Combination elastomeric and cylindrical plain bearing

We claim: 1. A bearing assembly for movably coupling a first, inner member with a second, outer member, a movable one of the first and second members being angularly displaceable with respect to the other one of the two members about a first axis extending centrally through the inner member and about at least one second axis generally intersecting the first axis or skewed with respect to the first axis, the bearing assembly comprising: an inner plain bearing section including an inner ring having a centerline at least generally coaxial with the first axis, the inner ring being connectable with the first member and having an outer circular cylindrical bearing surface, and an outer ring disposed about the inner ring and having an inner circular cylindrical bearing surface disposed against the inner ring bearing surface, one of the inner and outer ring bearing surfaces being slidable against the other one of the inner and outer ring bearing surfaces when the movable one of the first and second members angularly displaces about the first axis, the inner and outer rings being engageable with each other to substantially prevent relative displacement between the two rings when the movable one of the first and second members angularly displaces about the at least one second axis; and an outer elastomeric bearing section disposed about the plain bearing section, connected with the second member and configured such that at least a portion of the elastomeric bearing section flexes when the movable one of the first and second members angularly displaces about the at least one second axis. 2. The bearing assembly as recited in claim 1 wherein the movable one of the first and second members is angularly displaceable about a plurality of separate second axes each generally intersecting or skewed with respect to the first axis, the plain bearing inner and outer rings being configured to angularly displace about each separate one of the second axes when the inner member displaces relative to the outer member about at least one of the second axes and the at least a portion of the elastomeric bearing being configured to flex when the movable one of the first and second members angularly displaces about each one of the second axes. 3. The bearing assembly as recited in claim 1 wherein the inner ring of the plain bearing section has a central bore configured to receive a portion of the first member so as to connect the first member with the bearing assembly. 4. The bearing assembly as recited in claim 1 wherein the outer ring has opposing axial ends and at least one generally radial contact surface on at least one of the two axial ends and the inner ring has at least one generally radial contact surface disposed against the at least one outer ring contact surface such that engagement between the outer ring contact surface and the inner ring contact surface prevents relative displacement between the inner and outer rings when the moveable one of the first and second angularly displaces about the at least one second axis. 5. The bearing assembly as recited in claim 4 wherein the outer ring has at least two generally radial contact surfaces each located on a separate one of the two axial ends and the inner ring has two facing, generally radial contact surfaces each disposed against a separate one of the at least two outer ring contact surfaces. 6. The bearing assembly as recited in claim 1 wherein the outer ring includes a partially spherical body having opposing axial end faces, the inner circular cylindrical surface extending generally axially between the end faces and defining an interior bore. 7. The bearing assembly as recited in claim 6 wherein the outer ring includes a liner layer disposed on the inner surface of the spherical body and providing the bearing surface of the outer ring, the layer being formed of a material having a hardness substantially lesser than a hardness of the inner ring material. 8. The bearing assembly as recited in claim 1 wherein the outer ring has opposing axial ends and the inner ring includes two generally cylindrical sections each having an inner end disposed within the outer ring and against the inner end of the other cylindrical section and an opposing outer end, each cylindrical section having an outer circular cylindrical surface section providing a portion of the inner ring bearing surface and each outer axial end having a radial contact surface disposable against a separate one of outer ring axial ends. 9. The bearing assembly as recited in claim 1 wherein the inner ring includes a central cylindrical section having two opposing axial ends and at least one end section attached to one of the central section axial ends and providing a radial contact surface disposable against the outer ring. 10. The bearing assembly as recited in claim 1 wherein the elastomeric bearing section is formed as a laminated bearing including a plurality of alternating, substantially flexible laminae and substantially rigid laminae nested coaxially generally about a centerline. 11. The bearing assembly as recited in claim 10 wherein each flexible laminae is formed of an elastomeric material and each rigid laminae is formed of one of a metallic material and a rigid polymeric material. 12. The bearing assembly as recited in claim 10 wherein at least one of the flexible laminae is at least one of compressed, extended and twisted relative to a pair of coaxially adjacent rigid laminae during flexure of the laminated bearing section. 13. The bearing assembly as recited in claim 10 wherein each one of the flexible and rigid laminae has an outside diameter, the plurality of laminae being arranged such that each one of the laminae is disposed within all of the other laminae having an outside diameter greater than the outside diameter of the one lamina. 14. The bearing assembly as recited in claim 10 wherein each one the flexible and rigid laminae is partially spherical. 15. The bearing assembly as recited in claim 1 wherein the elastomeric bearing portion includes a generally cylindrical body or at least two generally wedge-shaped body portions. 16. The bearing assembly as recited in claim 1 wherein the second member has a bore and the bearing assembly is disposed within the second member bore. 17. A mechanical assembly comprising: a first, inner member; a second, outer member, a movable one of the first and second members being angularly displaceable with respect to the other one of the two members about a first axis extending centrally through the inner member and about at least one second axis generally intersecting the first axis or generally skewed with respect to the first axis; and a bearing assembly including: an inner plain bearing section including a generally cylindrical inner ring having a centerline at least generally coaxial with the first axis, the inner ring being connectable with the first member and having an outer circular cylindrical bearing surface, and an outer ring disposed about the inner ring and having an inner circular cylindrical bearing surface disposed against the inner ring bearing surface, one of the inner and outer ring bearing surfaces being slidable against the other one of the inner and outer ring bearing surfaces when the movable one of the first and second members angularly displaces about the first axis, the inner and outer rings being engageable with each other to substantially prevent relative displacement between the two rings when the movable member one of the first and second members angularly displaces about the at least one second axis; and an outer