Electronic eyewear viewing device

What is claimed is: 1. An electronic eyewear viewing device comprising: a display module having a microdisplay for viewing images, the microdisplay having an exit window aligned along a first lateral axis L 1 , the display module having a pivot joint along a second lateral axis L 2 parallel to and spaced apart a distance from the first lateral axis L 1 , the display module being rotatable about the pivot joint; a lateral position adjustment screw mounted and rotatably secured to the display module for laterally adjusting position of the display module; and a rotational position adjustment screw mounted along a transverse axis that is transverse to the second lateral axis L 2 and rotatably secured to the display module at a location offset from the second lateral axis L 2 for adjusting rotational position of the display module about the pivot joint along the second lateral axis L 2 , the distance that the exit window of the microdisplay along the first lateral axis L 1 is spaced apart from the pivot joint and the second lateral axis L 2 providing a larger radius of rotation for the exit window than if the exit window was positioned along the second lateral axis L 2 . 2. The device of claim 1 in which the lateral position adjustment screw is mounted along the second lateral axis L 2 and rotatably secured to the pivot joint of the display module for laterally adjusting position of the display module along the second lateral axis L 2 . 3. The device of claim 2 in which the second lateral axis L 2 is positioned below the first lateral axis L 1 , and the transverse axis is in an upright orientation generally perpendicular to the second lateral axis L 2 . 4. The device of claim 3 in which the lateral position adjustment screw has screw threads which engage mating threads of a lateral movement sleeve positioned at the pivot joint of the display module along the second lateral axis L 2 for providing lateral adjustment of the display module, and the rotational adjustment screw has screw threads which engage mating threads of a rotational movement sleeve positioned in the display module and rotationally mounted along a third lateral axis L 3 parallel to and spaced apart from the second lateral axis L 2 , the rotational movement sleeve rotating about the third lateral axis L 3 to allow the screw threads of the rotational adjustment screw to engage the mating threads of the rotational movement sleeve as rotational position of the display module is adjusted. 5. The device of claim 4 further comprising a frame, the display module being rotatably mounted at the pivot joint along the second lateral axis L 2 to the frame by the lateral position adjustment screw, the frame having a lateral track extending along a fourth lateral axis L 4 parallel to and spaced below the third lateral axis L 3 , the rotational position adjustment screw being slidably mounted to the lateral track to move with lateral adjustment of the display module. 6. The device of claim 5 in which the frame comprises an eyewear frame. 7. The device of claim 5 in which the frame comprises a display housing bracket for mounting to an eyewear frame. 8. The device of claim 7 in which the frame further comprises a brow bar bracket mounted to the eyewear frame to which the display housing bracket is mounted. 9. The device of claim 1 in which the pivot joint pivotably connects together first and second arms of a pivoting mechanism along the second lateral axis L 2 , the rotational position adjustment screw being mounted to the first and second arms for adjusting the rotational position of the first and second arms relative to each other for adjusting the rotational position of the display module. 10. The device of claim 9 in which the pivoting mechanism is secured to a housing of the microdisplay. 11. The device of claim 10 in which the first and second arms are integrally formed together, the pivot joint comprising a bendable section extending along the second lateral axis L 2 that bends to pivot the first and second arms relative to each other. 12. The device of claim 11 in which the first and second arms are upper and lower arms, respectively, the lateral position adjustment screw being rotatably secured to the upper arm for laterally adjusting position of the display module and the lower arm being secured to the housing of the microdisplay, rotation of the rotational position adjustment screw adjusting rotational position of the display module. 13. The device of claim 12 further comprising an eyewear frame, the pivoting mechanism being slidably mounted to the eyewear frame between two end stops, the lateral position adjustment screw being rotatably secured between the two end stops and to the upper arm of the pivoting mechanism positioned between the two end stops. 14. A method of adjusting a display module of an electronic eyewear viewing device, the display module having a microdisplay for viewing images, the microdisplay having an exit window aligned along a first lateral axis L 1 , the method comprising: providing the display module with a pivot joint aligned along a second lateral axis L 2 that is parallel to and spaced apart a distance from the first lateral axis L 1 , the display module being rotatable about a pivot joint; adjusting lateral position of the display module with a lateral position adjustment screw rotatably secured to the display module; and adjusting rotational position of the display module about the pivot joint along the second lateral axis L 2 with a rotational position adjustment screw mounted along a transverse axis that is transverse to the second lateral axis L 2 and rotatably secured to the display module at a location offset from the second lateral axis L 2 , the distance that the exit window of the microdisplay along the first lateral axis L 1 is spaced apart from the pivot joint and the second lateral axis L 2 providing a larger radius of rotation for the exit window than if the exit window was positioned along the second lateral axis L 2 . 15. The method of claim 14 further comprising adjusting lateral position of the display module along the second lateral axis L 2 with a lateral position adjustment screw mounted along the second lateral axis L 2 and rotatably secured to the pivot joint of the display module. 16. The method of claim 15 further comprising positioning the second lateral axis L 2 below the first lateral axis L 1 , and the transverse axis in an upright orientation generally perpendicular to the second lateral axis L 2 . 17. The method of claim 16 further comprising: engaging screw threads of the lateral position adjustment screw with mating threads of a lateral movement sleeve positioned at the pivot joint of the display module along the second lateral axis L 2 for providing lateral adjustment of the display module; and engaging screw threads of the rotational adjustment screw with mating threads of a rotational movement sleeve positioned in the display module that is rotationally mounted along a third lateral axis L 3 parallel to and spaced apart from the second lateral axis L 2 , the rotational movement sleeve rotating about the third lateral axis L 3 to allow the screw threads of the rotational adjustment screw to engage the mating threads of the rotational movement sleeve as rotational position of the display module is adjusted. 18. The method of claim 17 further comprising: rotatably mounting the display module at the pivot joint along the second lateral axis L 2 to a frame by the lateral position adjustment screw; and slidabl