Anvil roll system and method

What is claimed is: 1. A rotary cutting apparatus, the apparatus comprising: a frame comprising an opening; a die roll defining a first longitudinal axis and having an outer circumferential portion comprising a cutting member, wherein the outer circumferential portion has a maximum outer diameter, wherein the die roll is rotatably connected with the frame and configured to rotate about the first longitudinal axis; a bearer ring connected with the die roll; an anvil roll having first and second ends, the anvil roll having an outer circumferential surface, wherein the anvil roll is rotatably connected with the frame to define a second longitudinal axis, wherein the anvil roll is rotatable about the second longitudinal axis to cooperate with the die roll to cut material, and wherein the anvil roll is also translatable along the second longitudinal axis, the anvil positioned relative to the die roll such that the bearer ring is in contact with the outer circumferential surface such that the first longitudinal axis is substantially parallel with the second longitudinal axis, wherein the anvil roll has a maximum outer diameter, wherein the maximum outer diameter of the outer circumferential portion of the die roll is at least twice the maximum diameter of the anvil roll; a cam follower having a cam follower axis, wherein the cam follower is in contact with the anvil roll and configured to rotate about the cam follower axis when the anvil roll rotates; and a first bearing block and a second bearing block, the first and second bearing blocks receiving respective first and second ends of the anvil roll, wherein the anvil roll is selectively removable from the frame and the bearing blocks via translation along the second longitudinal axis through the opening in the frame while supporting the anvil roll with the rotatable cam follower. 2. The rotary cutting apparatus of claim 1 , wherein the maximum outer diameter of the outer circumferential portion is at least three times the maximum diameter of the anvil roll. 3. The rotary cutting apparatus of claim 1 , wherein the anvil roll has a maximum axial length, wherein the maximum axial length is at least four times the maximum diameter of the anvil roll. 4. The rotary cutting apparatus of claim 1 , further comprising: a first thrust bearing and a second thrust bearing coupled to the respective first and second bearing blocks, the first and second thrust bearings coupled to the respective first and second ends of the anvil roll. 5. The rotary cutting apparatus of claim 1 , further comprising: a cross support frame, wherein the cam follower is coupled to the cross support frame. 6. The rotary cutting apparatus of claim 5 , wherein the cross support frame is coupled to the first and second bearing blocks. 7. The rotary cutting apparatus of claim 6 , further comprising: first, second, third and fourth cam followers, each of the first, second, third and fourth cam followers in contact with the anvil roll. 8. The rotary cutting apparatus of claim 7 , further comprising: a first cam frame and a second cam frame, wherein the first and second cam following bearings are rotatably coupled to the first cam frame and the third and fourth cam followers are rotatably coupled to the second cam frame. 9. The rotary cutting apparatus of claim 8 , further comprising: a first cross support frame and a second cross support frame, wherein the first cam frame is coupled to the first and second cross support frames and the second cam frame is coupled to the first and second cross support frames. 10. The rotary cutting apparatus of claim 9 , wherein each of the first, second, third and fourth cam following bearings have a respective first, second, third and fourth cam follower axis, wherein the first and third cam follower axes are substantially aligned and the second and fourth cam follower axes are substantially aligned. 11. The rotary cutting apparatus of claim 1 , wherein an outer surface of the die roll rotates about the first longitudinal axis at a first rotational speed and an outer surface of the anvil roll rotates about first longitudinal axis at a second rotational speed, and wherein the second rotational speed is at least twice the first rotational speed. 12. A rotary cutting apparatus, the apparatus comprising: a frame comprising an opening; a die roll defining a first longitudinal axis and having an outer circumferential portion comprising a cutting member, wherein the outer circumferential portion has a maximum outer diameter, wherein the die roll is rotatably connected with the frame and configured to rotate about the first longitudinal axis; a bearer ring connected with the die roll; an anvil roll comprising an outer circumferential surface, wherein the anvil roll is rotatably connected with the frame to define a second longitudinal axis, wherein the anvil roll is rotatable about the second longitudinal axis to cooperate with the die roll to cut material, and wherein the anvil roll is also translatable along the second longitudinal axis, the anvil positioned relative to the die roll such that the bearer ring is in contact with the outer circumferential surface such that the first longitudinal axis is substantially parallel with the second longitudinal axis, wherein the anvil roll has a maximum outer diameter, wherein the maximum outer diameter of the outer circumferential portion of the die roll is at least twice the maximum diameter of the anvil roll; and a cam follower having a cam follower axis, wherein the cam follower is in supporting contact with the anvil roll and configured to rotate about the cam follower axis when the anvil roll rotates; and wherein the anvil roll is selectively removable from the frame via translation along the second longitudinal axis through the opening in the frame while supporting the anvil roll with the cam follower. 13. The rotary cutting apparatus of claim 12 , wherein the anvil roll has a maximum axial length, wherein the maximum axial length is at least four times the maximum diameter of the anvil roll. 14. The rotary cutting apparatus of claim 12 , further comprising: a first anvil bearing block having a first opening with a first maximum diameter; a second anvil bearing block having a second opening with a second maximum diameter, wherein at least one of the first maximum diameter and the second maximum diameter is greater than the maximum diameter of the anvil roll. 15. The rotary cutting apparatus of claim 14 , wherein the anvil roll is selectively removable from the frame and the bearing blocks via translation through at least one of the first and second openings. 16. The rotary cutting apparatus of claim 12 , further comprising: a cam frame coupled to the cam follower, wherein the cam follower is rotatable with respect to the cam frame.