IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0282095
(2002-10-29)
|
§371/§102 date |
20031205
(20031205)
|
발명자
/ 주소 |
- Eloo, Michael
- Veltel, J?rgen
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
12 인용 특허 :
9 |
초록
▼
An adjustable sectioned water flow guide stationarily mounted in the water box of an underwater pelletizer to adjust the flow of pressurized water through the water box in order to accommodate a range of variable process requirements, such as pellet size, water flow, water temperature, melt flow, et
An adjustable sectioned water flow guide stationarily mounted in the water box of an underwater pelletizer to adjust the flow of pressurized water through the water box in order to accommodate a range of variable process requirements, such as pellet size, water flow, water temperature, melt flow, etc., while preventing pellet distortion and die hole freezing. The length and surface configuration of the water flow guide may be readily adapted through selection of an appropriate number of grooved or ungrooved sections to optimize fluid flow for particular pelletizer applications.
대표청구항
▼
1. In an underwater pelletizer having a rotating shaft for cutting extruded polymer pellets against a die face, the improvement of an adjustable flow guide for pressurized water in a cutting chamber comprising:a generally cylindrical body having a longitudinal bore surrounding said rotating shaft an
1. In an underwater pelletizer having a rotating shaft for cutting extruded polymer pellets against a die face, the improvement of an adjustable flow guide for pressurized water in a cutting chamber comprising:a generally cylindrical body having a longitudinal bore surrounding said rotating shaft and one or more cut-outs on an outer surface to direct said pressurized water toward and away from said die face; and at least one annular section coupled to said cylindrical body and having an outer surface that is generally coincident with said outer surface of said body, said annular section adjusting an overall length of said flow guide and subsequent flow of water across said die face. 2. An adjustable flow guide for pressurized water in a cutting chamber of an underwater pelletizer having a rotating shaft for cutting extruded polymer pellets against a die face, said flow guide comprising a plurality of annular sections having substantially equivalent outer circumferences, each section machined to fit in abutment against an adjoining annular section with said outer circumferences generally coincident with one another to together form a generally cylindrical body having a longitudinal bore surrounding said rotating shaft, a number of said plurality of annular sections being selectable to determine an overall length of said flow guide body, changes in said length altering water flow passing by said die face.3. The adjustable flow guide as set forth in claim 2, wherein at least some of said annular sections include at least one cut-out on an outer surface to define an axial groove in said guide to direct said pressurized water toward and away from said die face.4. The adjustable flow guide as defined in claim 3, wherein adjoining cutouts form a pair of axial grooves, one adapted to be positioned in alignment with an inlet to said cutting chamber and the other adapted to be positioned in alignment with an outlet of said cutting chamber.5. The adjustable flow guide as defined in claim 4, wherein one of said cutouts includes an arcuately curved inner end for changing radial flow of water into the cutting chamber to axial flow and axial flow of the water and pellet slurry into radial flow.6. The adjustable flow guide as set forth in claim 2, wherein said plurality of annular sections include a plurality of flat plates.7. A pelletizer comprising a die plate with extrusion orifices terminating in a die face, a driven rotary cutter blade hub supported in opposed relation to said die face, at least one cutter blade mounted on said blade hub and capable of moving in a plane generally parallel to and closely adjacent said die face to cut strands of material extruded through said orifices into pellets, a water box having a cutting chamber enclosing said die face, cutter blade hub and cutter blade, said water box including a water inlet and an outlet for discharge of water and pellets entrained in the water, and an adjustable water flow guide formed as a stationary tubular member adapted to be positioned in said water box and having a free end adapted to be closely spaced from said cutter blade hub and blade, said tubular member including at least one interchangeable annular section for adjusting an overall length of said tubular member.8. The pelletizer as defined in claim 7, wherein said adjustable water flow guide includes a plurality of interchangeable annular sections coupled to an end of the flow guide furthest from said die plate.9. The pelletizer as defined in claim 8, wherein said plurality of interchangeable annular sections include annular sections of different thicknesses.10. The pelletizer as defined in claim 7, wherein said tubular member includes an external surface adapted to be oriented closely adjacent an interior surface of the water box, said external surface having at least one axial recess providing an axial water flow passageway.11. In combination, an underwater pelletizer and an adjustable water flow guide comprising:an underwater pelletizer having a die plate with extrusion orifices terminating in a die face, a driven rotary cutter blade hub supported in opposed relation to said die face cutter blades mounted on said blade hub and capable of moving in a plane generally parallel to and closely adjacent said die face to cut strands of material extruded through said orifices into pellets, and a water box enclosing said die face, cutter blade hub and cutter blades, said water box including a pressurized water inlet and an outlet for discharge of a slurry of water and pellets entrained in the water; and an adjustable water flow guide positioned in said water box and capable of directing pressurized water entering the water inlet toward the die face and cutter blades and capable of directing discharge of water and pellets toward said outlet, said water flow guide including a plurality of interchangeable annular sections having generally equivalent outer circumferences, each section cooperatively abutting against an adjoining section with said circumferences being generally coincident with one another, and a number said sections being selectable to vary an overall length of said water flow guide. 12. The combination as defined in claim 11, wherein said water flow guide is stationary within said water box.13. The combination as defined in claim 11, wherein said plurality of sections coupled together forms a tubular member having an outer surface, at least one of said sections having an outer axial recess therein to provide an axial flow path on said outer surface.14. The combination as defined in claim 11, wherein said plurality of sections coupled together forms a tubular member having an external surface generally in concentric close fitting relation to an interior surface of the water box, at least one of said sections having a pair of outer axial recesses therein to provide axial flow paths on said external surface of said tubular member, a first one of said axial recesses being in alignment with the water box inlet and a second one of said axial recesses being in alignment with the water box outlet.15. The combination as defined in claim 14, wherein said recesses are oriented in diametrically opposed relation, each forming an axial groove parallel to the rotational axis of the cutter blade hub.16. The combination as defined in claim 15, wherein each of said axial grooves is formed by adjoining the outer axial recesses of at least two of said sections.17. The pelletizer as defined in claim 7, wherein said adjustable water flow guide includes a plurality of interchangeable annular sections coupled to an end of the flow guide closest to said die plate.18. The combination as defined in claim 12, wherein said interchangeable annular sections are coupled to an end of the flow guide closest to said die plate.19. The combination as defined in claim 12, wherein said interchangeable annular sections are coupled to an end of the flow guide furthest from said die plate.
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