Apparatus for spring centered caster wheel

The invention claimed is: 1. An autonomous delivery vehicle that navigates one or more surfaces, the vehicle comprising: a container base including: a controller; and a camera having a field of view; and a power base configured to move the container base across the one or more surfaces, the power base comprising: a base structure including a second controller; two clusters disposed laterally on each side of a base, each cluster rotatably connected to the base, each cluster including a front wheel and a back wheel; and two casters, each caster connected to a caster arm with a caster mount, the caster arms mounted to each side of the base, wherein the casters are disposed partially within the camera's field of view, the caster mount comprise a centering device that urges the casters to a predetermined orientation when the casters are not in contact with the one or more surfaces; wherein the centering device comprises: a first part mounted to the caster arm; a second part rotatably mounted within the first part, the second part rotating about a castor pivot axis and having a rotational position and a design position with respect to the first part; and a spring actuator configured to apply a force on the second part, the force increasing with an angular difference between a rotational position and the design position, the spring actuator comprising: a compression spring oriented along the castor pivot axis a swashshaft rigidly attached to the second part, the swashshaft including a bearing surface defined in part by a swashshaft axis that intersects the caster pivot axis at an acute angle, the bearing surface being centered on the swashshaft axis; a follower, the follower contacting the bearing surface and the compression spring, wherein the follower is configured to progressively compress the compression spring as the angular difference increases. 2. The autonomous delivery vehicle of claim 1 , wherein the follower is rotatably connected to the first part via a pin, the pin being perpendicular to the castor pivot axis. 3. The autonomous delivery vehicle of claim 1 , wherein the follower is allowed to move axially and constrained from rotating about the caster pivot axis. 4. The autonomous delivery vehicle of claim 1 , wherein the second part includes a kingpin rigidly attached to the swashshaft. 5. The autonomous delivery vehicle of claim 1 , wherein the swashshaft comprises a fixed portion attached to the second part and a bearing portion that includes the bearing suface. 6. The autonomous delivery vehicle of claim 5 , wherein the bearing portion is a roller element bearing with an outer race. 7. The caster mount on the vehicle of claim 1 , wherein the follower is connected to the first part via a hinge, the hinge having an axis perpendicular to the castor pivot axis. 8. The caster mount on the vehicle of claim 3 , wherein the follower has a first surface, surface, the first surface being in contact with the bearing surface, the first surface being perpendicular to the swashshaft axis when the second part is in the design position. 9. The caster mount on the vehicle of claim 1 , wherein the design position aligns the caster frame with a centerline of the vehicle base. 10. The caster mount of the vehicle of claim 6 , wherein the outer race is the only part of the swashshaft that contacts the follower. 11. The caster mount of the vehicle of claim 1 , wherein the second part comprises a caster fork and a caster wheel, the caster wheel rotatably attached to the caster fork. 12. The caster mount of the vehicle of claim 1 , wherein the second part is capable of rotating fully around the caster pivot axis. 13. The caster mount of the vehicle of claim 1 , wherein the compression spring is one of a coil spring, a flat spring and a bulk material spring.