Motorized actuator for a fire extinguisher

The invention claimed is: 1. A fire extinguisher actuator assembly for a fire extinguisher, the fire extinguisher comprising a fire extinguisher reservoir and a fire extinguisher outlet burst disc that forms a discharge barrier between the fire extinguisher reservoir and a discharge head to retain a pressurized fire extinguishing agent within the fire extinguisher reservoir, the fire extinguisher actuator assembly comprising: a cutter positioned within the fire extinguisher reservoir and proximate the fire extinguisher outlet burst disc, the cutter positioned to contact the pressurized fire extinguishing agent prior to piercing of the fire extinguisher outlet burst disc, wherein the cutter is coupled to a shuttle body to form a cutter shuttle assembly, and the cutter shuttle assembly further comprises an engagement interface to engage with a pusher; a drive shaft comprising the pusher and a shaft end cap to retain the pusher on the drive shaft, wherein the drive shaft is a helical drive shaft; and a motorized activation device within the fire extinguisher reservoir and positioned to contact the pressurized fire extinguishing agent prior to piercing of the fire extinguisher outlet burst disc, the motorized activation device operable to rotate the drive shaft and push the cutter to pierce the fire extinguisher outlet burst disc, thereby releasing the pressurized fire extinguishing agent through the discharge head. 2. The fire extinguisher actuator assembly of claim 1 , wherein the engagement interface comprises one or more pin holes, and the pusher comprises one or more pusher pins to engage with the one or more pin holes. 3. The fire extinguisher actuator assembly of claim 1 , wherein the shuttle body further comprises one or more anti-rotation holes to engage one or more anti-rotation guides. 4. The fire extinguisher actuator assembly of claim 3 , wherein the one or more anti-rotation guides are coupled to the motorized activation device. 5. The fire extinguisher actuator assembly of claim 1 , wherein the cutter shuttle assembly is detained by at least one flexible seal until a force exerted by the motorized activation device is sufficient to overcome a holding force of the at least one flexible seal. 6. The fire extinguisher actuator assembly of claim 1 , wherein the fire extinguisher outlet burst disc is hermetically sealed. 7. The fire extinguisher actuator assembly of claim 1 , wherein the motorized activation device is electrically driven absent a pyrotechnic trigger device. 8. A method of installing a fire extinguisher actuator assembly in a fire extinguisher, the fire extinguisher comprising a fire extinguisher reservoir and a fire extinguisher outlet burst disc that forms a discharge barrier between the fire extinguisher reservoir and a discharge head to retain a pressurized fire extinguishing agent within the fire extinguisher reservoir, the method comprising: positioning a cutter within the fire extinguisher reservoir and proximate the fire extinguisher outlet burst disc, the cutter positioned to contact the pressurized fire extinguishing agent prior to piercing of the fire extinguisher outlet burst disc, wherein the cutter is coupled to a shuttle body to form a cutter shuttle assembly, and the cutter shuttle assembly further comprises an engagement interface to engage with a pusher; arranging the pusher on a drive shaft, wherein a shaft end cap retains the pusher on the drive shaft and the drive shaft is a helical drive shaft; and mounting a motorized activation device comprising the drive shaft within the fire extinguisher reservoir to contact the pressurized fire extinguishing agent prior to piercing of the fire extinguisher outlet burst disc such that the motorized activation device is operable to rotate the drive shaft and push the cutter to pierce the fire extinguisher outlet burst disc, thereby releasing the pressurized fire extinguishing agent through the discharge head. 9. The method of claim 8 , wherein the cutter shuttle assembly is detained by at least one flexible seal until a force exerted by the motorized activation device is sufficient to overcome a holding force of the at least one flexible seal, and the shuttle body further comprises one or more anti-rotation holes to engage one or more anti-rotation guides. 10. The method of claim 8 , wherein the motorized activation device is electrically driven absent a pyrotechnic trigger device.