Final drive disconnect mechanism via transmission

What is claimed is: 1. A vehicle drivetrain including a transmission configured to move a vehicle with a surface engaging traction member, the vehicle drivetrain comprising: a final drive assembly configured to drive the surface engaging traction member, the final drive assembly including a drive assembly connector; a collar connected to a housing of the transmission; and a transmission coupler coupled to the transmission and disposed between the transmission and the final drive assembly, wherein the transmission coupler includes: a worm gear located next to the collar; a worm wheel having an internal lead screw, wherein the worm gear engages the worm wheel to rotate the worm wheel and wherein the internal lead screw is centered about an axial center of a transmission output shaft; and an external lead screw engaging the internal lead screw of the worm wheel, wherein the internal lead screw drives the external lead screw to move a movable connector along the transmission output shaft to engage the drive assembly connector and to couple the transmission to the final drive assembly. 2. The vehicle drivetrain of claim 1 wherein the transmission coupler includes a mechanism to substantially prevent rotation of the external lead screw from rotation with respect to the internal lead screw. 3. The vehicle drivetrain of claim 2 wherein the mechanism includes a pin connected to the collar and to the external lead screw. 4. The vehicle drivetrain of claim 3 external lead screw includes an aperture to provide a sliding fit to the pin. 5. The vehicle drivetrain of claim 4 wherein the movable connector includes an engagement structure configured to engage an engagement structure of the of the drive assembly connector. 6. The vehicle drivetrain of claim 5 wherein the engagement structure of the movable connector include splines. 7. The vehicle drivetrain of claim 6 further comprising a spring disposed between the external lead screw and the movable connector to aid in the alignment of the movable connector with the drive assembly connector. 8. The vehicle drivetrain of claim 7 further comprising a ball bearing located in a retainer adjacent to the external lead screw and to the spring, wherein the external lead screw moves the retainer, the spring, and the movable connector toward or away from the final drive assembly to engage and disengage the transmission with the final drive assembly. 9. The vehicle drivetrain of claim 8 wherein the worm gear includes an input interface adapted to adjust a position of the worm wheel in response to a torque applied about a rotation axis of the worm gear. 10. The vehicle drivetrain of claim 9 wherein the internal lead screw drives the external lead screw in a moving direction between the transmission and the drive assembly coupler, and the rotation axis of the worm gear is inclined with respect to the moving direction. 11. A vehicle having a surface engaging traction member, the vehicle comprising: a final drive assembly configured to drive the surface engaging traction member, the final drive assembly including a drive assembly connector; a transmission having a housing; a collar connected to the housing of the transmission; and a transmission coupler coupled to the transmission and disposed between the transmission and the final drive assembly, wherein the transmission coupler includes: a worm gear located next to the collar; a worm wheel having an internal lead screw, wherein the worm gear engages the worm wheel to rotate the worm wheel and wherein the internal lead screw is centered about an axial center of a transmission output shaft; and an external lead screw engaging the internal lead screw of the worm wheel, wherein the internal lead screw drives the external lead screw to move a movable connector along the transmission output shaft to engage the drive assembly connector and to couple the transmission to the final drive assembly. 12. The vehicle of claim 11 wherein the transmission coupler includes a mechanism to substantially prevent rotation of the external lead screw from rotation with respect to the internal lead screw. 13. The vehicle drivetrain of claim 12 wherein the mechanism includes a pin connected to the collar and to the external lead screw. 14. The vehicle drivetrain of claim 13 external lead screw includes an aperture to provide a sliding fit to the pin. 15. The vehicle drivetrain of claim 14 wherein the movable connector includes an engagement structure configured to engage an engagement structure of the of the drive assembly connector. 16. The vehicle drivetrain of claim 15 wherein the engagement structure of the movable connector include splines. 17. The vehicle drivetrain of claim 16 further comprising a spring disposed between the external lead screw and the movable connector to aid in the alignment of the movable connector with the drive assembly connector. 18. The vehicle drivetrain of claim 17 further comprising a ball bearing located in a retainer adjacent to the external lead screw and to the spring, wherein the external lead screw moves the retainer, the spring, and the movable connector toward or away from the final drive assembly to engage and disengage the transmission with the final drive assembly. 19. The vehicle drivetrain of claim 18 wherein the worm gear includes an input interface adapted to adjust a position of the worm wheel in response to a torque applied about a rotation axis of the worm gear. 20. The vehicle drivetrain of claim 19 wherein the internal lead screw drives the external lead screw in a moving direction between the transmission and the drive assembly coupler, and the rotation axis of the worm gear is inclined with respect to the moving direction.