Methods and apparatuses for separating discrete articles from continuous webs

What is claimed is: 1. A method of separating discrete articles from a continuous web, the method comprising: providing a cutting roll comprising: a first axis of rotation; a first radial outer surface; and a cutting device extending radially outwardly, relative to the first axis of rotation, from the first radial outer surface; providing a bearer ring on the cutting roll that extends more radially outwardly than the first radial outer surface of the cutting roll relative to the first axis of rotation, wherein the bearer ring comprises a second radial outer surface; providing a bearing member positioned at least partially intermediate a portion of the cutting roll and the bearer ring, wherein the bearer ring is configured to rotate about the first axis of rotation independent of the cutting roll; providing an anvil roll comprising: a second axis of rotation; a third radial outer surface; and a plurality of angularly spaced anvil surfaces on, or extending radially outwardly from, the third radial outer surface; positioning the anvil roll and the cutting roll such that the first axis of rotation is generally parallel to the second axis of rotation, and such that the second radial outer surface of the bearer ring is in contact with a portion of the anvil roll; rotating the anvil roll about the second axis of rotation; using the anvil roll to drive the bearer ring about the first axis of rotation at a first speed; rotating the cutting roll at a second, different speed about the first axis of rotation independent of the anvil roll and the bearer ring; conveying the web intermediate the anvil roll and the cutting roll; and separating a discrete article from the continuous web by cutting the continuous web intermediate one of the plurality of anvil surfaces and the cutting device in a separation zone. 2. The method of claim 1 , wherein the plurality of anvil surfaces are formed on an anvil surface surrounding a portion of the anvil roll or surrounding a portion of the third radial outer surface. 3. The method of claim 1 , wherein the plurality of anvil surfaces comprise a plurality of angularly spaced anvil members, wherein the anvil members extend radially outwardly, relative to the second axis of rotation, from the third radial outer surface of the anvil roll. 4. The method of claim 1 , wherein the bearing member comprises a plurality of bearings. 5. The method of claim 1 , wherein the bearing member comprises a bearing surface. 6. The method of claim 1 , wherein the bearing ring surrounds a portion of the first radial outer surface of the cutting roll. 7. The method of claim 1 , comprising: providing a second bearer ring surrounding a portion of the anvil roll, wherein the second bearer ring has a fourth radial outer surface, and wherein the fourth radial outer surface of the second bearer ring is in contact with the second radial outer surface of the bearer ring on the cutting roll. 8. The method of claim 1 , comprising: providing at least a second cutting roll comprising: a third axis of rotation; a fourth radial outer surface; and a second cutting device extending radially outwardly, relative to the third axis of rotation, from the fourth radial outer surface; providing a second bearer ring on the second cutting roll, wherein the second bearer ring extends more radially outwardly than the fourth radial outer surface of the cutting roll, and wherein the second bearer ring comprising a fifth radial outer surface; providing a second bearing member positioned at least partially intermediate a portion of the cutting roll and the second bearer ring, wherein the second bearer ring is configured to rotate about the third axis of rotation independent of second cutting roll; moving the cutting roll a distance from the anvil roll such that the cutting roll is not in contact with the anvil roll; positioning the anvil roll and the second cutting roll such that the second axis of rotation of the anvil roll is generally parallel to the third axis of rotation of the second cutting roll, and such that the fifth radial outer surface of the second bearer ring is in contact with a portion of the anvil roll; rotating the anvil roll about the second axis of rotation; using the anvil roll to drive the second bearer ring about the third axis of rotation at a third speed; rotating the second cutting roll at a fourth speed about the third axis of rotation independent of the anvil roll and the second bearer ring; conveying a second continuous web intermediate the anvil roll and the second cutting roll; and separating a second discrete article from the second continuous web by cutting the second continuous web intermediate one of the plurality of anvil surfaces and the second cutting device. 9. The method of claim 8 , comprising: providing a third bearer ring surrounding a portion of the anvil roll, wherein the third bearer ring has a sixth radial outer surface, and wherein the sixth radial outer surface of the second bearer ring is in contact with the fifth radial outer surface of the bearer ring on the second cutting roll. 10. The method of claim 9 , wherein the second discrete article has a different pitch than the discrete article. 11. The method of claim 10 , wherein the cutting roll has a different diameter than the second cutting roll. 12. The method of claim 11 , comprising: rotating the cutting roll about the first axis of rotation independent of the anvil roll and the bearer ring at a first, constant angular velocity before the moving step; and rotating the second cutting roll about the third axis of rotation independent of the anvil roll and the second bearer ring at a second, different, constant angular velocity after the moving step. 13. The method of claim 8 , wherein the cutting roll has the same diameter as the second cutting roll. 14. The method of claim 1 , comprising: providing a first hold down belt on a first side of the separation zone, wherein the first hold down belt is offset in a cross-machine direction from the cutting device; moving the first hold down belt over a first portion of the third radial outer surface of the anvil roll; and using the first hold down belt to hold portions of the continuous web against the first portion of the third radial outer surface. 15. The method of claim 14 , comprising: providing a second hold down belt on a second side of the separation zone, wherein the second hold down belt is offset in a cross-machine direction from the cutting device; moving the second hold down belt over a second portion of the third radial outer surface of the anvil roll; and using the second hold down belt to hold portions of the continuous web against the second portion of the third radial outer surface. 16. The method of claim 15 , comprising: providing a plurality of fluid ports in the third radial outer surface of the anvil roll; and applying a fluid pressure to at least some of the plurality of fluid ports only in the separation zone. 17. The method of claim 1 , wherein the cutting device extends radially outwardly, relative to the first axis of rotation, from the first radial outer surface of the cutting roll a first distance, wherein the bearer ring extends radially outwardly, relative to the first axis of rotation, from the first radial outer surface of the cutting roll a second distance, and wherein the first distance is different than the second distance. 18. A method of separating discrete articles from a continuous web, the method comprising: providing a cutting roll comprisi