Modular boring head with fine adjustment click mechanism

What is claimed is: 1. A modular boring head, comprising: a tubular main body having an internal thread with a first pitch and a pair of axially extending cantilevered members; a movable rod engaging the tubular main body such that the movable rod moves in an axial direction, D, with respect to the tubular main body, the movable rod having an internal thread with a second pitch different than the first pitch; a leadscrew disposed within the tubular main body and having a first external thread, a second external thread and a plurality of gear teeth, the first external thread cooperatively engaging the internal thread of the tubular main body, the second external thread cooperatively engaging the internal thread of the movable rod; and an anti-rotation feature for preventing rotation of the movable rod, wherein the anti-rotation feature comprises at least one cylindrical pin disposed within the movable rod by an interference fit and disposed within an elongated slot formed in the tubular main body, wherein the at least one cylindrical pin contacts a spring contained within a housing in the tubular main body that provides a biasing force in the axial direction to eliminate clearance between the internal thread of the tubular main body and the internal thread of the movable rod and the first and second external threads of the leadscrew, wherein rotation of the leadscrew causes the pair of axially extending cantilevered members of the tubular main body to cooperatively engage with the plurality of gear teeth of the leadscrew in such a manner so as to produce an audible and tactile click, each click being indicative of a distance the movable rod is displaced with respect to the tubular main body. 2. The modular boring head of claim 1 , wherein the pair of axially extending cantilevered members are not diametrically opposite each other. 3. The modular boring head of claim 2 , wherein the pair of axially extending cantilevered member are offset by an angle, A, of about 7.2°. 4. The modular boring head of claim 1 , wherein the leadscrew has twenty-five gear teeth, and wherein the gear teeth are spaced apart at a pitch, P, of about 14.4° from each other. 5. The modular boring head of claim 1 , wherein the spring is 3-D printed has a non-circular geometric shape. 6. The modular boring head of claim 1 , wherein the spring is 3-D printed has one of an elliptical and oblong geometric shape. 7. The modular boring head of claim 1 , wherein the distance the moveable rod is displaced is a function of the difference in pitch between the internal thread of the tubular main body and the internal thread of the movable rod. 8. The modular boring head of claim 1 , wherein the first external thread of the leadscrew that cooperatively engages with the internal threads of the tubular main body has a larger diameter than the second external threads of the leadscrew that cooperatively engage with the internal threads of the movable rod. 9. The modular boring head of claim 1 , wherein the second pitch is different than the first pitch by about 0.05 mm, thereby causing the movable rod to move a distance in the axial direction by about 0.05 mm when the leadscrew is rotated one full turn. 10. The modular boring head of claim 1 , wherein rotation of the leadscrew by about 7.2° will result in a displacement by a distance in the axial direction, D, of about 0.001 mm. 11. A modular boring head, comprising: a tubular main body having an internal thread with a first pitch and a pair of axially extending cantilevered members; a movable rod engaging the tubular main body such that the movable rod moves in an axial direction, D, with respect to the tubular main body, the movable rod having an internal thread with a second pitch different than the first pitch; a leadscrew disposed within the tubular main body and having a first external thread, a second external thread and a plurality of gear teeth, the first external thread cooperatively engaging the internal thread of the tubular main body, the second external thread cooperatively engaging the internal thread of the movable rod; at least one cylindrical pin disposed within the movable rod and disposed within a slot formed in the tubular main body, the at least one cylindrical pin preventing rotation of the movable rod; and a spring contacting the at least one cylindrical pin for providing a biasing force in the axial direction to eliminate clearance between the internal thread of the tubular main body and the internal thread of the movable rod and the first and second external threads of the leadscrew, wherein rotation of the leadscrew causes the pair of axially extending cantilevered members of the tubular main body to cooperatively engage with the plurality of gear teeth of the leadscrew in such a manner so as to produce an audible and tactile click, each click being indicative of a distance the movable rod is displaced with respect to the tubular main body. 12. The modular boring head of claim 11 , wherein the pair of axially extending cantilevered members are not diametrically opposite each other. 13. The modular boring head of claim 12 , wherein the pair of axially extending cantilevered member are offset by an angle, A, of about 7.2°. 14. The modular boring head of claim 11 , wherein the leadscrew has twenty-five gear teeth, and wherein the gear teeth are spaced apart at a pitch, P, of about 14.4° from each other. 15. The modular boring head of claim 11 , wherein the spring is 3-D printed has a non-circular geometric shape. 16. The modular boring head of claim 11 , wherein the spring is 3-D printed has one of an elliptical and oblong geometric shape. 17. The modular boring head of claim 11 , wherein the distance the moveable rod is displaced is a function of the difference in pitch between the internal thread of the tubular main body and the internal thread of the movable rod. 18. The modular boring head of claim 11 , wherein the first external thread of the leadscrew that cooperatively engages with the internal threads of the tubular main body has a larger diameter than the second external threads of the leadscrew that cooperatively engage with the internal threads of the movable rod. 19. The modular boring head of claim 11 , wherein the second pitch is different than the first pitch by about 0.05 mm, thereby causing the movable rod to move a distance in the axial direction by about 0.05 mm when the leadscrew is rotated one full turn. 20. The modular boring head of claim 11 , wherein rotation of the leadscrew by about 7.2° will result in a displacement by a distance in the axial direction, D, of about 0.001 mm.