Hybrid spherical and thrust bearing

What is claimed is: 1. A bearing, comprising: an outer housing having an opening therethrough; an elastomeric portion disposed within the opening of the outer housing and in contact with the outer housing, the elastomeric portion having an opening therethrough; a separation feature disposed within the opening of the elastomeric portion and in contact with the elastomeric portion, the separation feature having an opening therethrough; and a member disposed within the opening of the separation feature and in contact with the separation feature, the member comprising a conical body portion arranged such that an interior diameter of the conical body portion is smaller than an exterior diameter of the conical body portion, wherein the separation feature is configured to prevent contact between the member and the elastomeric portion. 2. The bearing of claim 1 , wherein the separation feature comprises a first bearing surface in contact with the member such that the member is free to rotate within the elastomeric portion. 3. The bearing of claim 2 , wherein the first bearing surface is a fluorocarbon bearing. 4. The bearing of claim 2 , wherein the first bearing surface is comprised of polytetrafluoroethylene. 5. The bearing of claim 1 , wherein the opening of the outer housing is coaxial with the opening of the elastomeric portion. 6. The bearing of claim 1 , wherein the separation feature comprises an inner housing. 7. The bearing of claim 6 , wherein the opening of the inner housing is coaxial with the opening of the elastomeric portion. 8. The bearing of claim 6 , further comprising a first bearing surface in contact with the inner housing and disposed relative to the member such that the member is free to rotate within the elastomeric portion. 9. The bearing of claim 8 , further comprising a seal adjacent the inner housing and the member and covering the first bearing surface. 10. The bearing of claim 6 , the inner housing comprising a first inner surface and a second inner surface defining the opening therethrough, the second inner surface oriented at a reflex angle relative to the first inner surface such that an interior diameter of the opening of the inner housing is smaller than an exterior diameter of the opening of the inner housing. 11. The bearing of claim 10 , wherein a plane that bisects the inner housing also bisects the reflex angle. 12. The bearing of claim 10 , wherein the first inner surface and the second inner surface intersect along a closed curve. 13. The bearing of claim 12 , wherein the closed curve lies on a plane that bisects the outer housing. 14. The bearing of claim 10 , wherein the member comprises an outer conical surface oriented at an angle corresponding to the orientation of the first inner surface. 15. The bearing of claim 14 , wherein the member is disposed adjacent to the first inner surface inside the opening of the inner housing. 16. The bearing of claim 15 , further comprising a second member disposed adjacent to the second inner surface inside the opening of the inner housing, the second member comprising a second conical body portion arranged such that an interior diameter of the second conical body portion is smaller than an exterior diameter of the second conical body portion. 17. The bearing of claim 16 , further comprising: a first bearing surface in contact with the inner housing and with the member, the first bearing surface separating the member from the first inner surface; and a second bearing surface in contact with the inner housing and with the second member, the second bearing surface separating the second member from the second inner surface. 18. The bearing of claim 17 , wherein the first bearing surface and the second bearing surface are disposed relative to the member and the second member such that the member and the second member are free to rotate within the inner housing. 19. The bearing of claim 1 , wherein the conical body portion is a frustum. 20. A bearing, comprising: an elastomeric portion having an opening therethrough; a member disposed within the opening of the elastomeric portion, the member comprising a conical body portion arranged such that an interior diameter of the conical body portion is smaller than an exterior diameter of the conical body portion; and an inner housing disposed adjacent to the elastomeric portion inside the opening of the elastomeric portion and configured to prevent contact between the member and the elastomeric portion, the inner housing comprising: an opening therethrough which is configured to receive the member; a first inner surface at least partially defining the opening of the inner housing; and a second inner surface at least partially defining the opening of the inner housing, the second inner surface oriented at a reflex angle relative to the first inner surface such that an interior diameter of the opening of the inner housing is smaller than an exterior diameter of the opening of the inner housing, wherein the first inner surface and the second inner surface are both inner surfaces with respect to the inner housing. 21. The bearing of claim 20 , wherein a plane that bisects the inner housing also bisects the reflex angle. 22. The bearing of claim 20 , wherein the first inner surface and the second inner surface intersect along a closed curve. 23. The bearing of claim 22 , wherein the closed curve lies on a plane that bisects the outer housing. 24. The bearing of claim 20 , wherein the member comprises an outer conical surface oriented at an angle corresponding to the orientation of the first inner surface. 25. The bearing of claim 24 , wherein the member is disposed adjacent to the first inner surface inside the opening of the inner housing. 26. The bearing of claim 25 , further comprising a second member disposed adjacent to the second inner surface inside the opening of the inner housing, the second member comprising a second conical body portion arranged such that an interior diameter of the second conical body portion is smaller than an exterior diameter of the second conical body portion. 27. The bearing of claim 26 , further comprising: a first bearing surface in contact with the inner housing and with the member, the first bearing surface separating the member from the first inner surface; and a second bearing surface in contact with the inner housing and with the second member, the second bearing surface separating the second member from the second inner surface. 28. The bearing of claim 27 , wherein the first bearing surface and the second bearing surface are disposed relative to the member and the second member such that the member and the second member are free to rotate within the inner housing.