Audio eyeglasses with double-detent hinge

The invention claimed is: 1. Audio eyeglasses, comprising: a frame for resting on a head of a user, the frame comprising: a lens region; a pair of arms extending from the lens region; a hinge coupling each of the pair of arms with the lens region; and a cable extending through each hinge, wherein each hinge comprises: a body defining a cavity accommodating the cable; and a hinge mechanism within the body, the hinge mechanism comprising: a spring located in the lens region, the spring comprising at least one lever arm extending within the cavity; and a cam member contacting the lever arm of the spring, wherein the cam member comprises: a first contact surface for resisting kickback from the spring when the audio eyeglasses are in a fully open position, and a second, distinct contact surface for resisting kickback from the spring when the audio eyeglasses are in a fully closed position. 2. The audio eyeglasses of claim 1 , wherein the first contact surface has a first surface profile and the second contact surface has a second, distinct surface profile. 3. The audio eyeglasses of claim 1 , wherein the second contact surface has a notch that limits an area of contact with the at least one lever arm. 4. The audio eyeglasses of claim 3 , wherein in the fully closed position, the at least one lever arm applies a force to the second contact surface to maintain the fully closed position regardless of an orientation of the audio eyeglasses wherein in the fully open position, the at least one lever arm applies a force to the first contact surface to maintain the fully open position regardless of an orientation of the audio eyeglasses. 5. The audio eyeglasses of claim 1 , further comprising a pin about which the cam is configured to rotate, wherein the cam comprises a vertically extending hole accommodating the pin, wherein the spring comprises a double-torsion spring. 6. The audio eyeglasses of claim 1 , wherein the lever arm comprises a notch in a contact surface that complements a protrusion in the second contact surface. 7. The audio eyeglasses of claim 1 , further comprising: an electro-acoustic transducer at least partially housed in the frame and comprising a sound-radiating surface for providing an audio output; and at least one microphone in the frame, wherein each hinge permits movement of one of the pair of arms relative to the lens region. 8. The audio eyeglasses of claim 1 , wherein the cavity has a first opening to a pathway in the lens region, and a second opening to an additional pathway in the arm, wherein the cable comprises a printed circuit board (PCB), and wherein the PCB is thinner in a region contained within the hinge than in a distinct region within the pathway or the additional pathway. 9. Audio eyeglasses, comprising: a frame for resting on a head of a user, the frame comprising: a lens region; a pair of arms extending from the lens region; a hinge coupling each of the pair of arms with the lens region; and a cable extending through each hinge, wherein each hinge comprises: a body defining a cavity accommodating the cable; and a hinge mechanism within the body, the hinge mechanism comprising: a spring located in the lens region, the spring comprising at least one lever arm extending within the cavity; and a cam member contacting the lever arm of the spring, wherein the cam member comprises a notch along a contact surface for resisting kickback from the spring when the audio eyeglasses are in a fully closed position. 10. The audio eyeglasses of claim 9 , wherein the cam member comprises a bend for resisting kickback from the spring when the audio eyeglasses are in a fully open position. 11. The audio eyeglasses of claim 9 , wherein the cam comprises a protrusion adjacent to the notch. 12. The audio eyeglasses of claim 11 , wherein in the fully closed position, the at least one lever arm contacts the cam member only at the protrusion. 13. The audio eyeglasses of claim 11 , wherein the lever arm comprises a notch in a contact surface to complement a protrusion in the second contact surface. 14. The audio eyeglasses of claim 9 , further comprising a pin about which the cam is configured to rotate, wherein the cam comprises a vertically extending hole accommodating the pin. 15. The audio eyeglasses of claim 9 , wherein the spring comprises a double-torsion spring. 16. The audio eyeglasses of claim 9 , further comprising: an electro-acoustic transducer at least partially housed in the frame and comprising a sound-radiating surface for providing an audio output; and at least one microphone in the frame, wherein each hinge permits movement of one of the pair of arms relative to the lens region. 17. Audio eyeglasses, comprising: a frame for resting on a head of a user, the frame comprising: a lens region; a pair of arms extending from the lens region; a hinge coupling each of the pair of arms with the lens region; and a cable extending through each hinge, wherein each hinge comprises: a body defining a cavity accommodating the cable; and a hinge mechanism within the body, the hinge mechanism comprising: a spring located in the lens region, the spring comprising at least one lever arm extending within the cavity; and a cam member contacting the lever arm of the spring, wherein the cam member comprises a set of contact surfaces for directing a force from the at least one lever arm to separately maintain the audio eyeglasses in a fully closed position, and a fully open position, respectively. 18. The audio eyeglasses of claim 17 , wherein the cable comprises a printed circuit board (PCB). 19. The audio eyeglasses of claim 1 , wherein the cable comprises a printed circuit board (PCB). 20. The audio eyeglasses of claim 9 , wherein the cable comprises a printed circuit board (PCB).