Heat sink configuration for wearable electronic device

What is claimed is: 1. A pair of smart glasses comprising: a frame; an elongate temple connected to the frame at an articulated joint; onboard electronic components carried by one or more of the frame and the temple and comprising a heat source that generates heat during electrically powered operation thereof; and a thermal coupling comprising at least a first heat sink for the heat source and extending between the heat source and a second heat sink across the articulated joint between the temple and the frame. 2. The pair of smart glasses of claim 1 , wherein the second heat sink comprises a core wire that is disposed within one or more of the temple and the frame to form part of a structural framework thereof, wherein the core wire is thermally coupled to the heat source by the thermal coupling. 3. The pair of smart glasses of claim 2 , wherein the core wire is located within the temple and extends longitudinally along the temple from a first longitudinal end portion thereof toward a second longitudinal end portion thereof. 4. The pair of smart glasses of claim 3 , wherein the heat source is located within the frame. 5. The pair of smart glasses of claim 1 , wherein the thermal coupling is configured to conduct heat across the articulated joint both when the temple is in a wearable condition and when the temple is in a collapsed condition. 6. The pair of smart glasses of claim 1 , wherein the thermal coupling comprises one or more portions of the articulated joint. 7. The pair of smart glasses of claim 1 , wherein the articulated joint comprises a hinge assembly including a cap hinge that comprises a portion of the thermal coupling, the cap hinge forms a portion of the frame and the hinge assembly. 8. The pair of smart glasses of claim 7 , wherein the cap hinge is a portion of a casing of the frame that is integrally formed therewith and has a portion extending therefrom, the cap hinge is abutted along one or more internal surfaces disposed within the frame in a conductive heat exchange relationship by one or more heat sinks internal to the frame. 9. The pair of smart glasses of claim 8 , wherein the onboard electronic components are disposed entirely within the frame and are carried by the one or more heat sinks internal to the frame. 10. The pair of smart glasses of claim 7 , wherein the thermal coupling and hinge assembly further includes a temple hinge configured to be coupled to the cap hinge by a screw, the temple hinge comprising a third heat sink that is coupled to the second heat sink in a conductive heat exchange relationship, and wherein the thermal coupling is configured such that the heat from the onboard electronic components is conducted to the cap hinge, through the screw and temple hinge to the second heat sink within the temple. 11. The pair of smart glasses of claim 1 , further comprising: a second temple connected to the frame at a second articulated joint; second onboard electronic components carried by the frame and comprising a second heat source that generates heat during electrically powered operation thereof; a second core wire located within the second temple; and a second thermal coupling extending between the second heat source and the second core wire across the second articulated joint between the second temple and the frame. 12. A pair of smart glasses, the smart glasses comprising: a frame: an elongated temple connected to the frame at an articulated joint between the temple and the frame; onboard electronic components carried by the frame and comprising a heat source that generates heat during electrically powered operation thereof; and a thermal coupling carried by the frame and arranged to generally interface a portion of the temple, the thermal coupling configured to conduct the heat away from the onboard electronic components across the articulated joint to the temple. 13. The pair of smart glasses of claim 12 , wherein the thermal coupling is configured to conduct heat across the articulated joint both when the temple is in a wearable condition and when the temple is in a collapsed condition. 14. The pair of smart glasses of claim 12 , wherein articulated joint comprises a hinge assembly including a cap hinge that comprises a portion of the thermal coupling, the cap hinge forms a portion of the frame and the hinge assembly. 15. The pair of smart glasses of claim 14 , wherein the cap hinge is a portion of a casing of the frame that is integrally formed therewith and has a portion extending therefrom, the cap hinge is abutted along one or more internal surfaces disposed within the frame in a conductive heat exchange relationship by one or more heat sinks internal to the frame. 16. The pair of smart glasses of claim 15 , wherein the onboard electronic components arc disposed entirely within the frame and are carried by the one or more heat sinks internal to the frame, and wherein the hinge assembly further includes a temple hinge configured to be coupled to the cap hinge by a screw, the temple hinge comprising a heat sink that is coupled to a core wire within the temple in a conductive heat exchange relationship. 17. The pair of smart glasses of claim 16 , wherein the heat from the onboard electronic components is directed to the cap hinge, through the screw and temple hinge to the core wire within the temple. 18. The pair of smart glasses of claim 12 , further comprising a core wire that forms a portion of the temple and the core wire is a heat sink for the heat source, and wherein the thermal coupling comprises one or more portions of the articulated joint. 19. A system including a wearable device, the system comprising: smart glasses comprising: a frame, an elongated temple connected to the frame at an articulated joint between the temple and the frame, onboard electronic components carried by at least one of the frame and the temple, the onboard electronic components comprising a heat source that generates heat during electrically powered operation thereof, a thermal coupling configured to conduct the heat away from the onboard electronic components across the articulated joint, and a case configured to receive the frame and the temple therein for one or more of power charging and data transfer with the temple disposed in a collapsed condition, wherein the thermal coupling is configured to conduct heat across the articulated joint when the temple is in the collapsed condition and the temple and the frame are received in the case. 20. The system of claim 19 , wherein a core wire is disposed within at least one of the frame and the temple to form part of a structural framework for the at least one of the frame and the temple, wherein the core wire is thermally coupled to the heat source to via the thermal coupling to provide a heat sink for the heat source.