Reset mechanism for stored energy emergency barriers

What is claimed is: 1. A reset mechanism for restoring energy in a movable barrier emergency release device, comprising: a shaft associated with a barrier, the barrier movable between a fully open position and a fully closed position; a push down spring coupled to the shaft; a plurality of clutch rings disposed on the shaft between the push down spring and a tension wheel coupled to an end of the shaft and operable to transmit a torque from the push down spring to move the barrier to the fully closed position, the plurality of clutch rings rotating sequentially in a normal operation mode; wherein the barrier is movable in the normal operation mode from the fully closed position to the fully open position and from the fully open position to the fully closed position while tension is held in the push down spring; wherein the barrier is movable in an emergency operation mode from the fully open position to the fully closed position while tension is released in the push down spring; and wherein, after the release of tension in the push down spring, moving the barrier from the fully closed position to the fully open position retensions the push down spring. 2. The reset mechanism of claim 1 further comprising a barrel coupled to the push down spring and supporting the barrier. 3. The reset mechanism of claim 1 further comprising a counterbalance spring opposing a weight of the barrier. 4. The reset mechanism of claim 1 further comprising a ratchet pawl, the tension wheel coupled to the push down spring and engagement of the tension wheel by the ratchet pawl holding the tension in the push down spring. 5. The reset mechanism of claim 4 wherein engagement of the tension wheel by the ratchet pawl is released in response to melting of a fusible link. 6. The reset mechanism of claim 1 wherein the shaft is a rotatable push down shaft. 7. The reset mechanism of claim 6 further comprising a stationary counterbalance shaft coupled to the rotatable push down shaft and supporting a counterbalance spring. 8. The reset mechanism of claim 1 wherein the push down spring causes the plurality of clutch rings to rotate simultaneously. 9. An emergency release device for a movable barrier, comprising: a barrier; a barrel supporting the barrier, the barrier movable between a fully open position and a fully closed position; a counterbalance spring opposing a weight of the barrier; a push down spring coupled to the barrel and operable to provide a force to move the barrier to either the fully open position or the fully closed position upon the occurrence of an emergency event or during testing; a plurality of clutch rings rotatably disposed on a rotatable push down shaft between the push down spring and a tension wheel coupled to an end of the rotatable push down shaft and configured to transmit a torque from the push down spring to move the barrier to either the fully open or the fully closed position, the plurality of clutch rings rotating sequentially in a normal operation mode; and wherein after providing the force, movement of the barrier to either the fully open position or the fully closed position tensions the push down spring; and wherein the barrier is movable in the normal operation mode from the fully closed position to the fully open position and from the fully open position to the fully closed position while tension is held in the push down spring. 10. The emergency release device of claim 9 further comprising a stationary counterbalance shaft coupled to the barrel. 11. The emergency release device of claim 10 wherein the rotatable push down shaft is coaxially aligned with the stationary counterbalance shaft and coupled to the push down spring. 12. The emergency release device of claim 1 wherein the push down spring causes the plurality of clutch rings to rotate simultaneously. 13. A reset mechanism for restoring energy in a movable barrier emergency release device, comprising: a push down shaft coupled to a barrier, the barrier movable between a fully open position and a fully closed position; a push down spring coupled to the push down shaft and operable to provide a force to move the barrier to the fully closed position upon an occurrence of an emergency event or during testing; a tension wheel coupled to the push down shaft, the push down shaft rotatable to release energy held in the push down spring in response to a ratchet pawl disengaging the tension wheel to exert the force to move the barrier to the fully closed position; a plurality of clutch rings disposed on the push down shaft between the push down spring and the tension wheel; and wherein moving the barrier from the fully closed position to the fully open position tensions the push down spring, the tension in the push down spring being held by an engagement of the ratchet pawl with the tension wheel; and wherein the barrier is movable in a normal operation mode from the fully closed position to the fully open position and from the fully open position to the fully closed position while tension is held in the push down spring and the plurality of clutch rings rotate sequentially. 14. The reset mechanism of claim 13 wherein the ratchet pawl is operable to be released in response to movement of a release handle. 15. The reset mechanism of claim 14 wherein the ratchet pawl is further operable to be released in response to melting of a fusible link.