Chopper assembly and method for manufacturing chopped fibers

We claim: 1. An assembly for chopping glass fibers, the assembly comprising: a cutter wheel having a plurality of radially extending blades; and a cot wheel adjacent the cutter wheel, the cot wheel comprising: an inner hub; an elastomeric ring mounted onto the inner hub for rotation therewith, the elastomeric ring having a planar, annular first face and a planar, annular second face opposite the first face; and a retaining device including a first retaining member fixably attached to the inner hub, the first retaining member including an annular inner face, an annular outer face opposite the inner face, and an outer circumferential surface extending between the inner face and the outer face, wherein the inner face includes a tapered surface tapering outward from a planar portion of the inner face toward the outer circumferential surface such that a projection is formed at an intersection of the inner face and the outer circumferential surface; wherein the projection and the tapered surface indent into the planar, annular face of the elastomeric ring and the tapered surface wedges at least a portion of the elastomeric ring toward the inner hub to resist separation of the elastomeric ring from the hub during rotation of the cot wheel. 2. The assembly of claim 1 , wherein the elastomeric ring is pressed onto the inner hub. 3. The assembly of claim 1 , wherein the elastomeric ring comprises polyurethane. 4. The assembly of claim 1 , wherein the retaining device further includes a second retaining member, and wherein the elastomeric ring is sandwiched between the first retaining member and the second retaining member. 5. The assembly of claim 4 , wherein the second retaining member includes an annular second inner face, an annular second outer face opposite the second inner face, and a second outer circumferential surface extending between the second inner face and the second outer face, wherein the second inner face includes a second tapered surface tapering outward from a second planar portion of the second inner face toward the second outer circumferential surface such that a second projection is formed at an intersection between the second inner face and the outer circumferential surface; wherein the second projection and second tapered surface indent into the planar, annular second face of the elastomeric ring and the second tapered surface wedges at least a portion of the elastomeric ring toward the inner hub. 6. The assembly of claim 5 , wherein the elastomeric ring has a thickness T and the majority of engagement between the first retaining member and the planar, annular first face occurs in an inner half of the thickness T. 7. The assembly of claim 4 , wherein the first retaining member is an annular ring with an outer diameter that is greater than the inner diameter of the elastomeric ring and less than the outer diameter of the elastomeric ring. 8. The assembly of claim 4 , wherein the projection extends continuously around the inner face of the first retaining member. 9. A method of cutting glass fibers, the method comprising: bringing continuous glass fibers into engagement with a circumferential surface of a first rotatable member that includes an elastomeric ring mounted onto a cylindrical inner hub for rotation with the inner hub; rotating the first rotatable member to bring the glass fibers into contact with one or more cutter blades; cutting the glass fibers into discrete segments with the one or more blades; and mechanically holding the elastomeric ring in place relative to the inner hub by wedging at least a portion of the elastomeric ring toward the inner hub with a tapered surface on an inner face of a retaining member fixably attached to the inner hub, wherein the tapered surface tapers outward from a planar portion of the inner face toward an outer circumferential surface of the retaining member, and indenting into a planar, annular face of the elastomeric ring with the tapered surface and a projection on the retaining member to resist separation of the elastomeric ring from the hub during rotation of the first rotatable member, wherein the projection is located at an intersection of the inner face and the outer circumferential surface. 10. The method of claim 9 wherein the retaining member is an annular ring with an outer diameter that is greater than the inner diameter of the elastomeric ring and less than the outer diameter of the elastomeric ring.