A continuous length of material of non-circular cross-section is pelletized to form discrete bits, by feeding the material to a cutting wheel with shaped cutters that form non-planar bits having non-circular axial projections and that are aligned with the material. The material is fed so as to maint
A continuous length of material of non-circular cross-section is pelletized to form discrete bits, by feeding the material to a cutting wheel with shaped cutters that form non-planar bits having non-circular axial projections and that are aligned with the material. The material is fed so as to maintain a rotational orientation with respect to the cutters, and so as to avoid buckling. Multiple banks of strands of material are severed simultaneously, thereby producing high volumes of shaped bits that are useful as filling and as filter material, and as friction-enhancing additives.
대표청구항▼
1. A method of pelletizing a length of material to form discrete bits of material, the method comprising feeding a longitudinally continuous length of material through a guide aperture;supporting a distal region of the continuous length of material against a support surface defining an edge beyond w
1. A method of pelletizing a length of material to form discrete bits of material, the method comprising feeding a longitudinally continuous length of material through a guide aperture;supporting a distal region of the continuous length of material against a support surface defining an edge beyond which a distal end of the continuous length of material is fed downstream of the guide aperture; and, while continuing to feed the continuous length of material through the guide aperture and over the edge of the support surface,severing the continuous length of material at or beyond the distal edge at discrete intervals by a series of cutters disposed at spaced intervals about a cutting wheel, to form discrete and separate bits of the material,wherein the continuous length of material is of non-circular cross-section, the cutting wheel is maintained in alignment with the guide aperture, and the cutters are shaped such that severing the continuous length of material forms cut surfaces that have perimeters of non-circular axial projection; andnon-planar cut profiles perpendicular to a direction in which the cutter moves through the continuous length of material, wherein the edge of the support surface is shaped in accordance with the cut profile, such that each cutter passes through a recess at the edge of the support surface after severing the material. 2. The method of claim 1, further comprising maintaining a rotational orientation of the continuous non-circular cross-section of the length of material within the aperture. 3. The method of claim 2, wherein the guide aperture is at least partially defined by the support surface, the support surface defining a channel that is shaped to maintain a rotational orientation of the supported distal region of the continuous length of material during severing by the cutters. 4. The method of claim 1, wherein the cutters and the support surface recess are of complementary shape. 5. The method of claim 1, wherein the cutters are all of identical shape, such that the formed bits all share a similar cut end shape. 6. The method of claim 1, wherein the guide aperture is at least partially defined by the support surface. 7. The method of claim 1, wherein severing the material is performed while the material is compressed in a direction of cutting, such that in an uncompressed state in the severed bits opposite end surfaces are of different shape than as cut. 8. The method of claim 1, wherein the cutters each have a cutting profile that overlaps itself along a longitudinal axis of the continuous length of material. 9. The method of claim 1, wherein the continuous length of material is encapsulated within a stabilization layer that is severed as the material is severed. 10. The method of claim 1, wherein feeding the continuous length of material comprises passing the continuous length of material through a nip between two feed rolls, at least one of which feed rolls being driven to feed the continuous length of material. 11. The method of claim 10, wherein the guide aperture extends downstream of the nip to the edge of the support surface, the guide aperture defining an inner dimension less than twice a corresponding outer dimension of the continuous length of material, thereby limiting buckling of the fed length of material. 12. The method of claim 10, wherein the guide aperture is at least partially defined within a transfer tube that has an entrance positioned such that there remains at any point of time during the feeding and severing of the continuous length of material an unsupported portion of the continuous length of material between the feed rolls and the transfer tube that is of a length less than twice a maximum lateral dimension of the continuous length of material. 13. The method of claim 1, further comprising lubricating an outer surface of the continuous length of material upstream of severing the length of material. 14. The method of claim 1, wherein the continuous length of material has a maximum lateral extent of less than about 3.0 millimeters. 15. The method of claim 1, wherein multiple lengths of material are fed, supported and severed in parallel. 16. The method of claim 15, wherein the multiple lengths of material are fed in multiple banks that are severed at different positions about the cutting wheel.
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