초록 ▼

High-capacity extrusion die assemblies (20, 90, 130, 140, 180, 252) each having a tubular sections (44, 146, 162, 268) and an elongated, axially rotatable, helically flighted screw section (56, 56a, 152, 168, 276, 278) which cooperatively define frustoconical, outwardly diverging material flow paths

High-capacity extrusion die assemblies (20, 90, 130, 140, 180, 252) each having a tubular sections (44, 146, 162, 268) and an elongated, axially rotatable, helically flighted screw section (56, 56a, 152, 168, 276, 278) which cooperatively define frustoconical, outwardly diverging material flow paths (75, 160, 291) at constant or differing divergence angles of from about 1-11°. The use of diverging tubular sections (44, 146, 162, 268) and screw sections (56, 56a, 152, 168, 276, 278) permits the use of larger die plates (76, 118, 292) with an increased number of die openings (80, 124, 296). This allows significant increases in extrusion production rates. The die assemblies (20, 90, 130, 140, 180, 252) can be used in the production of a wide number of human foods or animal feeds, and particularly aquatic feeds of the floating or sinking variety. In another aspect of the invention, an extruder (210) is provided having diverging and converging sections (212, 214) along the length thereof and defining corresponding flow paths (230, 246).

대표청구항 ▼

We claim: 1. A high capacity extrusion die assembly comprising: an elongated tubular section having an axial length, a smaller diameter inlet end and a larger diameter outlet end, with an internal bore progressively diverging at an angle of from about 1-11° in a direction from said inlet end t

We claim: 1. A high capacity extrusion die assembly comprising: an elongated tubular section having an axial length, a smaller diameter inlet end and a larger diameter outlet end, with an internal bore progressively diverging at an angle of from about 1-11° in a direction from said inlet end towards said outlet end; an external heat exchange jacket around said tubular section and operable to receive cold water or steam; an elongated, axially rotatable screw section within said tubular section and having an axial screw length with a smaller diameter inlet end proximal to said tubular section inlet end and a larger diameter outlet end proximal to said tubular section outlet end, said screw section including an elongated shaft with outwardly extending helical flighting presenting flighting outer surfaces along the length of the shaft, said flighting outer surfaces progressively diverging at an angle of from about 1-11° in a direction from said screw section inlet end toward said screw section outlet end; and a die unit associated with said tubular section outlet end and having a plurality of die openings therethrough configured to create a pressure drop across the die openings. 2. The die assembly of claim 1, said internal bore progressively diverging over at least about 50% of said bore axial length. 3. The die assembly of claim 1, the L/D ratio of the axial length of said tubular section to the internal diameter of said inlet end being from about 1.5-4. 4. The die assembly of claim 1, said internal bore and said flighting outer surfaces each independently progressively diverging at an angle of from about 1.5-7°. 5. The die assembly of claim 1, said internal bore and said flighting outer surfaces diverging at substantially the same angle. 6. The die assembly of claim 1, said internal bore and said flighting outer surfaces diverging at different angles. 7. The die assembly of claim 1, said die unit having a die plate being spaced from the larger diameter end of said screw section a distance less than the diameter of said die plate. 8. The die assembly of claim 1, there being only a single screw section within said bore. 9. The die assembly of claim 1, said screw section outlet end being proximal to and spaced a distance from said die unit and having a shaft end presenting a diameter, said tubular section diverging over substantially all of the length of said distance between said screw section outlet end and said die unit. 10. The die assembly of claim 9, said tubular section and said screw section cooperatively defining a frustoconical material flow path, said die unit presenting a plurality of die openings in alignment with said flow path and spaced radially outwardly from said shaft end diameter, said flow path being unobstructed from the end of said screw section to said die unit. 11. The extruder of claim 10, said die openings spaced radially outwardly from said shaft end diameter being the only die openings.