Shape memory alloy valve

The invention claimed is: 1. A valve apparatus comprising: (a) a valve; (b) a housing including an internal passageway within which the valve is located; (c) a shape memory trigger movable in response to environmental and external heat; (d) an actuator automatically rotating the valve and changing a flow condition of the valve based upon movement of the shape memory trigger; and (e) the heat causing the valve to move to a fail-safe position on at least one of the following: (i) a vehicular fuel tube connected to the housing with the valve blocking fuel flowing from the tube; (ii) a manufacturing plant tube connected to the housing with the valve blocking chemicals flowing from the tube; or (iii) a building sprinkler connected to the housing with the valve opening to allow water to flow to the sprinkler. 2. The valve apparatus of claim 1 , wherein the actuator is a spring which is separate from the shape memory trigger and is not a shape memory alloy. 3. The valve apparatus of claim 1 , wherein the housing is polymeric and the shape memory trigger is a metallic and unlooped wire. 4. The valve apparatus of claim 1 , wherein the shape memory trigger and actuator are mounted to an outside of the housing so that the shape memory trigger is exposed to ambient air. 5. The valve apparatus of claim 1 , wherein the vehicular fuel tube is connected to the housing. 6. The valve apparatus of claim 1 , wherein the chemical-carrying manufacturing plant tube is connected to the housing. 7. The valve apparatus of claim 1 , wherein the water-carrying building sprinkler is connected to the housing. 8. The valve apparatus of claim 1 , wherein: the valve includes a rotating and substantially spherical ball valve with a bore therethrough; and the housing includes a polymeric quick connector with spaced apart ridges adapted to receive a flexible tube thereon. 9. A valve apparatus comprising: (a) a rotating butterfly valve with flat closing faces; (b) a housing including an internal passageway within which the valve is located, the housing further including a polymeric quick connector with spaced apart ridges adapted to receive a flexible tube thereon; (c) a shape memory trigger movable in response to environmental and external heat; (d) an actuator automatically changing a flow condition of the valve based upon movement of the shape memory trigger; and (e) the heat causing the valve to move to a fail-safe position on at least one of the following: (i) a vehicular fuel tube connected to the housing with the valve blocking fuel flowing from the tube; (ii) a manufacturing plant tube connected to the housing with the valve blocking chemicals flowing from the tube; or (iii) a building sprinkler connected to the housing with the valve opening to allow water to flow to the sprinkler. 10. The valve apparatus of claim 9 , wherein the actuator rotates the valve if the heat moves the shape memory trigger. 11. The valve apparatus of claim 9 , wherein the shape memory trigger, being an elongated and unlooped wire, and the actuator are mounted to an outside of the housing so that the shape memory wire is exposed to ambient air. 12. A valve apparatus comprising: (a) a valve; (b) a housing including an internal passageway within which the valve is located; (c) a shape memory wire movable in response to at least one changeable operating condition of: (a) environmental and external heat, or (b) electricity; (d) an actuator automatically changing a flow condition of the valve based upon movement of the shape memory wire; (e) a change in the operating condition causing the valve to move to a fail-safe position on a vehicular fuel tube connected to the housing with the valve being adapted to block fuel flowing from the tube; and (f) the shape memory wire and actuator being mounted to an outside of the housing so that the shape memory wire is exposed to ambient air. 13. The valve apparatus of claim 12 , wherein the actuator rotates the valve if the heat causes movement of the shape memory wire. 14. The valve apparatus of claim 12 , wherein the actuator rotates the valve if the electricity causes movement of the shape memory wire. 15. The valve apparatus of claim 12 , wherein the actuator is a spring which is separate from the shape memory wire and is not a shape memory alloy. 16. The valve apparatus of claim 12 , wherein the housing is polymeric and the shape memory wire is metallic and unlooped. 17. A valve apparatus comprising: (a) a valve; (b) a fluid connector including an internal passageway within which the valve is located; (c) a shape memory trigger movable in response to environmental and external heat; (d) a spring automatically changing a flow condition of the valve based upon movement of the shape memory trigger; (e) the heat causing the valve to move to a fail-safe position on at least one of the following: (i) a vehicular fuel tube connected to the fluid connector with the valve blocking fuel flowing from the tube; (ii) a manufacturing plant tube connected to the fluid connector with the valve blocking chemicals flowing from the tube; or (iii) a building sprinkler connected to the fluid connector with the valve opening to allow water to flow to the sprinkler; and (f) the trigger being mounted outside of the fluid connecter. 18. The valve apparatus of claim 17 , wherein the vehicular fuel tube is connected to the fluid connector. 19. The valve apparatus of claim 17 , wherein the chemical-carrying manufacturing plant tube is connected to the fluid connector. 20. The valve apparatus of claim 17 , wherein the water-carrying building sprinkler is connected to the fluid connector.