Valve manifold, washer system, and device

The invention claimed is: 1. A valve manifold comprising: a housing defining an inlet port and a plurality of outlet ports, wherein each of the plurality of outlet ports defines a sealing face; a plurality of poppets, wherein each of the plurality of poppets is disposed within a respective one of the plurality of outlet ports and is configured for translating towards and away from the sealing face; a plurality of pins, wherein each of the plurality of pins protrudes from a respective one of the plurality of poppets; wherein each of the plurality of pins protrudes from the housing and is rotatable with respect to the housing; and a plurality of actuators each configured for translating a respective one of the plurality of poppets towards and away from the sealing face, wherein each of the plurality of actuators is formed from a shape memory alloy transitionable between a first state and a second state in response to a thermal activation signal. 2. The valve manifold of claim 1 , further including a plurality of first o-ring seals each surrounding a respective one of the plurality of pins and configured for sealing the respective one of the plurality of pins against the housing. 3. The valve manifold of claim 1 , further including a plurality of linkages, wherein each of the plurality of linkages is connected to a respective one of the plurality of pins and a respective one of the plurality of actuators. 4. The valve manifold of claim 3 , wherein the shape memory alloy transitions between the first state and the second state to translate a respective one of the plurality of poppets towards and away from the sealing face. 5. The valve manifold of claim 3 , wherein each of the plurality of actuators is configured as a wire that contracts in length in response to the thermal activation signal to translate a respective one of the plurality of linkages, concurrently rotate a respective one of the plurality of pins, and thereby translate the respective one of the plurality of poppets towards or away from the sealing face. 6. The valve manifold of claim 3 , wherein each of the plurality of actuators is configured as a first resilient member that compresses in response to the thermal activation signal to translate a respective one of the plurality of linkages, concurrently rotate a respective one of the plurality of pins, and thereby translate the respective one of the plurality of poppets towards or away from the sealing face. 7. The valve manifold of claim 1 , wherein each of the plurality of poppets has a first end and a second end spaced apart from the first end, and further wherein the valve manifold further includes a plurality of second o-ring seals each disposed on the first end of a respective one of the plurality of poppets and configured for sealing the first end against the sealing face. 8. The valve manifold of claim 7 , further including a plurality of second resilient members, wherein each of the plurality of second resilient members is coiled about the first end of a respective one of the plurality of poppets and is configured for translating the respective one of the plurality of poppets between: a closed position in which the respective one of the plurality of poppets is disposed against the sealing face; and an open position in which the respective one of the plurality of poppets is spaced apart from the sealing face. 9. The valve manifold of claim 8 , wherein each of the plurality of second resilient members is configured for translating the respective one of the plurality of poppets between the open position and the closed position as the shape memory alloy cools. 10. A washer system comprising: a reservoir defining a cavity and configured for storing a fluid within the cavity; a valve manifold including: a housing defining an inlet port and a plurality of outlet ports, wherein each of the plurality of outlet ports defines a sealing face; a plurality of poppets, wherein each of the plurality of poppets is disposed within a respective one of the plurality of outlet ports and is configured for translating towards and away from the sealing face; and a plurality of actuators each configured for translating a respective one of the plurality of poppets towards and away from the sealing face, wherein each of the plurality of actuators is formed from a shape memory alloy transitionable between a first state and a second state in response to a thermal activation signal; and only one pump configured for transmitting the fluid under pressure from the reservoir to the inlet port. 11. The washer system of claim 10 , further including a plurality of nozzles each protruding from the housing and disposed in fluid communication with a respective one of the plurality of outlet ports. 12. The washer system of claim 10 , wherein each of the plurality of actuators does not contact the fluid. 13. A device comprising: a first component; a second component spaced apart from the first component and exposed to debris; a washer system configured for both selectively washing only one of the first component and the second component, and for washing both of the first component and the second component simultaneously, the washer system including: a reservoir defining a cavity and configured for storing a fluid within the cavity; a valve manifold including: a housing defining an inlet port and a plurality of outlet ports, wherein each of the plurality of outlet ports defines a sealing face; a plurality of poppets, wherein each of the plurality of poppets is disposed within a respective one of the plurality of outlet ports and is configured for translating towards and away from the sealing face; and a plurality of actuators each configured for translating a respective one of the plurality of poppets towards and away from the sealing face, wherein each of the plurality of actuators is formed from a shape memory alloy transitionable between a first state and a second state in response to a thermal activation signal; and only one pump configured for transmitting the fluid under pressure from the reservoir to the inlet port; a first nozzle disposed in fluid communication with one of the plurality of outlet ports and configured for spraying the fluid onto the first component; and a second nozzle disposed in fluid communication with another of the plurality of outlet ports and configured for spraying the fluid onto the second component. 14. The device of claim 13 , wherein the valve manifold includes at least four outlet ports. 15. The device of claim 14 , wherein two of the plurality of actuators simultaneously actuate a respective two of the plurality of poppets. 16. The device of claim 15 , wherein the shape memory alloy transitions between the first state and the second state in response to the thermal activation signal to actuate one of the plurality of poppets and another one of the plurality of poppets so that the one of the plurality of poppets and the other one of the plurality of poppets are both disposed in an open position in which the one of the plurality of poppets and the other one of the plurality of poppets are spaced apart from the sealing face to thereby simultaneously wash the first component and the second component.