RU2250050C2 - Extruder - Google Patents

Abstract

FIELD: extruders for forest industry, food-processing industry and pharmaceutical industry.

SUBSTANCE: proposed extruder has body with loading bin and screw feeder located in body. Extruder is also provided with sleeve having holes on its side surface; this sleeve is mounted on body forming treatment chamber. Volume of treatment chamber is constant or variable depending on motion of sleeve. Section of side holes is adjustable and/or blanked-off.

EFFECT: simplified construction; extended technical capabilities; reduced power requirements.

3 dwg, 2 ex

Description

The invention relates to extruders and can be used in forestry, food, pharmaceutical, etc. industry and agriculture.

Known extruder for the preparation of feed, described in the copyright certificate No. 582790, MKI A 23 N 17/00, published 05.12.77, Bull. No. 45, including a housing equipped with a loading hopper with a screw located in it, a device for regulating the pressure and temperature inside the housing, and a glass having radial holes on the side surface attached to the end of the screw.

The disadvantages of such an extruder are the bulkiness of the design, the instability of processing the initial product, caused by the complexity of the trajectory of the product, due to which, local overheating at the points of transition, for example from the screw to the glass, is possible, which leads to its possible locking in the transitions, as well as low reliability and stability of operation caused by the gap between the sleeve and the glass, through which pressure relief and clogging of the product occurs.

The technical result of the invention is to simplify the design, expand technological capabilities, reduce the energy intensity of obtaining the final product, increase reliability and stability.

The technical result is achieved by the fact that the extruder, including a housing equipped with a loading hopper, with a screw located in it, contains a glass with holes on the side surface mounted on the housing, with the formation of a processing chamber, the volume of which is constant, or variable by moving the glass, and the cross-section of the side openings - adjustable and / or plugged.

The invention is illustrated by drawings, where figure 1 shows a diagram of an extruder; figure 2 is a longitudinal section of a static glass, and figure 3 is a longitudinal section of a movable glass.

Example 1. The extruder includes a housing 1 provided with a loading hopper with an auger 2 located therein, a cup 3, mounted on the end of the housing 1, for example using bolts (see figure 2). In the glass 3 there are side holes 4, the cross section of which can be changed, for example, by selecting screws 5 having through holes of various diameters, which are fastened in the side holes with a thread. The number of open holes 4 can be adjusted using the clamp 6 or with screws 5, in which there are no holes. The internal cavity of the glass 3 is a processing chamber 7, the volume of which is determined by the dimensions of the glass 3.

When the extruder is operating, the screw 2 is rotated, for example, by an electric motor (not shown), while the initial product is fed through the loading hopper into the internal cavity of the housing 1, where it is captured by the turns of the screw 2 and moves towards the processing chamber 7. The initial product in the chamber processing 7 is compressed to a predetermined pressure and heated to a predetermined temperature, the value of which is determined by the number of open side holes 4, their cross-section and the volume of the processing chamber 7. In the processing chamber 7, the initial product is processed aetsya at elevated temperature under pressure and mechanical action, and through the side opening 4 goes with abrupt expansion.

Example 2. The extruder includes a housing 1 provided with a loading hopper with a screw 2 located therein, a cup 3 mounted on the end of the housing with the possibility of movement along the axis of the screw 2, for example, on a thread (see figure 3). In the glass 3 there are side holes 4, the cross section of which can be changed, for example, by selecting screws 5 having through holes of various diameters, which are mounted in the side holes 4 with a thread. The number of open holes 4 can be adjusted using the clamp 6 or with screws 5, in which there are no holes. The nut 8 serves to fix the glass 3. By moving the glass 3 along the axis of the screw 2 by rotation along the thread, the volume of the processing chamber 7 is regulated. In addition, by moving the glass 3, the side holes 4 are blocked or opened by the body of the housing 1.

When the extruder is operating, the screw 2 is rotated, for example, by an electric motor (not shown), while the initial product is fed through the loading hopper into the internal cavity of the housing 1, where it is captured by the turns of the screw 2 and moves towards the processing chamber 7. The initial product in the chamber processing 7 is compressed to a predetermined pressure and heated to a predetermined temperature, the value of which is determined by the number of open side holes 4, their cross-section and the volume of the processing chamber 7. In the processing chamber 7, the initial product is processed aetsya at elevated temperature under pressure and mechanical influence, and where the lateral openings through 4 goes with abrupt expansion.

The presence of the processing chamber 7, the absence of complex transitions for the initial product, the static glass 3 in the process allows expanding the technological capabilities of the extruder, processing the material at lower temperatures, high humidity, harder than grain, for example, waste wood and agriculture, etc. , reduce the energy intensity of obtaining the final product and, in general, increase the reliability of its work and simplify maintenance.

Research trials confirm the benefits of the proposed extruder.

Claims (1)

An extruder comprising a housing equipped with a loading hopper, a screw installed in the housing and a glass with holes on its side surface, characterized in that the glass is mounted on the end of the extruder body to move along the axis of the screw and forms a processing chamber, the volume of which changes as the glass moves, while the cross-section of the side openings of the glass is made adjustable and / or damped.

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