Conductive connection through eyewear hinge

1 . (canceled) 2 . An eyewear device comprising: a frame holding one or more optical elements; a temple coupled to the frame for supporting the frame in position during wearing of the eyewear device; a hinge mechanism that hingedly couples the temple to the frame, permitting pivotal movement of the temple about a hinge axis to dispose the temple between a wearable position and a collapsed position, the hinge mechanism comprising: a plurality of hinge knuckles that are respectively connected to one of the frame and the temple and that are intermeshed, together to define a hinge cavity that is hidden from view and that is coincident with the hinge axis, the plurality of hinge knuckles including a pair of end knuckles located at opposite axial ends of the hinge cavity, each end knuckle defining a respective substantially tubular bore co-axial with the hinge cavity; and a pair of hinge pins pivotally connecting together the intermeshed plurality of hinge knuckles, the pair of hinge pins being located in the pair of end knuckles such as to close off the opposite axial ends of the hinge cavity; and a conductor extending between the frame and the temple via the hinge mechanism to provide a conductive coupling between components incorporated in the frame and the temple respectively, the conductor passing through the hinge cavity. 3 . The eyewear device of claim 2 , wherein the hinge mechanism is provided by a pair of hinge pieces incorporated in the frame and the temple respectively, each hinge piece comprising: a body portion attached to a corresponding one of the frame and the temple; and one or more of the plurality of hinge knuckles attached to the body portion, wherein each body portion defines a passage that extends therethrough, each passage being in communication with the hinge cavity, and wherein the conductor extends sequentially through the passage of one of the hinge pieces, through the hinge cavity, and through the passage of the other one of the hinge pieces. 4 . The eyewear device of claim 3 , wherein the hinge cavity and the passages of the pair of hinge pieces are obscured from external view both in the wearable position and in the collapsed position. 5 . The eyewear device of claim 3 , wherein each hinge piece is a metal component of one-piece construction. 6 . The eyewear device of claim 3 , wherein the conductor intersects the hinge axis within the hinge cavity. 7 . The eyewear device of claim 5 , wherein each of the plurality of hinge knuckles has a substantially circular-cylindrical interior that at least partially defines the hinge cavity and that is substantially co-axial with the hinge axis. 8 . The eyewear device of claim 3 , wherein the passages defined by the body portions of the respective hinge pieces open out transversely into the hinge cavity, so that the conductor passes transversely through the hinge cavity. 9 . The eyewear device of claim 3 , wherein at least one of the passages through the body portions opens axially into the hinge cavity, such that the conductor extends: transversely through a first one of the hinge pieces; axially into the hinge cavity; and from there transversely through a second one of the hinge pieces. 10 . The eyewear device of claim 3 , wherein a first one of the pair of hinge pieces defines a pair of passages extending separately through its body portion and opening separately into the hinge cavity. 11 . The eyewear device of claim 10 , wherein the first hinge piece provides a pair of tubular hinge knuckles co-axially flanking a central hinge knuckle provided by the hinge formation of the other, second hinge piece, wherein the hinge cavity is defined by a hollow interior of the central hinge knuckle of the second hinge piece, the second hinge piece having a single passage extending through its body portion into the interior of the central hinge knuckle, and wherein the pair of passages through the body portion of the first hinge piece extend into respective hollow interiors of the pair of hinge knuckles of the first hinge piece, the interiors of the pair of hinge knuckles being in communication with the hinge cavity of the central hinge knuckle at opposite axial ends thereof. 12 . The eyewear device of claim 2 , wherein the conductor is an electrical conductor an onboard battery of the eyewear device to powered electronic components across the hinge mechanism. 13 . The eyewear device of claim 2 , wherein the conductor establishes a data connection across the hinge mechanism between electronic components in the frame and in the temple respectively. 14 . The eyewear device of claim 2 , wherein the conductor is a thermal conductor configured to conduct heat across the hinge mechanism from a heat generating component to a heatsink element. 15 . A hinge mechanism comprising: a pair of hinge pieces, each of which comprises: one or more hinge knuckles that are intermeshed with and hingedly engaged with one or more complementary hinge knuckles of the other hinge piece, the engaged hinge knuckles together defining an internal hinge cavity that is hidden from external view and that is substantially co-axial with a hinge axis of the hinge mechanism, the intermeshed hinge knuckles including a pair of end knuckles located at opposite axial ends of the hinge cavity; and a body portion fixedly attached to the corresponding one or more hinge knuckles, the body portion defining a passage that extends therethrough and that is in communication with the hinge cavity; a pair of hinge pins pivotally connecting together the intermeshed hinge knuckles, the pair of hinge pins being located in the pair of end knuckles such as to close off the opposite axial ends of the hinge cavity; and a conductor that extends through the passages of the respective hinge pieces and through the hinge cavity, such that the conductor is obscured from external view at the engaged hinge knuckles. 16 . The hinge mechanism of claim 15 , wherein the pair of hinge pieces are hingedly disposable between an open and a closed position, the hinge cavity and the passages of the pair of hinge pieces being obscured from external view both in the open position and the closed position. 17 . The hinge mechanism of claim 15 , wherein each hinge piece is a metal component of one-piece construction. 18 . The hinge mechanism of claim 15 , wherein the conductor intersects the hinge axis within the hinge cavity. 19 . The hinge mechanism of claim 18 , wherein at least one of the hinge knuckles has a substantially cylindrical interior that at least partially defines the hinge cavity and that is substantially co-axial with the hinge axis. 20 . The hinge mechanism of claim 15 , wherein the conductor is an electrical conductor.