Arm prosthetic device

What is claimed is: 1. A prosthetic wrist assembly for imparting fixed path motion to a prosthetic hand assembly, the prosthetic wrist assembly comprising: an input support structure; a wrist pivot axle passing through the input support structure and having first and second flattened ends extending outwardly therefrom; a motor for driving the wrist pivot axle in rotary motion; and a hand interface for coupling to the prosthetic hand assembly, the hand interface including first and second slider blocks slidingly engaging the first and second flattened ends of the wrist pivot axle, respectively, and configured to rotate therewith to rotationally and slidingly couple the hand interface to the input support structure, the hand interface including first and second cam bearings having first and second cam profiles formed therein defining a fixed flexion-deviation movement path having a component of flexion about the wrist pivot axle and a component of deviation about a deviation axis that is perpendicular to the wrist pivot axle, and first and second cam followers engaging the first and second cam bearings, respectively, and adapted to move therein as the wrist pivot axle is driven in rotary motion; wherein rotary motion of the wrist pivot axle drives the hand interface in both rotational and sliding movement to move the hand assembly along the fixed flexion-deviation movement path. 2. The prosthetic wrist assembly according to claim 1 , wherein the flattened end portion at each end of the wrist pivot axle extends into the hand interface, and wherein the first and second slider blocks are adapted to attach the hand assembly thereto. 3. The prosthetic wrist assembly according to claim 2 wherein the first and second cam bearings are attached to the input support structure about each end portion of the pivot axle between the respective first or second slider block and the input support structure. 4. The prosthetic wrist assembly according to claim 3 wherein the first and second cam followers are included in the first and second slider blocks, respectively. 5. The prosthetic wrist assembly according to claim 1 further comprising wherein the hand assembly is angled away from the wrist pivot axle. 6. The prosthetic wrist assembly according to claim 5 wherein the hand assembly is angled away from the wrist pivot axle approximately 30 degrees. 7. A prosthetic wrist assembly for imparting fixed path motion to a prosthetic hand assembly, the prosthetic wrist assembly comprising: an input support structure; first and second cam profiles associated with the input support structure, the first and second cam profiles defining a fixed flexion-deviation movement path; a hand interface for coupling the prosthetic hand assembly to the prosthetic wrist assembly, the hand interface including first and second cam followers engaging the first and second cam profiles; a wrist pivot axle pivotally coupled to the input support structure and having first and second flattened ends extending outwardly therefrom to engage the hand interface; and an actuator for driving the wrist pivot axle in rotary motion relative to the input support structure; wherein the hand interface includes first and second slider blocks slidingly engaging the first and second flattened ends of the wrist pivot axle, respectively, and configured to rotate therewith to rotationally and slidingly couple the hand interface to the input support structure; and wherein rotary motion of the wrist pivot axle drives the hand interface in both rotational and sliding movement as the first and second cam followers move within the first and second cam profiles. 8. The prosthetic wrist assembly according to claim 7 , wherein rotary motion of the wrist pivot axle drives the hand interface to move the hand assembly along the fixed flexion-deviation movement path defined by the first and second cam profiles. 9. The prosthetic wrist assembly according to claim 8 , wherein the fixed flexion-deviation movement path includes a component of flexion about the wrist pivot axle and a component of deviation about a deviation axis that is perpendicular to the wrist pivot axle. 10. The prosthetic wrist assembly according to claim 7 , wherein the flattened end portion at each end of the wrist pivot axle extends into the hand interface, and wherein the first and second slider blocks are adapted to attach the hand assembly thereto. 11. The prosthetic wrist assembly according to claim 10 , wherein the first and second cam profiles are formed in first and second cam bearings attached to the input support structure. 12. The prosthetic wrist assembly according to claim 11 , wherein each of the first and second cam bearings includes an axle opening, and wherein the first and second cam bearings are attached to the input support structure with each flattened end portion of the pivot axle extending outwardly from the input support structure through the axle opening of one of the first and second cam bearings. 13. The prosthetic wrist assembly according to claim 7 , wherein the hand assembly is angled away from the wrist pivot axle. 14. The prosthetic wrist assembly according to claim 13 , wherein the hand assembly is angled approximately 30 degrees. 15. A prosthetic wrist assembly for imparting fixed path motion to a prosthetic hand assembly, the prosthetic wrist assembly comprising: an input support structure having a wrist pivot axle passing therethrough, the wrist pivot axle having first and second flattened ends extending outwardly from the input support structure; a hand interface for coupling the prosthetic hand assembly to the prosthetic wrist assembly, the hand interface including first and second slider blocks slidingly engaging the first and second flattened ends of the wrist pivot axle, respectively, to both rotationally and slidingly couple the hand interface to the input support structure, first and second cam bearings, each having a cam profile formed therein, and first and second cam followers engaging the cam profiles; and an actuator for driving the hand interface relative to the input support structure to move the hand assembly in both rotational and sliding movement along a fixed flexion-deviation movement path having a component of flexion about the axis of rotational movement and a component of deviation about a deviation axis that is perpendicular to the axis of rotational movement. 16. The prosthetic wrist assembly according to claim 15 , wherein the actuator drives the wrist pivot axle in rotary motion to drive the hand interface. 17. The prosthetic wrist assembly according to claim 16 , wherein the flattened end portion at each end of the wrist pivot axle extends into the hand interface; and wherein the first and second slider blocks are adapted to attach the hand assembly thereto. 18. The prosthetic wrist assembly according to claim 17 , wherein the hand assembly is angled away from the wrist pivot axle. 19. The prosthetic wrist assembly according to claim 18 , wherein the hand assembly is angled approximately 30 degrees. 20. The prosthetic wrist assembly according to claim 16 , wherein the axis of rotational movement is the axis of the wrist pivot axle. 21. The prosthetic wrist assembly according to claim 15 , wherein the cam profiles of the first and second cam bearings are associated with the input support structure, the cam profiles defining the fixed flexion-deviation movement path. 22. The prosthetic wrist assembly accor