Self-locking and foldable ejector arm

What is claimed is: 1. An apparatus comprising: a jaw configured to abut a portion of an enclosure for holding a computing device; a transmission lever comprising an arm pivot at a first end and an actuating pivot at a second end, the arm pivot including an actuating slot and a detente angularly spaced from the actuating slot; an arm configured to rotate about the arm pivot in an opening direction and a closing direction, the arm being selectively decoupled from the transmission lever; a slider configured to selectively decouple the arm from the transmission lever, enabling the arm to rotate separately from the transmission lever when decoupled; and a pin coupled to the slider, wherein the actuating slot in the transmission lever captures the pin when the slider couples the arm to the transmission lever, wherein when the arm is selected to be coupled to the transmission lever to prevent the arm from rotating about the arm pivot, rotating the arm in the opening direction causes the transmission lever to rotate in the opening direction about the actuating pivot and releases the jaw from the portion of the enclosure, enabling the computing device to be removed from the enclosure, and wherein when the arm is selected to be decoupled from the transmission lever, rotating the arm in the opening direction causes the arm to rotate about the arm pivot without operating the transmission lever or the jaw. 2. The apparatus of claim 1 , wherein the detente is configured to bias the arm away from the computing device when the pin engages the detente. 3. The apparatus of claim 2 , wherein the arm pivot includes a plurality of angularly spaced detente features configured to bias the arm in a plurality of angularly spaced positions. 4. The apparatus of claim 1 , further comprising a wedge configured to lock the jaw against the portion of the enclosure when the arm rotates in the closing direction. 5. The apparatus of claim 4 , wherein the transmission lever includes an unlocking slope configured to contact an unlocking surface on the wedge, wherein rotating the arm in the opening direction when the arm is coupled to the transmission lever releases the jaw from the portion of the enclosure by forcing the unlocking slope of the transmission lever against the unlocking surface of the wedge. 6. A method comprising: mounting a computing device in an enclosure, the computing device including a locking mechanism comprising an arm, a transmission lever with an arm pivot including an actuating slot and a detente angularly spaced from the actuating slot, a slider, a pin coupled to the slider, and a jaw; selectively coupling the arm to the transmission lever by capturing the pin in the actuating slot to prevent the arm from rotating about the arm pivot; rotating the arm in a closing direction to lock the computing device in the enclosure, wherein rotating the arm in the closing direction actuates the transmission lever to secure the jaw against a portion of the enclosure; selectively decoupling the arm from the transmission lever by causing the slider to slide the pin in the arm to remove the pin from the actuating slot and allow the arm to rotate about the arm pivot; and rotating the arm in an opening direction opposite the closing direction without actuating the transmission lever. 7. The method of claim 6 , further comprising rotating the arm in the opening direction to allow the pin to engage the detente in the arm pivot angularly separated from the actuating slot in the arm pivot. 8. The method of claim 6 , further comprising: ratcheting the arm through a plurality of angularly spaced positions defined by a plurality of angularly spaced detente features configured to bias the arm in a plurality of angularly spaced positions. 9. The method of claim 6 , wherein locking the computing device in the enclosure further comprises preventing the jaw from further rotation with a wedge. 10. The method of claim 9 , further comprising: coupling the arm to the transmission lever; rotating the arm in the opening direction to force an unlocking slope of the transmission lever against an unlocking surface of the wedge; and releasing the jaw from the portion of the enclosure to enable the computing device to be removed from the enclosure. 11. The apparatus of claim 1 , wherein the arm pivot includes a plurality of angularly spaced detente features configured to bias the arm in a plurality of angularly spaced positions when the arm is decoupled from the transmission lever. 12. An apparatus comprising: a jaw configured to abut a portion of an enclosure for holding a computing device; a transmission lever comprising an arm pivot at a first end and an actuating pivot at a second end, the arm pivot including an actuating slot and a detente angularly spaced from the actuating slot; an arm configured to rotate about the arm pivot in an opening direction and a closing direction; a slider configured to selectively decouple the arm from the transmission lever, enabling the arm to rotate separately from the transmission lever when decoupled; and a pin coupled to the slider, wherein the actuating slot in the transmission lever captures the pin when the slider couples the arm to the transmission lever, wherein when the arm is coupled to the transmission lever, rotating the arm in the opening direction causes the transmission lever to rotate in the opening direction about the actuating pivot and releases the jaw from the portion of the enclosure, enabling the computing device to be removed from the enclosure, and wherein the detente in the arm pivot is configured to bias the arm away from the computing device with the pin engages the detente. 13. The apparatus of claim 12 , wherein the arm pivot includes a plurality of angularly spaced detente features configured to bias the arm in a plurality of angularly spaced positions. 14. The apparatus of claim 12 , further comprising a wedge configured to lock the jaw against the portion of the enclosure when the arm rotates in the closing direction. 15. The apparatus of claim 14 , wherein the transmission lever includes an unlocking slope configured to contact an unlocking surface on the wedge, wherein rotating the arm in the opening direction when the arm is coupled to the transmission lever releases the jaw from the portion of the enclosure by forcing the unlocking slope of the transmission lever against the unlocking surface of the wedge.