structure of a vehicle, the spring-damper assembly comprising: a damper; a coil spring disposed axially about the damper and extending between a lower spring seat and an upper spring seat; and one or more spherical supports disposed about and coupled to the damper and movably engaging a complementary surface of one or more of the lower spring seat and the upper spring seat, wherein the one or more of the lower spring seat and the upper spring seat are symmetrically shaped about the damper, the one or more spherical supports minimizing side forces exerted by the coil spring on the damper by allowing relative movement between the coil spring and the damper perpendicular to an axis of the spring-damper assembly as the complementary surface of the one or more of the lower spring seat and the upper spring seat translates along the one or more spherical supports perpendicular to the axis of the spring-damper assembly; wherein each of the one or more spherical supports comprises a convex surface with a peak disposed along an axis of the damper and directed towards the coil spring and the complementary surface of the one or more of the lower spring seat and the upper spring seat comprises a mating concave surface. 18. The vehicle suspension assembly of claim 17 , wherein the one or more spherical supports each further comprise a layer of material disposed between each of the one or more spherical supports and the respective one or more of the lower spring seat and the upper spring seat for facilitating relative movement therebetween. 19. The vehicle suspension assembly of claim 18 , wherein the layer of material comprises an elastomeric material. 20. The vehicle suspension assembly of claim 18 , wherein the layer of material is bonded to one or more of the sp