Illustrative embodiments of torque-limited impact tools are disclosed. An impact tool may include a shaft adapted to rotate about an axis, a hammer having a hammer jaw with an obtuse impact surface, and an anvil having an anvil jaw with an acute impact surface. The shaft may include a first helical
Illustrative embodiments of torque-limited impact tools are disclosed. An impact tool may include a shaft adapted to rotate about an axis, a hammer having a hammer jaw with an obtuse impact surface, and an anvil having an anvil jaw with an acute impact surface. The shaft may include a first helical groove, and the hammer may include a second helical groove. The impact tool may further include a ball received in the first and second helical grooves, wherein the ball rotationally couples the hammer to the shaft and permits axial travel of the hammer relative to the shaft. The obtuse impact surface of the hammer jaw may be adapted to impact the acute impact surface of the anvil jaw when the shaft rotates in a first direction.
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1. An impact tool comprising: a shaft adapted to rotate about an axis, the shaft having a first helical groove;a hammer having a second helical groove and a hammer jaw with an obtuse impact surface;a ball received in the first and second helical grooves, wherein the ball rotationally couples the ham
1. An impact tool comprising: a shaft adapted to rotate about an axis, the shaft having a first helical groove;a hammer having a second helical groove and a hammer jaw with an obtuse impact surface;a ball received in the first and second helical grooves, wherein the ball rotationally couples the hammer to the shaft and permits axial travel of the hammer relative to the shaft; andan anvil having an anvil jaw with an acute impact surface, wherein the obtuse impact surface of the hammer jaw is adapted to impact the acute impact surface of the anvil jaw when the shaft rotates in a first direction,wherein the hammer jaw includes a forward impact face having a hammer lug extending outwardly from the forward impact face, the obtuse impact surface forming an edge of the hammer lug and disposed at an obtuse angle with respect to the forward impact face. 2. The impact tool of claim 1, wherein the obtuse angle is greater than 105 degrees and less than 165 degrees. 3. The impact tool of claim 1, wherein the anvil jaw includes a central section and an anvil lug extending outwardly from the central section, the acute impact surface forming an edge of the anvil lug. 4. The impact tool of claim 3, wherein the central section and the anvil lug form a rearward impact face of the anvil jaw and the acute impact surface is disposed at an acute angle with respect to the rearward impact face. 5. The impact tool of claim 4, wherein the acute angle is greater than 15 degrees and less than 75 degrees. 6. The impact tool of claim 4, wherein the hammer lug includes a first vertical impact surface and the anvil lug includes a second vertical impact surface, the first vertical impact surface being adapted to impact the second vertical impact surface when the shaft rotates in a second direction. 7. The impact tool of claim 4, wherein a sum of the obtuse and acute angles is about 180 degrees. 8. An impact tool comprising: a hammer configured to selectively rotate in a first direction and in a second direction opposite the first direction, the hammer including a hammer jaw with a forward impact face;an anvil including an output shaft and an anvil jaw with a rearward impact face;a spring biasing the hammer toward a first position in which the forward impact face of the hammer jaw is in contact with the rearward impact face of the anvil jaw; anda cam configured to push the hammer at predetermined rotational intervals to a second position in which the forward impact face of the hammer jaw is out of contact with the rearward impact face of the anvil jaw;wherein the hammer jaw includes a hammer lug having an obtuse impact surface disposed at an obtuse angle with respect to the forward impact face of the hammer jaw and the anvil jaw includes an anvil lug having an acute impact surface disposed at an acute angle with respect to the rearward impact face of the anvil jaw. 9. The impact tool of claim 8, wherein the obtuse angle is greater than 105 degrees and less than 165 degrees. 10. The impact tool of claim 9, wherein the acute angle is greater than 15 degrees and less than 75 degrees. 11. The impact tool of claim 10, wherein a sum of the obtuse and acute angles is about 180 degrees. 12. The impact tool of claim 8, wherein the obtuse impact surface of the hammer lug is adapted to impact the acute impact surface of the anvil lug when the hammer rotates in the first direction. 13. The impact tool of claim 12, wherein the hammer lug further comprises a first vertical impact surface and the anvil lug further comprises a second vertical impact surface, the first vertical impact surface being adapted to impact the second vertical impact surface when the hammer rotates in the second direction. 14. A method of operating an impact tool comprising: rotating a shaft of the impact tool about an axis in a first direction; andpushing a hammer against an anvil at predetermined rotational intervals such that a first impact surface of the hammer contacts a second impact surface of the anvil, the hammer being coupled to the shaft through a ball-and-cam defined by a ball and a helical groove defined in each of the shaft and the hammer, the first impact surface being disposed at an angle of greater than 90 degrees and less than 180 degrees with respect to the axis, and the second impact surface being disposed at an angle greater than 0 degrees and less than 90 degrees with respect to the axis, wherein a sum of the angle at which the first impact surface is disposed with respect to the axis and the angle at which the second impact surface is disposed with respect to the axis is about 180 degrees. 15. A method of operating an impact tool comprising: rotating a shaft of the impact tool about an axis in a first direction;pushing a hammer against an anvil at predetermined rotational intervals such that a first impact surface of the hammer contacts a second impact surface of the anvil, the hammer being coupled to the shaft through a ball-and-cam defined by a ball and a helical groove defined in each of the shaft and the hammer, the first impact surface being disposed at an angle of greater than 90 degrees and less than 180 degrees with respect to the axis, and the second impact surface being disposed at an angle greater than 0 degrees and less than 90 degrees with respect to the axis;rotating the shaft about the axis in a second direction opposite the first direction; andpushing the hammer against the anvil at predetermined rotational intervals such that a third impact surface of the hammer contacts a fourth impact surface of the anvil, the third and fourth impact surfaces being disposed parallel to the axis. 16. The method of claim 15, wherein the angle at which the first impact surface is disposed with respect to the axis is greater than 105 degrees and less than 165 degrees. 17. The method of claim 16, wherein the angle at which the second impact surface is disposed with respect to the axis is greater than 15 degrees and less than 75 degrees.
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