A cutter hub and blade assembly for an underwater pelletizer in which molten polymer is extruded as strands through orifices in a die plate. The cutter hub is rotatably driven and includes cutter blades mounted at a steep angle on the cutter hub and move along the face of the die plate to cut the e
A cutter hub and blade assembly for an underwater pelletizer in which molten polymer is extruded as strands through orifices in a die plate. The cutter hub is rotatably driven and includes cutter blades mounted at a steep angle on the cutter hub and move along the face of the die plate to cut the extruded strands into pellets. The cutter blade support angle on the cutter arms is 60��-79��, preferably about 72�� to about 76�� and most preferably about 75��. The blade cutting edge is beveled or angled at about 40�� to about 50�� and preferably about 45�� to the opposed planar surfaces of the blade. The included angle between the blade cutting edge and the die face is at least about 20��. The inclination of the cutter blade support angle in combination with the blade cutting edge angle in accordance with the invention provides a clean cut of the pellets and enables faster blade grinding when seating new blades to the die face. The steep blade inclination also enables a larger number of cutter blades to be supported from a cutter hub and reduces "tracking" of the blade cutting edge toward the cutter hub center as the blade edges wear down.
대표청구항▼
What is claimed is: 1. An underwater pelletizer in which molten polymer is extruded as strands through orifices in a die plate, comprising a cutter hub and blade assembly with said cutter blades being mounted on support arms of said cutter hub at a steep angle for movement along the face of the die
What is claimed is: 1. An underwater pelletizer in which molten polymer is extruded as strands through orifices in a die plate, comprising a cutter hub and blade assembly with said cutter blades being mounted on support arms of said cutter hub at a steep angle for movement along the face of the die plate to cut the extruded strands into pellets, said cutter blades being mounted at a support angle on the support arms of 60��-79�� and having a blade cutting edge beveled at about 40�� to about 50�� to opposed planar surfaces of the blade, with said blade cutting edge and said die face being oriented in angular relation with an included angle of at least about 20��. 2. The underwater pelletizer as claimed in claim 1, wherein said support angle of said blades on said support arms is about 72�� to about 76��. 3. The underwater pelletizer as claimed in claim 1, wherein said support angle of said blades on said support arms is about 75��. 4. The underwater pelletizer as claimed in claim 1, wherein said blade cutting edge is beveled at about 45��. 5. The underwater pelletizer as claimed in claim 1, wherein said mounting angle, beveled angle and included angle combine to provide a clean cut of the pellets and enable faster blade grinding when seating new blades to the die face. 6. The underwater pelletizer as claimed in claim 1, wherein said steep blade inclination enables a larger number of cutter blades to be supported from said cutter hub and reduces tracking of said blade cutting edge toward the center of said cutter hub as said blade edges wear down. 7. A cutter hub and blade assembly comprising a cutter hub, a plurality of radial support arms on said hub, a cutter blade mounted on each support arm including a cutting edge associated with a die face of an underwater pelletizer, said cutter blades being mounted at a steep angle on said cutter hub and moving along said die face, said cutter blade support angle on said support arms being 60��-79�� preferably about 72�� to about 76�� and most preferably about 75�� each of said blades including a beveled edge at about 40�� to about 50�� and preferably about 45�� to opposed planar surfaces of said blade and an included angle between said blade cutting edge and said die face being at least about 20��. 8. The cutter hub and blade assembly as claimed in claim 7, wherein said steep angle of the cutter blades provides a clean cut of extruded strands into pellets, enables faster blade grinding when seating new blades to the die face and a larger number of cutter blades to be supported from said cutter hub and reduces tracking of the blade cutting edge toward the cutter hub center as the blade edges wear down. 9. A cutter hub and blade assembly for an underwater pelletizer comprising a cutter hub having a plurality of support arms, said support arms having an inclined surface to secure cutting blades to said cutter hub at an inclined angle against a die plate surface for cutting extruded material exiting die orifices in said die plate surface by rotating said cutter hub and cutting blades, (a) said cutting blades having an inclined or beveled edge at an angle of about 40�� to about 50��, and (b) said cutting blades being supported in said inclined surfaces at an angle between 60�� and 79�� so that an included angle between said blade edge angle and said die plate surface is at least 20��. 10. The cutter hub and blade assembly according to claim 9, wherein said cutting blades are supported in said inclined surfaces at an angle between about 72�� and about 76��. 11. The cutter hub and blade assembly according to claim 9, wherein said cutting blades are generally rectangular with an inclined or beveled edge at both ends so that said cutting blades can be reversed in said support arms. 12. The cutter hub and blade assembly according to claim 9, wherein said inclined or beveled edge has an angle of about 45�� and is supported in said inclined surface at an angle of about 75��. 13. A cutter hub and blade assembly for an underwater pelletizer in which molten polymer is extruded as strands through orifices in a die plate, comprising a plurality of cutter blades supported on a corresponding plurality of support arms of said hub at a steep blade support angle for movement along the face of the die plate to cut the extruded strands into pellets, each of said support arms having an inclined surface against which said cutter blade is mounted such that said blade support angle is from 60�� to 79�� and each of said cutter blades having an end edge beveled at about 40�� to about 50�� to opposed planar surfaces of the blade, said blade end edge and said die face being oriented in angular relation with an included angle of at least about 20��. 14. The assembly according to claim 13, wherein said cutter blade includes a body having parallel opposed planar surfaces and parallel opposed inclined end edges, with one of said planar surfaces being in engagement with said support arm inclined surface. 15. The assembly according to claim 13, wherein said blade support angle is an angular relationship between said support arm inclined surface and a die face surface of said die plate. 16. The assembly according to claim 14, wherein said blade support angle is an angular relationship between one of said body planar surfaces and a die face surface of said die plate. 17. An underwater pelletizer in which molten polymer is extruded as strands through orifices in a die plate, comprising a cutter hub and blade assembly with said cutter blades being mounted on support arms of said cutter hub at a steep angle for movement along the face of the die plate to cut the extruded strands into pellets, said cutter blades being mounted at a support angle on the support arms of about 72�� to about 76��.
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이 특허에 인용된 특허 (6)
Altenburg Hovey S. (Tamaqua PA), Cutter hub with replaceable knife blades for underwater pelletizer.
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