Automatic actuation of a general purpose hand extinguisher

The invention claimed is: 1. An automatic fire extinguisher (AFE) valve assembly, comprising: a valve body; a push rod defining an angled face and disposed in the valve body; a poppet stem arranged perpendicular to a longitudinal axis of the push rod, disposed in the valve body and continuously contacting the angled face of the lush rod to in maintaining a closed position of the assembly, apply a continuous force to the push rod in a direction opposite a force applied to the push rod by an actuator of the automatic fire extinguisher; a poppet-to-valve-body seal coupled to the poppet stem and disposed in the valve body; and a poppet-return spring coupled to the poppet stem and disposed in the valve body, wherein the push rod is configured to force the poppet stem toward a cylinder of the automatic fire extinguisher to open the poppet-to-valve-body seal for creating fluid communication between the cylinder and a main outlet of the assembly, allowing extinguishing agent from the cylinder to flow from the main outlet. 2. The assembly as claimed in claim 1 wherein the angled face includes a keyway. 3. The assembly as claimed in claim 2 wherein the poppet stem engages the keyway, and travels along the keyway upon actuation of the push rod. 4. The assembly as claimed in claim 3 wherein the poppet stem includes deformable material that secures the poppet stem to the push rod upon actuation of the push rod. 5. The assembly as claimed in claim 1 further comprising an end stop disposed in the valve body. 6. The assembly as claimed in claim 5 wherein the push rod includes deformable material that secures the push rod to the end stop upon actuation of the push rod. 7. The assembly as claimed in claim 3 wherein the push rod includes a groove configured to receive the poppet stem upon actuation of the push rod. 8. An automatic fire extinguisher (AFE) system, comprising: a valve assembly; a main outlet coupled to the valve assembly; a cylinder defining an upwardly extending neck coupled to the valve assembly; a refill valve coupled to the valve assembly for re-filling the cylinder with extinguishing agents; and an actuator coupled to the valve assembly and including a pin configured to be ejected a distance to push the valve assembly to actuate the valve assembly to place the valve assembly and the cylinder in fluid communication to allow the extinguishing agents to flow upwardly from the cylinder to the main outlet, wherein the valve assembly comprises: a valve body; a push rod defining an angled face and disposed in the valve body; a poppet stem arranged perpendicular to a longitudinal axis of the push rod, disposed in the valve body, and continuously contacting the angled face of the push rod to, in maintaining a closed position of the valve assembly, apply a continuous force to the push rod in a direction opposite a force applied to the push rod by the pin of the actuator; a poppet-to-valve-body seal coupled to the poppet stem and disposed in the valve body; and a poppet-return spring coupled to the poppet stem and disposed in the valve body, wherein the push rod is configured to force the poppet stem toward the cylinder to open the poppet-to-valve-body seal for creating the fluid communication. 9. The system as claimed in claim 8 wherein the angled face includes a keyway. 10. The system as claimed in claim 9 wherein the poppet stem engages the keyway, and travels along the keyway upon actuation of the push rod. 11. The system as claimed in claim 10 wherein the poppet stem includes deformable material that secures the poppet stem to the push rod upon actuation of the push rod. 12. The system as claimed in claim 8 further comprising an end stop disposed in the valve body. 13. The system as claimed in claim 12 wherein the push rod includes deformable material that secures the push rod to the end stop upon actuation of the push rod. 14. The system as claimed in claim 10 wherein the push rod includes a groove configured to receive the poppet stem upon actuation of the push rod. 15. A method for operating an automatic fire extinguisher (AFE), the method comprising: detecting at least one of a fire or explosion in a confined space; activating the automatic fire extinguisher that includes: a valve assembly including: a valve body; an end stop disposed in the valve body; a push rod having an angled face and keyway disposed in the angled face and disposed in the valve body; a poppet stem arranged perpendicular to a longitudinal axis of the push rod, disposed in the valve body, and continuously contacting the angled face of the push rod to, in maintaining a closed position of the valve assembly, apply a continuous force to the push rod in a direction opposite a force applied to the push rod by an actuator of the automatic fire extinguisher; a poppet-to-valve-body seal coupled to the poppet stem and disposed in the valve body; and a poppet-return spring coupled to the poppet stem and disposed in the valve body, wherein the push rod is configured to force the poppet stem toward a cylinder of the extinguisher coupled to the valve assembly to open the poppet-to-valve-body seal for creating fluid communication between the cylinder and a main outlet coupled to the valve assembly, allowing extinguishing agent from the cylinder to flow from the main outlet; and a refill valve coupled to the valve assembly, wherein the actuator is configured to place the valve assembly and the cylinder in fluid communication in response to the at least one of the fire and explosion event; and securing the push rod. 16. The method as claimed in claim 15 wherein the poppet stem includes deformable material that secures the poppet stem to the push rod upon actuation of the push rod, and wherein the push rod includes deformable material that secures the push rod to the end stop upon actuation of the push rod. 17. The method as claimed in claim 15 wherein the push rod includes a groove configured to receive the poppet stem upon actuation of the push rod, which secures the push rod to the poppet stem.