Actuator with variable speed servo motor for redraw assembly

What is claimed is: 1. An actuator assembly for a redraw assembly, said actuator assembly comprising: a servomotor including a rotating output shaft; an eccentric journal assembly, said eccentric journal assembly coupled to said servomotor output shaft; a connecting rod assembly including a connecting rod, said connecting rod coupled to said eccentric journal assembly; wherein rotation of said servomotor output shaft causes said eccentric journal assembly to rotate between at least a first, rearward position and a second, forward position; wherein said connecting rod moves between a first, rearward position and a second, forward position corresponding, respectively, to said eccentric journal assembly first position and said eccentric journal assembly second position; wherein said connecting rod is structured to be coupled to a movable redraw sleeve; and wherein said servomotor produces a selectable rotational speed in said servomotor output shaft. 2. The actuator assembly of claim 1 wherein: said eccentric journal assembly also rotates through an acceleration position and a deceleration position; said acceleration position occurring just prior to said eccentric journal assembly's second, forward position; and said deceleration position occurring just prior to said eccentric journal assembly's first, rearward position. 3. The actuator assembly of claim 2 wherein: said servomotor has a faster rotational speed when said eccentric journal assembly is moving between the first, rearward position and the second, forward position; and said servomotor has a slower rotational speed when said eccentric journal assembly is moving between the first, rearward position and the second, forward position. 4. The actuator assembly of claim 1 wherein: said servomotor has a maximum rotational speed of between about 700 rpm and 500 rpm; and said servomotor has a minimum rotational speed of between about 250 rpm and 50 rpm. 5. The actuator assembly of claim 4 wherein: said servomotor has a maximum rotational speed of about 540 rpm; and said servomotor has a minimum rotational speed of about 125 rpm. 6. The actuator assembly of claim 1 wherein: said eccentric journal assembly includes a shaft and an eccentric journal; said eccentric journal assembly shaft having an axis of rotation; said eccentric journal being substantially circular; and wherein eccentric journal is coupled to said eccentric journal assembly shaft with the center of said eccentric journal spaced from said eccentric journal assembly shaft axis of rotation. 7. The actuator assembly of claim 6 wherein: said connecting rod has a first end and a second end; said connecting rod first end includes a bearing assembly, said connecting rod first end bearing assembly structured to engage said eccentric journal; and said connecting rod second end structured to be coupled to a movable redraw sleeve. 8. The actuator assembly of claim 7 wherein: said servomotor has a faster rotational speed when said eccentric journal assembly is moving between the first, rearward position and the second, forward position; said servomotor has a slower rotational speed when said eccentric journal assembly is moving between the first, rearward position and the second, forward position; wherein, said connecting rod moves at a faster speed when said eccentric journal assembly is moving between the first, rearward position and the second, forward position; wherein, said connecting rod moves at a slower speed when said eccentric journal assembly is moving between the first, rearward position and the second, forward position; wherein, said movable redraw sleeve moves at a faster speed when said eccentric journal assembly is moving between the first, rearward position and the second, forward position; and wherein, said movable redraw sleeve moves at a slower speed when said eccentric journal assembly is moving between the first, rearward position and the second, forward position. 9. The actuator assembly of claim 1 wherein: said servomotor has a faster rotational speed when said eccentric journal assembly is moving between the first, rearward position and the second, forward position; and said servomotor has a slower rotational speed when said eccentric journal assembly is moving between the first, rearward position and the second, forward position. 10. The actuator assembly of claim 1 wherein: said movable redraw sleeve moves at a faster speed when said eccentric journal assembly is moving between the first, rearward position and the second, forward position; and said movable redraw sleeve moves at a slower speed when said eccentric journal assembly is moving between the first, rearward position and the second, forward position. 11. A redraw assembly comprising: a movable redraw sleeve; a redraw die; said movable redraw sleeve structured to move between a first position, wherein said movable redraw sleeve is spaced from said redraw die, and a second position, wherein said movable redraw sleeve is disposed immediately adjacent said redraw die; an actuator assembly for a redraw assembly including a servomotor, an eccentric journal assembly, and a connecting rod assembly; said servomotor including a rotating output shaft; said eccentric journal assembly coupled to said servomotor output shaft; said connecting rod assembly including a connecting rod, said connecting rod coupled to said eccentric journal assembly; wherein rotation of said servomotor output shaft causes said eccentric journal assembly to rotate between at least a first, rearward position and a second, forward position; wherein said connecting rod moves between a first, rearward position and a second, forward position corresponding, respectively, to said eccentric journal assembly first position and said eccentric journal assembly second positions; wherein said connecting rod is coupled to said movable redraw sleeve; and wherein said servomotor produces a selectable rotational speed in said servomotor output shaft. 12. The redraw assembly of claim 11 wherein: said eccentric journal assembly also rotates through an acceleration position and a deceleration position; said acceleration position occurring just prior to said eccentric journal assembly's second, forward position; and said deceleration position occurring just prior to said eccentric journal assembly's first, rearward position. 13. The redraw assembly of claim 11 wherein: said servomotor has a faster rotational speed when said eccentric journal assembly is moving between the first, rearward position and the second, forward position; and said servomotor has a slower rotational speed when said eccentric journal assembly is moving between the first, rearward position and the second, forward position. 14. The redraw assembly of claim 11 wherein: said servomotor has a maximum rotational speed of between about 700 rpm and 500 rpm; and said servomotor has a minimum rotational speed of between about 250 rpm and 50 rpm. 15. The redraw assembly of claim 14 wherein: said servomotor has a maximum rotational speed of about 540 rpm; and said servomotor has a minimum rotational speed of about 125 rpm. 16. The redraw assembly of claim 11 wherein: said eccentric journal assembly includes a shaft and an eccentric journal; said eccentric journal assembly shaft having an axis of rotation; said eccentric journal being substantially circular; and wherein eccentric journal is coupled to said eccentric journal assembly shaft with the center of said eccentric journal spaced from said ecce