A hardware retention mechanism comprising a frame including a first guide shoulder and a pivot point; an actuator arm including a first guide post; and a first shape memory alloy wire strung between the first guide shoulder and the first guide post that rotates the actuator arm between a locked posi
A hardware retention mechanism comprising a frame including a first guide shoulder and a pivot point; an actuator arm including a first guide post; and a first shape memory alloy wire strung between the first guide shoulder and the first guide post that rotates the actuator arm between a locked position and an unlocked position. The actuator arm is rotatable around the pivot point between a locked position and an unlocked position. In some embodiments, the frame may further comprise a second guide shoulder, the actuator arm may further comprise a second guide post, and a second shape memory alloy wire may be strung between the second guide shoulder and the second guide post that rotates the actuator arm between an unlocked position and a locked position.
대표청구항▼
1. A method comprising: electrically heating a first shape memory alloy wire strung between a first guide shoulder of a frame and a first guide post of an actuator arm to rotate the actuator arm relative to the frame from an unlocked position into a locked position; andelectrically heating a second
1. A method comprising: electrically heating a first shape memory alloy wire strung between a first guide shoulder of a frame and a first guide post of an actuator arm to rotate the actuator arm relative to the frame from an unlocked position into a locked position; andelectrically heating a second shape memory alloy actuator wire strung between a second guide shoulder of the frame and a second guide post of the actuator arm to rotate the actuator arm relative to the frame from the locked position into the unlocked position,wherein in the locked position, a locking pin of the actuator arm engages a locking slot in a carrier to prevent movement of a release tab, which prevents movement of a fixing catch, which prevents removal of the carrier from a device rack in which the carrier is disposed,and wherein the actuator arm comprises an integrated curved spring member that, when the actuator arm has a current position that is one of the locked or unlocked position, maintains the actuator arm in the current position when the electrical power is withdrawn. 2. The method of claim 1, wherein the actuator arm includes an over-center feature. 3. The method of claim 2, wherein the over-center feature of the actuator arm comprises the integrated curved spring member. 4. The method of claim 1, wherein the first and second shape memory alloy wires each comprise redundant actuator structures. 5. The method of claim 1, wherein in the unlocked position, the locking pin disengages from the locking slot to permit removal of the carrier from the device rack. 6. A method comprising: electrically heating a first shape memory alloy wire between a frame and an actuator arm to rotate the actuator arm relative to the frame from an unlocked position to a locked position; andelectrically heating a second shape memory alloy wire strung between the frame and the actuator arm to rotate the actuator arm relative to the frame from the locked position to the unlocked position,wherein in the locked position, the actuator arm prevents movement of a release tab, which prevents movement of a catch,and wherein the actuator arm comprises a integrated curved spring member that, when the actuator arm has a current position that is one of the locked or unlocked position, maintains the actuator arm in the current position when the electrical power is withdrawn. 7. The method of claim 6, wherein in the locked position, a locking pin of the actuator arm engages a locking slot, which prevents movement of the release tab. 8. The method of claim 7, wherein the locking slot is part of a carrier, and preventing of movement of the catch prevents removal of the carrier from a device rack in which the carrier is disposed. 9. A method comprising: electrically heating a first shape memory alloy wire to rotate an actuator arm from an unlocked position to a locked position; andelectrically heating a second shape memory alloy to rotate the actuator arm from the locked position to the unlocked position,wherein in the locked position, the actuator arm prevents movement of a release tab, which prevents movement of a catch,and wherein the actuator arm comprises an integrated curved spring member that, when the actuator arm has a current position that is one of the locked or unlocked position, maintains the actuator arm in the current position when the electrical power is withdrawn. 10. The method of claim 9, wherein each of the first shape memory alloy wire and the second shape memory alloy wire is disposed between a frame and the actuator arm. 11. The method of claim 9, wherein in the locked position, a locking pin of the actuator arm engages a locking slot, which prevents movement of the release tab. 12. The method of claim 11, wherein the locking slot is part of a carrier, and preventing of movement of the catch prevents removal of the carrier from a device rack in which the carrier is disposed.
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