Self-adjusting caster assemblies

What is claimed is: 1. A caster assembly, comprising: a caster fork comprising first and second caster fork arms extending from either side of a central fork portion, the first and second caster fork arms configured to support a wheel disposed therebetween; a conical coil spring connected at a first end to the central fork portion of the caster fork; and a caster frame, the caster frame comprising a central frame portion and first and second frame wing portions extending from either side of the central frame portion, the caster fork attached to the caster frame and pivotable about an axis of rotation relative to the caster frame, the first and second frame wing portions located laterally outward of the caster fork arms, the central frame portion comprising a recessed section including a mounting surface oriented at an oblique angle with respect to the central frame portion, the conical coil member connected at a second end to the mounting surface in the recessed section of the central frame portion, the conical coil spring configured to bias the central fork portion away from the central frame portion, a depth of the recessed frame portion being greater than a height of the conical coil spring in a compressed state, such that the recessed section of the central frame portion providing clearance for the conical coil spring to collapse within the recessed section of the central frame portion when the central frame portion is moved towards the central fork portion. 2. The caster assembly of claim 1 , wherein the conical coiled spring tapers from a larger cross-sectional diameter at the second end to a smaller cross-sectional diameter at the first end. 3. The caster assembly of claim 1 , wherein the central fork portion is substantially planar, and wherein the first and second fork arms extend generally parallel to one another in a direction generally orthogonal to the plane of the central fork portion. 4. The caster assembly of claim 1 , wherein the central frame portion can be brought into contact with the central fork portion when the conical coil spring is in a compressed state. 5. The caster assembly of claim 1 , wherein the caster frame is coupled to a thrust bearing, and wherein the caster frame is rotatable about a bearing axis of rotation of the thrust bearing. 6. The caster assembly of claim 5 , wherein an axis of rotation of the thrust bearing is substantially perpendicular to the axis of rotation of the caster fork. 7. The caster assembly of claim 5 , wherein the caster fork is configured to support a wheel having an axis of rotation which remains radially offset from an axis of rotation of the thrust bearing. 8. The caster assembly of claim 5 , wherein the caster fork is attached to the caster frame by at least one connector pin, the at least one connector pin located between the thrust bearing and the conical coil spring. 9. The caster assembly of claim 1 , wherein the caster fork comprises a plurality of mounting apertures configured to support a wheel assembly. 10. The caster assembly of claim 9 , wherein a distance between a plane of the central frame portion and the mounting apertures in a direction normal to the plane of the central frame portion increases with rotation of the central fork portion away from the central frame portion. 11. The caster assembly of claim 9 , wherein the conical coil spring is configured to push the caster fork away from the central frame portion to maintain contact between an underlying surface and a wheel supported by the caster fork. 12. A wheeled apparatus, comprising: an apparatus frame; and a plurality of wheels supported by the apparatus frame, at least one of the wheels supported by the caster assembly of claim 1 . 13. The wheeled apparatus of claim 12 , wherein the wheeled apparatus comprises a shopping cart. 14. The wheeled apparatus of claim 12 , wherein the entire caster fork is located between a front edge and a rear edge of the wheel.