Member for adjusting force application in reciprocating assembly

What is claimed is: 1. A reciprocating assembly for driving a working portion of a tool, the reciprocating assembly comprising: a bore configured to contain hydraulic fluid; a piston received within the bore and configured to move within the bore in a reciprocating motion between an extended position and a retracted position, wherein displacement of the piston within the bore is configured to cause displacement of hydraulic fluid when hydraulic fluid is in the bore, the piston including an internal cavity extending at least partially along a length of the piston; and a push pin received within the internal cavity of the piston; wherein the bore, the piston, and the push pin are configured such that a movement of the push pin relative to the bore causes translation of the piston within the bore to the extended position along a translation axis; and wherein the push pin is configured to pivot during the movement of the push pin, between an in-line position and an angled position, the in-line position substantially parallel to the translation axis; and wherein the push pin includes a cutout at each of two opposite ends, and wherein each cutout is configured to at least partially receive a ball bearing, and wherein one of the ball bearings is received within the internal cavity and the other of the ball bearings is coupled to a drive assembly configured to supply a force which causes the movement of the push pin, and wherein the push pin is configured to rotate about the ball bearings. 2. The reciprocating assembly of claim 1 , wherein the cavity extends along a majority of the length of the piston. 3. The reciprocating assembly of claim 1 , wherein the internal cavity includes a terminal end and an open end, the open end being wider than the terminal end. 4. The reciprocating assembly of claim 1 , further comprising a drive assembly configured to supply a force which causes the movement of the push pin, wherein the drive assembly comprises: an electric motor; a gear assembly configured to be driven by the electric motor; an inclined plate rotatably connected to the gear assembly and configured to be driven by the gear assembly; and a wobble plate connected to the inclined plate and configured to be driven by rotation of the inclined plate; wherein the wobble plate is configured to not rotate with the inclined plate. 5. The reciprocating assembly of claim 4 , further comprising an anti-rotational assembly connected between the wobble plate and a housing containing the bore, the anti-rotational assembly configured to limit rotation of the wobble plate and permit axial movement of the wobble plate. 6. A reciprocating assembly for driving a working portion of a tool, the reciprocating assembly comprising: a bore configured to contain hydraulic fluid; a piston received within the bore and configured to move within the bore in a reciprocating motion between an extended position and a retracted position, wherein displacement of the piston within the bore is configured to cause displacement of hydraulic fluid when hydraulic fluid is in the bore, the piston including an internal cavity extending at least partially along a length of the piston; and a push pin having a first end received within the internal cavity of the piston, the first end having a first radius of curvature; wherein the push pin is configured to pivot about a center of the first radius of curvature between an in-line position and an angled position, the in-line position substantially parallel to a translation axis of the piston; and wherein the piston is configured to move from the retracted position toward the extended position when the push pin is in the in-line position; wherein the first end includes a first cutout having the first radius of curvature; wherein the first cutout at least partially receiving a first ball bearing; and wherein the push pin is configured to rotate about the first ball bearing. 7. The reciprocating assembly of claim 6 , wherein: a second end of the push pin opposite the first end includes a second cutout having a second radius of curvature; the second cutout at least partially receiving a second ball bearing; and the second ball bearing is coupled to a drive assembly configured to supply a force which causes the movement of the push pin. 8. The reciprocating assembly of claim 4 , further comprising a drive assembly configured to supply a force which causes the movement of the push pin, wherein the drive assembly comprises: an electric motor; a gear assembly configured to be driven by the electric motor; an inclined plate rotatably connected to the gear assembly and configured to be driven by the gear assembly; and a wobble plate connected to the inclined plate and configured to be driven by rotation of the inclined plate; wherein the wobble plate is configured to not rotate with the inclined plate. 9. The reciprocating assembly of claim 6 , wherein an are angle of the first end is less than 180 degrees. 10. A reciprocating assembly for driving a working portion of a tool, the reciprocating assembly comprising: a bore configured to contain hydraulic fluid; a piston received within the bore and configured to move within the bore in a reciprocating motion between an extended position and a retracted position, wherein displacement of the piston within the bore is configured to cause displacement of hydraulic fluid when hydraulic fluid is in the bore; and a push pin contacting the piston; a drive assembly configured to supply a force which causes the movement of the push pin, the drive assembly including a non-rotational plate configured to supply the force by rocking between a first plate position and a second plate position, the plate being closer to the piston in the first plate position than in the second position; wherein the bore, the piston, and the push pin are configured such that a movement of the push pin relative to the bore causes translation of the piston within the bore to the extended position along a translation axis; wherein the push pin is configured to pivot during the movement of the push pin, between an in-line position and an angled position, the in-line position substantially parallel to the translation axis, the push pin being in the in-lined position when the plate is in the first plate position and the push pin being in the angled position in the second plate position; and wherein the push pin further includes a first end having a first concave surface and a second end having a second concave surface, wherein a first ball bearing is received within the first concave surface and contacts the piston, wherein a second ball bearing is received within the second concave surface and contacts the plate, and wherein the push pin is configured to rotate about the first ball bearing. 11. The reciprocating assembly of claim 10 , wherein: the plate includes a third concave surface; and the second ball bearing is at least partially received within the third concave surface; wherein the second ball bearing configured to permit relative movement between the push pin and the plate. 12. The reciprocating assembly of claim 10 , wherein the bore is a first bore, the push pin is a first push pin and a piston is a first piston, the reciprocating assembly further comprising: a second bore spaced apart from the first bore and configured to contain hydraulic fluid; a second piston received within the second bore and configured to move within the second bore in a reciprocating motion between an extended position and a retracted position, wherein displacement of the second piston within the second bore is configured to cause displacement of hydr