Robot including telescopic assemblies for positioning an end effector

The invention claimed is: 1. A robot comprising: an actuator assembly including first and second motors at least partially disposed in a housing; a first lead screw assembly cantilevered from the actuator assembly and operatively coupled to the first motor, the first lead screw assembly including a first lead screw threadably telescoping within a second lead screw, wherein the second lead screw is at least partially disposed within the housing; a second lead screw assembly cantilevered from the actuator assembly parallel to the first lead screw assembly and operatively coupled to the second motor, the second lead screw assembly including a first lead screw threadably telescoping within a second lead screw, wherein the second lead screw is at least partially disposed within the housing; an end effector coupled to and supported by the ends of the lead screw assemblies; and a stand coupled to the actuator assembly and defining a longitudinal axis, wherein a height of the stand is adjustable along the longitudinal axis; wherein no more than two lead screw assemblies are disposed between the actuator assembly and the end effector, the no more than two lead screw assemblies including the first lead screw assembly and the second lead screw assembly, and the actuator assembly causing each of the first and second lead screw assemblies to independently deploy and retract in an orthogonal direction relative to the longitudinal axis of the stand. 2. The robot of claim 1 , wherein the second lead screw of each of the first and second lead screw assemblies comprises a rotatable lead screw having an internally threaded bore, and wherein the first lead screw of each of the first and second lead screw assemblies comprises a non-rotatable lead screw having an end coupled to the end effector and having an external thread engaging the internally threaded bore of the rotatable lead screw. 3. The robot of claim 1 , wherein: each of the first and second lead screw assemblies further includes a third lead screw; the first, second, and third lead screws of each of the first and second lead screw assemblies extend outward from the actuator assembly along an X-axis; an end of each of the first lead screws is coupled to the end effector; each of the first lead screws has an external thread engaging an internally threaded bore of a respective second lead screw; each of the second lead screws including an external thread engaging an internally threaded bore in a respective third lead screw; and each of the third lead screws is mounted for non-rotation about the X-axis within a housing of the actuator assembly, whereby rotating the second lead screw causes the first lead screw end to move between deployed and retracted positions. 4. The robot of claim 3 , wherein for each of the first and second lead screw assemblies, a first recirculating ball bearing bushing is located at an interface of the third lead screw and the second lead screw, and a second recirculating ball bearing bushing is located at an interface of the second lead screw and the first lead screw. 5. The robot of claim 1 , further comprising an interface plate rotationally coupled to the end effector, and wherein the ends of the first and second lead screw assemblies are pivotably coupled to the interface plate. 6. The robot of claim 1 , further comprising a controller for commanding the actuator assembly to move the ends of the first and second lead screw assemblies simultaneously in the same direction, whereby the end effector is linearly translated. 7. The robot of claim 1 , further comprising a controller for commanding the actuator assembly to move the ends of the first and second lead screw assemblies simultaneously in opposite directions, whereby the end effector is rotated. 8. The robot of claim 1 , further comprising a controller for commanding the actuator assembly to move the end of the first lead screw assembly while commanding the actuator assembly to hold stationary the end of the second lead screw assembly, whereby the end effector is rotated. 9. The robot of claim 1 , wherein the end effector is equipped to perform fastening tasks.