Elastomeric bearing component with wedge-shaped shims

I claim: 1. A component of a laminated bearing assembly for movably coupling an inner member with an outer member, the outer member having a bore, the bearing assembly component comprising: a laminated body disposeable within the outer member bore and having an inner radial end connectable with the inner member and an outer radial end connectable with the outer member, the body being formed of a plurality of alternating, generally arcuate elastomeric and metallic laminae nested generally about a central axis, each one of the elastomeric and metallic laminae having opposing first and second arcuate ends spaced apart circumferentially about the central axis and inner and outer circumferential surfaces extending circumferentially between the first and second arcuate ends, each metallic lamina having a radial thickness varying circumferentially between a first value at the first, radially-widest arcuate end and a second, lesser value at the second, radially-narrowest arcuate end. 2. The laminated bearing assembly component as recited in claim 1 wherein one of: each elastomeric lamina has a substantially constant radial thickness between the first and second arcuate ends; and each elastomeric lamina has a radial thickness varying circumferentially between a first value at the first, radially-widest arcuate end and a second, lesser value at the second, radially-narrowest arcuate end, the elastomeric and metallic laminae being arranged such that the radially-narrowest end of each one of at least a portion of the elastomeric laminae is disposed generally between the radially-widest ends of two adjacent metallic laminae. 3. The laminated bearing assembly component as recited in claim 1 wherein: each elastomeric lamina has a substantially constant radial thickness between the first and second arcuate ends; and the laminated body has a first circumferential side with a first radial length and an opposing second circumferential side with a second radial length, each metallic laminae first arcuate end being located at least generally proximal to the body first radial side and each metallic laminae second arcuate end being located at least generally proximal to the body second radial side such that the first radial length is substantially greater than the second radial length. 4. The laminated bearing assembly component as recited in claim 3 further comprising: an inner connector configured to connect the laminated body inner radial end with the inner member and having an outer circumferential surface, an innermost one of the elastomeric laminae being attached to the inner connector outer surface; and an outer connector configured to connect the laminated body outer radial end with the outer member and having an inner circumferential surface, an outermost one of the elastomeric laminae being attached to the outer connector inner surface. 5. The laminated bearing assembly component as recited in claim 4 wherein the inner connector outer surface has a generally constant radius about the central axis and the outer connector inner surface has radius about the central axis varying between a first value proximal to the laminated body first circumferential side and a second, greater value proximal to the laminated body second circumferential side such that a spacing distance between the inner connector and the outer connector has a first value at the laminated body first circumferential side and a second, greater value at the laminated body second circumferential end. 6. The laminated bearing assembly component as recited in claim 1 wherein: each elastomeric lamina has a radial thickness varying circumferentially between a first value at the first, radially-narrowest arcuate end and a second, greater value at the second, radially-widest arcuate end, the elastomeric and metallic laminae being arranged such that the radially-narrowest end of each one of at least a portion of the elastomeric laminae is disposed generally between the radially-widest ends of two adjacent metallic laminae at least a portion of the metallic laminae are arranged in pairs of adjacent inner and outer metallic laminae, the outer surface of the inner metallic lamina and the inner surface of the outer metallic lamina being generally radially converging in a first angular direction about the central axis such that the one of the elastomeric laminae disposed between the pair of metallic laminae is generally compressed against the converging outer and inner circumferential surfaces when a torque is applied on the laminated component in the first angular direction. 7. The laminated bearing assembly component as recited in claim 1 wherein each one of the elastomeric and metallic laminae is one of: partially spherical such that the inner surface of each one of the elastomeric and metallic laminae is generally concave and the outer surface of each one of the elastomeric and metallic laminae is generally convex; substantially circular cylindrical; and substantially conical. 8. The laminated bearing assembly component as recited in claim 1 further comprising: an inner connector configured to connect the laminated body inner radial end with the inner member, an innermost one of the elastomeric laminae being attached to the inner connector; and an outer connector configured to connect the laminated body outer radial end with the outer member, an outermost one of the elastomeric laminae being attached to the outer connector. 9. The laminated bearing assembly component as recited in claim 8 wherein: each one of the elastomeric and metallic laminae is partially spherical and has a center of curvature, the center of curvature of each one of the elastomeric and metallic laminae being at least generally coincident with the center of curvature of each other one of the elastomeric and metallic laminae; and the inner connector has a partially spherical outer surface with a center of curvature, the innermost elastomeric lamina being attached to the inner member outer surface such that the center of curvature of the connector outer surface is one of generally coincident with the centers of curvature of the elastomeric and metallic laminae and is spaced axially along the centerline from the centers of curvature of the elastomeric and metallic laminae. 10. The laminated bearing assembly component as recited in claim 1 wherein each one of the elastomeric and metallic laminae has a circumferential length extending between the first and second arcuate ends, the laminae being arranged such that the circumferential length of each one of the elastomeric and metallic laminae is greater than the circumferential length of each other lamina disposed radially inwardly of the one lamina. 11. The laminated bearing assembly component as recited in claim 1 wherein an angle is defined between the two arcuate ends of each one of the elastomeric and metallic laminae and the central axis, the angle of each one of the elastomeric and metallic laminae having a value about equal to the value of the angle of each other one of the elastomeric and metallic laminae. 12. The laminated bearing assembly component as recited in claim 11 wherein the value of each angle is between about fifteen degrees and about one hundred eighty degrees. 13. A laminated bearing assembly for movably coupling a central inner member with an outer member, the inner member having a central axis and the outer member having a bore, the bearing assembly comprising: at least two laminated bearing components each being disposeable at least partially within the outer member bore and having an inner radial end connectable with the inner member so as to be spaced apart