Electrically and mechanically redundant release mechanism

Abstract

Two fuse wires ( ) hold an insulator hub ( ) in place which, in turn, retains a hook-shaped release end ( ) of a restraining wire ( ). The insulator hub is provided with two grooves ( ), one for fuse wire ( ) and one for fuse wire ( ), and with a center hole ( ) midway between the grooves. A lanyard ( ) is terminated at its ends by a pair of loops ( ). Loop ( ) is secured through center hole ( ) in the insulator hub. The fuse wires are connected to two power supplies ( ) which are employed as a redundant power supply or fusible link decoupling device ( ). Restraining wire ( ) is wrapped around and holds together a pair of spool halves ( ) of a frangible actuator ( ). A release pin ( ) has a head portion ( ), which is captured between the spool halves, and a shaft portion ( ). A load, as represented by an arrow-headed line ( ), exerts a force upon the release pin tending to move it away from frangible actuator ( ). Current from either of the power supplies can cause a failure of its connected fuse wire which, upon failure, releases the insulator hub from being held in place. Release of the hub in turn frees restraining wire end ( ) and permits the spool halves to separate under exertion of the load, as denoted by arrow-headed line ( ). Should one power supply fail for any reason, current will also flow from the other power supply through its connecting wire to cause a failure of its fuse wire. Additional fuse wires ( ′) may be parallelly added to fuse wires ( ) to preclude premature separation of restraining wire ( ) from the hub.