Elastomeric spherical bearing assembly and structural member incorporating the same

The invention claimed is: 1. A bearing assembly comprising: a middle retainer having a first concave spherical surface; a bottom retainer having a second concave spherical surface; a spherical ball member comprising a hole configured for coupling to a member; and an elastomeric member bonded to the first concave spherical surface, the second concave spherical surface, and an outer surface of the spherical ball member; wherein the middle retainer and the bottom retainer axially overlap each other and wherein the middle retainer extends axially and upward beyond a top end of the elastomeric member and axially and downward beyond a bottom end of the elastomeric member; and wherein regardless of the position of the spherical ball member relative to the middle retainer, the spherical ball member is biased by the bonded elastomeric member toward an only unbiased position in which a central axis of the hole of the spherical ball member lies substantially coincident with a central axis of the middle retainer. 2. The bearing assembly according to claim 1 , further comprising: a top retainer in thread engagement with the middle retainer. 3. The bearing assembly according to claim 1 , wherein the bottom retainer and the middle retainer are threadingly engaged. 4. The bearing assembly according to claim 1 , wherein the elastomeric member comprises a rubber material. 5. The bearing assembly according to claim 1 , wherein the middle retainer comprises a first chamfer. 6. The bearing assembly according to claim 2 , wherein the top retainer comprises a second chamfer. 7. A structure comprising: a body member having a first surface and a second surface which define a thickness therebetween; an aperture through the body member; a top retainer; a middle retainer having a first concave spherical surface; a bottom retainer having a second concave spherical surface; a spherical ball member comprising a hole configured for coupling to a member; and an elastomeric member bonded to the first concave spherical surface, the second concave spherical surface, and an outer surface of the spherical ball member; wherein the middle retainer and the bottom retainer axially overlap each other and wherein the middle retainer extends axially and upward beyond a top end of the elastomeric member and axially and downward beyond a bottom end of the elastomeric member; and wherein regardless of the position of the spherical ball member relative to the middle retainer, the spherical ball member is biased by the bonded elastomeric member toward a position in which a central axis of the hole of the spherical ball member lies substantially coincident with a central axis of the middle retainer. 8. The structure according to claim 7 , wherein the top retainer is in thread engagement with the middle retainer. 9. The structure according to claim 7 , wherein the bottom retainer and the middle retainer are threadingly engaged. 10. The structure according to claim 7 , wherein the elastomeric member comprises a rubber material. 11. The structure according to claim 7 , wherein the middle retainer comprises a first chamfer that mates with a chamfer feature between the aperture and the first surface. 12. The structure according to claim 7 , wherein the top retainer comprises a second chamfer that mates with a chamfer feature between the aperture and the second surface. 13. A method of manufacturing a structure with a bearing assembly, the method comprising: assembling a cartridge having a middle retainer, a bottom retainer, and a spherical ball member, by bonding an elastomeric member to a first concave spherical surface of the middle retainer, the second concave spherical surface of bottom retainer, and an outer surface of the spherical ball member, wherein the spherical ball member comprises a hole configured for coupling to a member; inserting the cartridge into an aperture in the structure; coupling the cartridge to a top retainer, thereby securing the top retainer and the cartridge in the aperture of the structure; wherein the middle retainer and the bottom retainer axially overlap each other and wherein the middle retainer extends axially and upward beyond a top end of the elastomeric member and axially and downward beyond a bottom end of the elastomeric member; and wherein regardless of the position of the spherical ball member relative to the middle retainer, the spherical ball member is biased by the bonded elastomeric member toward an only unbiased position in which a central axis of the hole of the spherical ball member lies substantially coincident with a central axis of the middle retainer. 14. The method according to claim 13 , wherein the step of bonding the elastomeric member to the first concave spherical surface of the middle retainer, the second concave spherical surface of bottom retainer, and the outer surface of the spherical ball member includes vulcanizing a material into a void between first concave spherical surface of the middle retainer, the second concave spherical surface of bottom retainer, and the outer surface of the spherical ball member. 15. The method according to claim 13 , wherein the step of bonding the elastomeric member to the first concave spherical surface of the middle retainer, the second concave spherical surface of bottom retainer, and the outer surface of the spherical ball member includes injecting a material into a void between first concave spherical surface of the middle retainer, the second concave spherical surface of bottom retainer, and the outer surface of the spherical ball member. 16. The method according to claim 13 , wherein the step of bonding the elastomeric member to the first concave spherical surface of the middle retainer, the second concave spherical surface of bottom retainer, and the outer surface of the spherical ball member includes curing the elastomeric member.