Wedge clutch with opposing thrust forces

What is claimed is: 1. A wedge clutch, comprising: a first hub; a second hub; an outer ring located radially outward of the first and second hubs; a first wedge plate radially disposed between the first hub and the outer ring; a second wedge plate radially disposed between the second hub and the outer ring; and, a displacement element axially disposed between the first and second hubs and arranged to: for a connect mode, in which the first and second hubs are non-rotatably connected to the outer ring, block axial displacement of the first and second hubs with respect to each other; and, for a disconnect mode, axially displace the first and second hubs with respect to each other to enable rotation between the outer ring and the first and second hubs. 2. The wedge clutch of claim 1 , wherein to transition from the disconnect mode to the connect mode, the displacement element is arranged to axially displace the first and second hubs with respect to each other. 3. The wedge clutch of claim 1 , wherein: to transition from the disconnect mode to the connect mode, the displacement element is arranged to axially displace the first and second hubs away from each other; and, for the disconnect mode, the displacement element is arranged to axially displace the first and second hubs toward each other. 4. The wedge clutch of claim 1 , wherein: the first hub includes a first surface sloping in a first axial direction and in contact with the first wedge plate; and, the second hub includes a second surface sloping in a second axial direction, opposite the first axial direction, and in contact with the second wedge plate. 5. The wedge clutch of claim 4 , wherein: the first surface slopes radially outward toward the second hub; and, the second surface slopes radially outward toward the first hub. 6. The wedge clutch of claim 1 , wherein: the first hub includes a first surface sloping in a first axial direction; the second hub includes a second surface sloping in a second axial direction, opposite the first axial direction; the first and second wedge plates are biased such that the first and second wedge plates are urged into contact with the first and second surfaces, respectively; and, for the disconnect mode: the first and second surfaces are arranged to slide along the first and second wedge plates; and, the first and second wedge plates are arranged to displace radially inward. 7. The wedge clutch of claim 1 , wherein: the first hub includes a first surface sloping in a first axial direction; the second hub includes a second surface sloping in a second axial direction, opposite the first axial direction; the first and second wedge plates are biased such that the first and second wedge plates are urged into contact with the first and second surfaces, respectively; and, for the connect mode: the first and second surfaces are arranged to slide along the first and second wedge plates; and, the first and second wedge plates are arranged to displace radially outward. 8. The wedge clutch of claim 1 , wherein at least a portion of the displacement element is axially disposed between the first and second hubs. 9. The wedge clutch of claim 7 , wherein the displacement element includes an actuator selected from the group consisting of a mechanical actuator, a hydraulic actuator, an electrical actuator and a pneumatic actuator. 10. The wedge clutch of claim 1 , wherein: the first hub includes a first plurality of ramps; the first wedge plate includes a second plurality of ramps engaged with the first plurality of ramps; the second hub includes a third plurality of ramps; the second wedge plate includes a fourth plurality of ramps engaged with the third plurality of ramps; and, for the connect mode, the second and fourth pluralities of ramps are arranged to slide radially outwardly along the first and third pluralities of ramps, respectively, in a first circumferential direction or in a second circumferential direction, opposite the first circumferential direction. 11. The wedge clutch of claim 1 , wherein during the connect mode: a taper between the first hub and the first wedge plate is arranged to result in a first force urging the first hub in a first axial direction; and, a taper between the second hub and the second wedge plate is arranged to result in a second force: urging the second hub in a second axial direction, opposite the first axial direction; and, opposing the first force. 12. A wedge clutch, comprising: a first hub including a first surface sloping radially outward in a first axial direction; a second hub including a second surface sloping radially outward toward the first hub in a second axial direction, opposite the first axial direction; an outer ring located radially outward of the first and second hubs; a first wedge plate radially disposed between the first hub and the outer ring and engaged with the first surface; a second wedge plate radially disposed between the second hub and the outer ring and engaged with the second surface; and, a displacement element arranged to: for a connect mode, block axial displacement of the first and second hubs in the first and second axial directions, respectively; and, for a disconnect mode, axially displace the first and second hubs with respect to each other to enable rotation between the outer ring and the first and second hubs. 13. The wedge clutch of claim 12 , wherein: for the connect mode: the displacement element is arranged to axially displace the first and second hubs in the second and first axial directions, respectively; and, the first and second hubs are arranged to displace the first and second wedge plates, respectively, radially outward; and, for the disconnect mode: the displacement element is arranged to axially displace the first and second hubs in the first and second axial directions, respectively; and, the first and second wedge plates are arranged to displace radially inward. 14. The wedge clutch of claim 12 , wherein the displacement element is arranged to: for the connect mode, axially displace the first and second hubs away from each other; and, for the disconnect mode, axially displace the first and second hubs toward each other. 15. The wedge clutch of claim 12 , wherein at least a portion of the displacement element is axially disposed between the first and second hubs. 16. The wedge clutch of claim 12 , wherein: the first hub includes a first plurality of ramps; the first wedge plate includes a second plurality of ramps engaged with the first plurality of ramps; the second hub includes a third plurality of ramps; the second wedge plate includes a fourth plurality of ramps engaged with the third plurality of ramps; and, for the connect mode, the second and fourth pluralities of ramps are arranged to slide radially outwardly along the first and third pluralities of ramps, respectively, in a first circumferential direction or in a second circumferential direction, opposite the first circumferential direction. 17. The wedge clutch of claim 12 , wherein during the connect mode: a taper between the first hub and the first wedge plate is arranged to result in a first force urging the first hub in the first axial direction; and, a taper between the second hub and the second wedge plate is arranged to result in a second force: urging the second hub in the second axial direction; and, opposing the first force. 18. A wedge clutch, comprising: a first hub; a second hub; an outer ring located radially outward of the first and second hubs; a first wedge plate radially disposed between the first hub and the outer ring and in contact with th