Wedge clutch with built-in actuator

What is claimed is: 1. A wedge clutch comprising: an inner race; an outer race circumscribing the inner race; a wedge element radially disposed between the inner and outer races and actuatable to couple and decouple the inner and outer races; and a hydraulic or pneumatic actuator including an annular piston having axially extending fingers configured to engage with the wedge element and configured to actuate the wedge element to decouple the inner and outer races. 2. The wedge clutch of claim 1 , wherein the actuator includes a cover cooperating with the outer race to define a chamber, and the piston is disposed in the chamber. 3. The wedge clutch of claim 2 , wherein the cover includes a hub and a shell extending between the outer race and the hub, wherein the shell forms a power flow path between the outer race and the hub, and the hubs defines internal spines. 4. The wedge clutch of claim 2 , wherein the actuator is hydraulic. 5. The wedge clutch of claim 2 , wherein the actuator is hydraulic, and the cover defines an orifice in fluid communication with the hydraulic chamber. 6. The wedge clutch of claim 1 , wherein the wedge element has a plurality of arcuate segments collectively defining a cylinder that encircles the inner race, and resilient members interposed with the segments, and wherein the fingers are disposed between the arcuate segments. 7. The wedge clutch of claim 6 , wherein the fingers are tapered to expand the wedge element when the piston moves axially toward the wedge element to decouple the inner and outer races. 8. The wedge clutch of claim 1 , wherein the inner race defines at least one circular groove and the wedge element defines at least one circular raised ring configured to frictionally engage with the groove when the clutch is engaged. 9. A wedge clutch comprising: an inner race; an outer race circumscribing the inner race; a wedge element radially disposed between the inner and outer races and actuatable to couple and decouple the inner and outer races; a cover cooperating with the outer race to define a piston chamber; and a piston engageable with the wedge element and disposed in the chamber, the piston and the chamber being configured to cooperate to drive the piston into the wedge element to decouple the inner and outer races when fluid or gas is supplied to the chamber. 10. The wedge clutch of claim 9 , wherein the wedge element has a plurality of arcuate sections collectively defining a cylinder that encircles the outer race, and resilient members interposed with the sections, each of the sections includes first and second arcuate segments circumferentially movable relative to each other, wherein the cylinder contracts to engage the wedge clutch in response to the first and second segments moving circumferentially towards each other, and the cylinder expands to disengage the wedge clutch in response to the first and second segments moving circumferentially away from each other. 11. The wedge clutch of claim 10 , wherein the piston defines axially extending fingers each disposed between an associated one of the first and second arcuate segments and configured to drive the first and second arcuate segments apart to disengage the wedge clutch. 12. A wedge clutch comprising: an inner race; an outer race circumscribing the inner race; a plurality of arcuate segments arranged in pairs and circumferentially disposed around the inner race such that each pair forms a section of a wedge cylinder that includes springs disposed between the sections to bias the arcuate segments of each pair towards each other, wherein the springs bias the arcuate segments of each pair towards each other to contract the wedge cylinder onto the inner race so that the races lock in response to relative rotation between the outer race and the wedge cylinder; fingers engageable with the arcuate segments of each pair such that axial movement of the fingers towards the wedge cylinder moves the arcuate segments of each pair away from each other to expand the wedge cylinder and disengage the races; and an actuator configured to axially move the fingers toward the arcuate segments to engage the fingers with the arcuate segments. 13. The wedge clutch of claim 12 wherein the actuator is hydraulic and includes a hydraulic chamber, and a piston disposed in the hydraulic chamber and configured to drive the fingers. 14. The wedge clutch of claim 13 , wherein the fingers are formed on the piston. 15. The wedge clutch of claim 12 , wherein the actuator includes a cover cooperating with the outer race to define a chamber, and a piston disposed in the chamber. 16. The wedge clutch of claim 15 , wherein the cover has a hub that defines an internal spline. 17. The wedge clutch of claim 16 , wherein actuator is hydraulic, and the hub defines an orifice in fluid communication with the chamber.