Solenoid initiator with a manual override for inflation system

What is claimed is: 1. A solenoid valve assembly comprising: a solenoid valve housing comprising: a valve seat; an armature valve element fluidly communicative with a fluid source and initially in a closed position relative to the valve seat; and an electromagnet configured to generate a magnetic flux to move the armature-valve element into an open position relative to the valve seat; and a manual actuation assembly configured to generate an applied force to move the armature valve element into the open position relative to the valve seat, wherein the armature-valve element comprises a valve seal at a first end of the armature-valve element to form a seal with the valve seat when the armature-valve element is in the closed position; an armature configured to be responsive to the magnetic flux generated by the electromagnet at a second end of the armature-valve element; and a plunger rod extending from the second end of the armature-valve element through a bore of the solenoid valve housing, and the manual actuation assembly comprises a cap attached to an end of the plunger rod that extends outside of the solenoid valve housing; a fulcrum base; and a lever being configured to rotate about the fulcrum base. 2. The solenoid valve assembly of claim 1 , wherein the manual actuation assembly comprises: a pull cable attached to the lever that in response to an activation force being applied to the pull cable, causes an end of the lever to engage the cap to generate the applied force to the plunger rod that causes the armature valve element to move into the open position. 3. The solenoid valve assembly of claim 2 , wherein the cap comprises an approximately U-shaped member comprising a first surface and a second surface on opposing sides of a recessed slot. 4. The solenoid valve assembly of claim 3 , wherein the lever further comprises a resistive element that prevents rotation of the lever about the fulcrum base until a threshold level of force is applied to the pull cable. 5. The solenoid valve assembly of claim 4 , wherein the resistive element comprises a torsion spring. 6. The solenoid valve assembly with of claim 3 , wherein when the plunger type armature valve element is in the closed position the end of the lever is positioned in the recessed slot of the cap at a first distance away from the second surface of the cap. 7. The solenoid valve assembly of claim 6 , wherein in transitioning from the closed position to the open position, the armature valve element moves a second distance, wherein the second distance is less than the first distance. 8. The solenoid valve assembly of claim 3 further comprising a bellows, wherein a first end of the bellows is attached to a collar extending from the plunger rod external to the solenoid valve housing and a second end of the bellows is attached to an external surface of the solenoid valve housing to create a seal around an opening in the solenoid valve housing through which the plunger rod passes. 9. The solenoid valve assembly of claim 8 , wherein an actuation force used to move the armature-valve element into an open position exceeds a threshold force. 10. The solenoid valve assembly of claim 9 , wherein the threshold force comprises a spring force of one or more elastic elements interfacing with the armature valve element plus a fluid pressure force on a solenoid valve minus a fluid pressure force due to sealing of the bellows. 11. The solenoid valve assembly of claim 9 , wherein the threshold force further comprises the addition of a torsion spring force caused by a torsion spring attached to the lever. 12. The solenoid valve assembly of claim 3 further comprising a pneumatic rod seal, wherein the pneumatic rod seal is provided in an annular grove of the solenoid valve housing about a bore that receives a portion of the plunger rod. 13. The solenoid valve assembly of claim 12 wherein the pneumatic rod seal comprises an O-ring seal. 14. The solenoid valve assembly of claim 13 wherein the pneumatic rod seal isolates a solenoid inner cavity of the solenoid valve housing from external ambient air. 15. The solenoid valve assembly of claim 13 wherein an actuation force used to move the armature-valve element into an open position exceeds a threshold force comprising a spring force of one or more elastic elements interfacing with the armature valve element plus a fluid pressure force on a solenoid valve minus a fluid pressure force due to an O-ring seal. 16. A rapid inflation system comprising: a valve housing to which a fluid source is connected; an actuator housing coupled to the valve housing and configured when actuated to open a normally-closed valve element in the valve housing whereby pressurized fluid is permitted to flow from the fluid source to an inflation valve outlet of the valve housing; and a solenoid valve coupled to the actuator housing, the solenoid valve comprising: a valve seat; an armature valve element fluidly communicative with the fluid source and normally pressure balanced to remain in a closed position relative to the valve seat; an electromagnet configured to generate magnetic flux when activated that moves the armature-valve element into an open position relative to the valve seat such that at least a portion of the pressurized fluid flows into the actuator housing through the valve seat to actuate the actuator housing; and a manual actuation assembly configured to generate an applied force to move the armature valve element into the open position relative to the valve seat, wherein the armature-valve element comprises a valve seal at a first end of the armature-valve element to form a seal with the valve seat when the armature-valve element is in the closed position; an armature configured to be responsive to the magnetic flux generated by the electromagnet at a second end of the armature-valve element; and a plunger rod extending from the second end of the armature-valve element through a bore of the solenoid valve housing, and the manual actuation assembly comprises a cap attached to an end of the plunger rod that extends outside of the solenoid valve housing; a fulcrum base; and a lever being configured to rotate about the fulcrum base. 17. The rapid inflation system of claim 16 , wherein the manual actuation assembly comprises: a pull cable attached to the lever that in response to an activation force being applied to the pull cable, causes an end of the lever to engage the cap to generate the applied force to the plunger rod that causes the armature valve element to move into the open position. 18. The rapid inflation system of claim 16 , wherein the cap comprises an approximately U-shaped member comprising a first internal surface and a second internal surface on either side of a recessed slot.