Power switch device with shape memory alloy actuator

The invention claimed is: 1. A power switch device comprising: a housing having a cavity, the housing having stationary current carrying contacts which extend through the housing to the cavity; a movable shuttle having a bridge contact provided in the cavity, the shuttle having a recess; a rail attached to a bottom wall of the housing, the rail being received in the recess of the shuttle to allow the shuttle to move in a direction which is parallel to a longitudinal axis of the rail; at least one shape memory alloy actuator attached to a first end of the shuttle and to a first end of the housing, the at least one shape memory alloy actuator configured to respond to a first activation signal; wherein the at least one shape memory alloy actuator contracts from an initial shape in response to the first actuation signal to move the shuttle and the bridge contact toward the stationary current carrying contacts to a closed position in which the bridge contact is positioned in electrical engagement with the stationary current carrying contacts. 2. The power switch device as recited in claim 1 , wherein at least one second shape memory alloy actuator is attached to a second end of the shuttle and to a second end of the housing, the second shape memory alloy actuator configured to respond to a second activation signal; wherein the at least one second shape memory alloy actuator contracts from an uncontracted shape in response to the second actuation signal to move the shuttle and the bridge contact away from the stationary current carrying contacts. 3. The power switch device as recited in claim 1 , wherein a heat conductive material is provided in the cavity of the housing and is in contact with the at least one shape memory alloy actuator, the at least one shape memory alloy actuator is at least one latching shape memory alloy actuator. 4. The power switch device as recited in claim 2 , wherein a heat conductive material is provided in the cavity of the housing and is in contact with the at least one shape memory alloy actuator and the at least one second shape memory alloy actuator, the at least one shape memory alloy actuator is at least one latching shape memory alloy actuator and the at least one second shape memory alloy actuator is at least one resetting shape memory alloy actuator. 5. The power switch device as recited in claim 3 , wherein the heat conductive material provides electrical isolation and power interruption capabilities of the stationary current carrying contacts contained in the power switch device. 6. The power switch device as recited in claim 3 , wherein the heat conductive material is configured to control the transfer of heat from the at least one latching shape memory alloy actuator by conduction. 7. The power switch device as recited in claim 3 , wherein the heat conductive material has a higher thermal conductivity than air. 8. The power switch device as recited in claim 3 , wherein the heat conductive material has flexibility in order that the shape and configuration of the heat conductive material may change along with any change in geometry of the at least one latching shape memory alloy actuator. 9. The power switch device as recited in claim 8 , wherein the heat conductive material is a fluid. 10. The power switch device as recited in claim 3 , wherein the housing has side walls with heat dissipating fins extending from the side walls. 11. The power switch device as recited in claim 1 , wherein the stationary current carrying contacts extend through sealed openings provided in side walls of the housing. 12. The power switch device as recited in claim 1 , wherein a first power wire and a first return wire extend through a first end wall of the housing to supply power to the at least one shape memory alloy actuator. 13. The power switch device as recited in claim 12 , wherein a control switch is in-line with the first power wire, in the closed position, the control switch sends an electrical current or signal through the first power wire to the at least one shape memory alloy actuator, causing the at least one shape memory alloy actuator to contract. 14. The power switch device as recited in claim 2 ; wherein a second power wire and a second return wire extend through a second end wall of the housing to supply power to the at least one second shape memory alloy actuator. 15. The power switch device as recited in claim 14 , wherein a control switch is in-line with the second power wire, in the closed position, the control switch sends an electrical current or signal through the second power wire to the at least one second shape memory alloy actuator, causing the at least one second shape memory alloy actuator to contract. 16. The power switch device as recited in claim 1 , wherein a magnet is attached to a bottom wall of the housing and a mating magnet is attached to the shuttle, the magnet and the mating magnet are provided in-line with each other, wherein as the shuttle is moved to the closed position, the magnet and mating magnet are attracted to each other to retain the shuttle in the closed position. 17. A power switch device comprising: a housing having a cavity, the housing having stationary current carrying contacts which extend in the housing to the cavity; a movable shuttle having a bridge contact provided in the cavity, the shuttle having a recess; a rail attached to the housing, the rail being received in the recess of the shuttle to allow the shuttle to move relative to the rail; at least one latching shape memory alloy actuator attached to a first end of the shuttle, the at least one latching shape memory alloy actuator configured to respond to a first activation signal; at least one resetting shape memory alloy actuator is attached to a second end of the shuttle, the resetting shape memory alloy actuator configured to respond to a second activation signal; a heat conductive material provided in the cavity of the housing and is in contact with the at least one latching shape memory alloy actuator and the at least one resetting shape memory alloy actuator, the heat conductive material having a higher thermal conductivity than air, the heat conductive material transfers heat from the at least one latching shape memory alloy actuator and the at least one resetting shape memory alloy actuator by conduction, the heat conductive material being malleable wherein the shape of the heat conductive material changes as the at least one latching shape memory alloy actuator responds to the first activation signal and the resetting shape memory alloy actuator responds to the second activation signal; wherein the at least one latching shape memory alloy actuator contracts from an initial shape in response to the first actuation signal to move the shuttle and the bridge contact toward the stationary current carrying contacts to a closed position in which the bridge contact is positioned in electrical engagement with the stationary current carrying contacts; wherein the resetting shape memory alloy actuator contracts from an uncontracted shape in response to the second actuation signal to move the shuttle and the bridge contact away from the stationary current carrying contacts. 18. The power switch device as recited in claim 17 , wherein a first power wire and a first return wire extend through a first end wall of the housing to supply power to the at least one latching shape memory alloy actuator, a first control switch is in-line with the first power wire, in the closed position, the first control switch sends an electrical curre