Rewind system

What is claimed is: 1. A winder for winding a continuous web material or interleaved web segments having a machine direction and a cross-machine direction coplanar and orthogonal thereto into rolls, said winder comprising: a plurality of winding spindles orbiting about a winding turret axis, said winding turret axis being generally parallel to said cross-machine direction, each of said plurality of winding spindles being arranged to be rotatably driven about an axis generally parallel to said winding turret axis, each of said winding spindles being driven at a surface speed; a plurality of surface contact rolls, each of said plurality of surface contact rolls being cooperatively associated with a respective winding spindle of said plurality of winding spindles, each surface contact roll of said plurality of surface contact rolls having a longitudinal axis generally parallel to said winding turret axis, each of said plurality of winding spindles and said surface contact roll cooperatively associated thereto being capable of cooperative engagement when said web material is disposed therebetween, each of said winding spindles being capable of receiving said web material when said winding spindle is proximate said web material and cooperatively engaged with said respective surface contact roll; a controller cooperatively associated with each of said plurality of surface contact rolls, said controller being capable of adjusting a surface speed of each of said plurality of surface contact rolls; and, wherein said longitudinal axis of each surface contact roll of said plurality of surface contact rolls is adjustable relative to said axis generally parallel to said winding turret axis when said web material is received by said winding spindle cooperatively associated thereto and the surface speed of the each surface contact roll is different from the surface speed of said winding spindle cooperatively associated thereto for an entire wind cycle. 2. The winder according to claim 1 wherein each of said plurality of winding spindles and said surface contact roll cooperatively associated thereto are capable of cooperative movement in said machine direction when said web material is being received by said winding spindle. 3. The winder according to claim 1 wherein said adjustment of said longitudinal axis of each of said surface contact rolls provides a desired pressure upon said web material as said web material is being disposed upon said winding spindle cooperatively associated thereto. 4. The winder according to claim 3 wherein said desired pressure is adjustable according to a desired wind profile. 5. The winder according to claim 1 wherein each of said winding spindles further comprises a core disposed thereon, said web material being disposed about said core when each of said winding spindles is engaged with said first surface contact roll cooperatively associated thereto. 6. The winder according to claim 1 wherein each of said winding spindles is operatively mounted upon a winding turret. 7. The winder according to claim 6 wherein said winding turret comprises a plurality of winding spindles. 8. The winder according to claim 6 wherein said winding turret is indexable about said winding turret axis through an endless series of indexed positions. 9. The winder according to claim 1 wherein each of said winding spindles has a first winding speed and said surface contact roll cooperatively associated thereto has a second winding speed, said first and second winding speeds being different. 10. The winder according to claim 1 further comprising a perforation assembly, said perforation assembly being capable of providing a plurality of cross-machine direction perforations in said web material. 11. The winder according to claim 10 further comprising a web separator adapted to periodically pinch said web material proximate to at least one of said perforations. 12. The winder according to claim 11 wherein said web separator is constructed and arranged to move at a peripheral speed faster than a speed of said web material. 13. A winder for winding a continuous web material or interleaved web segments into rolls, said winder comprising: a plurality of winding spindles orbiting about a winding turret axis, said winding turret axis being generally parallel to said cross-machine direction, each of said plurality of winding spindles being arranged to be rotatably driven about an axis generally parallel to said winding turret axis, each of said winding spindles being driven at a surface speed; a plurality of surface contact rolls, each of said plurality of surface contact rolls being cooperatively associated with a respective winding spindle of said plurality of winding spindles, each surface contact roll of said plurality of surface contact rolls having a longitudinal axis generally parallel to said winding turret axis, each of said plurality of winding spindles and said surface contact roll cooperatively associated thereto being capable of cooperative engagement when said web material is disposed therebetween, each of said winding spindles being capable of receiving said web material when said winding spindle is proximate said web material and cooperatively engaged with said respective surface contact roll; a controller cooperatively associated with each of said plurality of surface contact rolls, said controller being capable of adjusting a surface speed of each of said plurality of surface contact rolls; and, a web separator adapted to periodically pinch said web material disposed between said web separator prior to said web material contacting a respective winding spindle of said plurality of winding spindles and said surface contact roll cooperatively associated thereto and the surface speed of the each surface contact roll is different from the surface speed of said winding spindle cooperatively associated thereto for an entire wind cycle. 14. The winder according to claim 13 wherein said web separator is constructed and arranged to move at a peripheral speed faster than the speed of said web material. 15. The winder according to claim 13 wherein each of said winding spindles is operatively mounted upon a winding turret, said winding turret being indexable about said winding turret axis through an endless series of indexed positions. 16. The winder according to claim 13 wherein said adjustment of said longitudinal axis of each of said surface contact rolls relative to said axis of said winding spindle cooperatively associated thereto provides a desired pressure upon said web material as said web material is being disposed upon said winding spindle. 17. The winder according to claim 16 wherein said desired pressure is adjustable according to a desired wind profile. 18. A winder for winding a continuous web material or interleaved web segments into rolls, said winder comprising: a plurality of winding spindles disposed upon a winding turret indexable about a winding turret axis through an endless series of indexed positions, said winding turret axis being generally parallel to said cross-machine direction, each of said plurality of winding spindles being arranged to be rotatably driven about an axis generally parallel to said winding turret axis, each of said winding spindles being driven at a surface speed; a plurality of surface contact rolls, each of said plurality of surface contact rolls being cooperatively associated with a respective winding spindle of said plurality of winding spindles, each surface contact roll of said plurality of surface contact rolls having