A transfer mixing section
An extruder for poorly miscible extrudates which includes a pin-lined barrel section and a transfer mixing section used together. Restricting pins are arranged in the transfer mixing section in the region of the greatest barrel channel volume and permit universal use of the extruder with respect to the extrudate. The combination of the two mixing systems allows in a surprising way an increase in the material throughput of 60% to 100% with the mixing quality remaining the same and a halving of the drive torque. Due to a constant number of channels of the barrel channels and screw channels, the number of barrel flights and screw flights remains independent of the channel cross-sectional area of barrel and screw. A helical barrel groove in the feed zone of the extruder barrel additionally improves the mixing quality of the extrudate and the output of the extruder.
An extruder for the processing and production of rubber and thermoplastics materials, comprising: an extruder barrel having an inner surface and a longitudinal axis an inlet opening in a feed zone, and an outlet opening, said inner surface of said barrel in said feed zone being formed with a helical groove; an extruder screw mounted for rotation about its longitudinal axis in said barrel, said screw being formed with screw flights having channels therebetween which define with said barrel a processing space, and means for driving said screw, and wherein said extruder has successively arranged mixing and homogenizing zones, said mixing zone comprising a pin-lined barrel zone in which pins protrude radially into the processing space of the barrel, said screw flights being interrupted in the region of said pins to accommodate screw rotation.
Said homogenizing zone comprising a transfer section in single screw extruder has a constant reduction in its channel volume to zero from a feed portion of said transfer section to a discharge portion of said transfer zone, and then a channel volume increase up to a maximum value, and in which said extruder barrel has uninterrupted barrel channels which increase their channel volume from zero to a maximum value from said feed portion to said discharge portion of the transfer section, to drop subsequently back to a channel volume of zero, and in which the barrel channels are disposed approximately helically about the longitudinal axis of said extruder, radially adjustable restricting pins arranged in the region of the maximum channel volume of the barrel channels so as to protrude through the barrel and into the barrel channels as well as into the processing space, and wherein the number of channels, and consequently the number of screw flights and barrel flights, in constant in the feed portion and in the discharge portion of the transfer section independently of the barrel and screw channel cross-sectional areas.