SU1493240A1 - Extruder for producing animal feed - Google Patents

Abstract

The invention relates to agricultural machinery, in particular, to machines for the preparation of feed based on biopolymers - extruders. The purpose of the invention is to improve the quality of the prepared feed by intensifying the thermodynamic effect on it and increasing the productivity of the extruder. The extruder includes a housing 1, inside of which there is a screw-to-3 located with eccentric cutting in the zone of kneading. In the sections with the minimum depth of the screw channels of the screw 3, grooves 4 are made tangentially to the surface of the core 5 of the screw along the screw channels. The smallest flow area of the channels, together with the grooves in the eccentric section, is 50-85% of the flow area of the channels with normal cutting. 4 il.

Description

“B

-H-LL: -O.: - SU -:.,

with so

HS

Oig

The invention relates to agricultural machinery, in particular to machines for the preparation of feed based on biopolymers - extruders.

The purpose of the invention is to improve the quality of the prepared feed by intensifying the thermodynamic effect on it and increasing the productivity of the extruder.

FIG. 1 shows an extruder, a longitudinal section; in fig. 2 - screw channel profile with grooves, cross section; in fig. 3 - scan of a part of the screw channel along the length; in fig. 4 shows an embodiment of the grooves, a transverse section of the screw.

The extruder consists of a housing 1 with a hopper 2 and a screw 3 with an ex- ternal cutting in the area of kneading. And; | uchasgka.h with the minimum g chubina i1M) you. the channels of the screw 3 are made pro::. (I A tangential to the surface of the ser-,;: - chip 5 along the screw channel. As Hg)), the grooves 4 can be made along the screw channel along the radius. The bottom of the grooves 4, which has a semicircle shape in cross section, smoothly passes from the tangent to the diameter of the core 5 along a radius of 2 e, where e is the eccentricity value. The number and size of the grooves depend on the diameter of the screw, the required extrusion mode and the type of feed.

IianNu-sneaky cross-sections of the canals of kmggo with grooves in the section with ex-Ufii; The cut-off ribs make up 50--85% of the iipoxij.iiKiio cross-section of the channels with the usual cut to ii.

The screw channel in the eccentric section along the length consists of successive smaller 6 and larger 7 volumes with a smoothly varying ratio between them.

The extruder works as follows.

The processed feed mixture based on biopolymers through the feed funnel 2 enters the internal cavity of housing 1, where it is captured by a screw 3 and transported through the extruder zones, subjected to thermodynamic effects.

Due to the fact that the screw channel in the eccentric section along the length consists of alternating smaller 6 and larger 7 volumes with a smoothly varying ratio between them, the feed mixture being processed is subjected to pulsed pressure

shear deformation and mixing. The passage of the smallest volumes 6 of the screw channel, where the core 5 of the screw 3 is made with the grooves 4 along the channel, the feed mixture undergoes not only maximum shear deformations, but also the division into streams, which causes the extruder's mixing capacity.

Given that the intensive shear of the material depends on the velocity gradient, and the maximum speed of the material in motion will be in the channel of the smallest volume, mixing elements (in this case, grooves) are needed in the channel of a smaller volume. To intensify the thermodynamic effect on the material being processed, it is sufficient to increase the rate of translational motion of the material by 15%.

An excessive increase in the rate of translational motion of the material due to a decrease in the cross section of the channel leads to an increase in the hydraulic resistance of the channel and to a decrease in the productivity of the extruder.

Based on this, the smallest passages of the channels, along with the grooves in the eccentric section, should be 50-85% of the flow area of the channels with normal cutting.

The use of grooves in the zone of intense shear of the material ensures maximum flow re-formation and high homogeneity of the melt according to physicochemical, rheological and thermal properties, good distribution of additives during processing.

Claims (1)

Invention Formula An extruder for preparing feed containing a casing and a worm with eccentric cutting, in which grooves are made in areas with minimum depth of the screw channels, characterized in that, in order to improve the quality of the prepared feed by intensifying the thermodynamic effect on it and increasing productivity, tangential to the surface of the worm core along the screw channels, with the smallest flow areas of the channels together with the grooves in the section with eccentric cutting 50-85% of the flow area of the channels with conventional cutting is applied.  five Figg Phie. J Fiel