Virtual or augmented reality headsets having adjustable interpupillary distance

The invention claimed is: 1. A virtual or augmented reality headset, comprising: a frame including opposing arm members and a bridge portion positioned intermediate the opposing arm members; and a pair of virtual or augmented reality eyepieces each having an optical center, the pair of virtual or augmented reality eyepieces movably coupled to the frame to enable adjustment of an interpupillary distance between the optical centers, wherein the frame includes at least two rails on each of the opposing sides of the frame vertically offset from each other to guide a respective one of the virtual or augmented reality eyepieces, and wherein, for each of the opposing sides of the frame, the at least two rails and the arm member form a fork structure. 2. The headset of claim 1 , further comprising: an adjustment mechanism coupled to both of the pair of virtual or augmented reality eyepieces and operable to simultaneously move the pair of virtual or augmented reality eyepieces to adjust the interpupillary distance. 3. The headset of claim 2 , wherein the adjustment mechanism includes a linear actuator physically coupled to the pair of virtual or augmented reality eyepieces. 4. The headset of claim 3 , wherein the linear actuator is physically coupled to the pair of virtual or augmented reality eyepieces by a plurality of links which are arranged such that movement of the linear actuator in a first direction causes the plurality of links to increase the interpupillary distance between the optical centers of the pair of virtual or augmented reality eyepieces and movement of the linear actuator in a second direction opposite the first direction causes the plurality of links to decrease the interpupillary distance between the optical centers of the pair of virtual or augmented reality eyepieces. 5. The headset of claim 4 , further comprising: a motor electro-mechanically coupled to the linear actuator; and an electronic controller electrically coupled to the motor to control movement of the virtual or augmented reality eyepieces via the motor, the linear actuator and the plurality of links. 6. The headset of claim 3 wherein the adjustment mechanism is coupled to the bridge portion and the linear actuator includes a user manipulable control for selectively adjusting a position of each of the virtual or augmented reality eyepieces simultaneously. 7. The headset of claim 1 wherein each virtual or augmented reality eyepiece is arcuate and includes a medial end and a lateral end, the medial end positioned proximate the bridge of the frame and the lateral end positioned proximate a temple region of a respective one of the opposing arm members. 8. The headset of claim 7 wherein the frame includes a respective arcuate profile on each of opposing sides of the frame to at least partially nest with a respective one of the virtual or augmented reality eyepieces when the virtual or augmented reality eyepieces are in a narrowest configuration in which the interpupillary distance is at a minimum. 9. The headset of claim 1 wherein, for each of the opposing sides of the frame, the two rails are located proximate the bridge portion to guide a medial end of the respective virtual or augmented reality eyepiece and support the respective virtual or augmented reality eyepiece in a cantilevered manner. 10. The headset of claim 1 wherein the fork structure supports the respective one of the virtual or augmented reality eyepieces. 11. The headset of claim 10 wherein each virtual or augmented reality eyepiece is arcuate and includes a medial end and a lateral end, the medial end positioned proximate the bridge of the frame and the lateral end positioned proximate a temple region of a respective one of the opposing arm members. 12. The headset of claim 11 wherein the frame includes a respective arcuate profile on each of opposing sides of the frame to at least partially nest with a respective one of the virtual or augmented reality eyepieces when the virtual or augmented reality eyepieces are in a narrowest configuration in which the interpupillary distance is at a minimum. 13. The headset of claim 10 wherein, for each of the opposing sides of the frame, a lower one of the two rails extends away from the bridge portion and is coupled to a lower lateral end of the respective one of the virtual or augmented reality eyepieces. 14. The headset of claim 10 wherein the fork structure supports the respective one of the virtual or augmented reality eyepieces. 15. A virtual or augmented reality headset, comprising: a frame including opposing arm members and a bridge positioned intermediate the opposing arm members; and a pair of virtual or augmented reality eyepieces each having an optical center, the pair of virtual or augmented reality eyepieces movably coupled to the frame to enable adjustment of an interpupillary distance between the optical centers, wherein the frame includes at least two rails on each of the opposing sides of the frame vertically offset from each other to guide a respective one of the virtual or augmented reality eyepieces, and wherein, for each of the opposing sides of the frame, the two rails and a portion of the bridge form a fork structure configured to support the respective one of the virtual or augmented reality eyepieces. 16. The headset of claim 15 , further comprising: an adjustment mechanism coupled to both of the pair of virtual or augmented reality eyepieces and operable to simultaneously move the pair of virtual or augmented reality eyepieces to adjust the interpupillary distance. 17. The headset of claim 16 , wherein the adjustment mechanism includes a linear actuator physically coupled to the pair of virtual or augmented reality eyepieces. 18. The headset of claim 17 , wherein the linear actuator is physically coupled to the pair of virtual or augmented reality eyepieces by a plurality of links which are arranged such that movement of the linear actuator in a first direction causes the plurality of links to increase the interpupillary distance between the optical centers of the pair of virtual or augmented reality eyepieces and movement of the linear actuator in a second direction opposite the first direction causes the plurality of links to decrease the interpupillary distance between the optical centers of the pair of virtual or augmented reality eyepieces. 19. The headset of claim 18 , further comprising: a motor electro-mechanically coupled to the linear actuator; and an electronic controller electrically coupled to the motor to control movement of the virtual or augmented reality eyepieces via the motor, the linear actuator and the plurality of links. 20. The headset of claim 17 wherein the adjustment mechanism is coupled to the bridge portion and the linear actuator includes a user manipulable control for selectively adjusting a position of each of the virtual or augmented reality eyepieces simultaneously.