RU2516659C2 - Pelletising screw extruder - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: proposed extruder can be used in various industries, for example, chemical industry (production of catalyst, sorbents, etc), food industry (production of mid products and dry concentrates), agriculture (production of mixed fodder, macro encapsulated seeds), woodworking, construction materials, machine building, etc. Said extruder is intended for processing of high-concentration polydisperse compositions of higher viscosity, limited shear strength and low adhesion. It consists of the housing accommodating the sleeve with trapezoidal ledges, their larger base being directed outward, filled with elastic inserts on its inner surface, screw and spinneret. Extruder sleeve ups the forming stability of superfine compositions without changing the riffled sleeve design, that is, decreases idle time caused by bulk fall from riffles at strained axial cross-section, i.e. gap between screw flange and housing riffled sleeve.

EFFECT: expanded range of used high-concentration polydisperse compositions of higher viscosity, limited shear strength and low adhesions.

5 dwg

Description

The invention relates to the processing of highly concentrated polydisperse materials with high viscosity, a limited margin of shear strength, low adhesive ability and can be used in various industries, for example, in the chemical (production of catalysts, sorbents, etc.), food (production of intermediate products and dry concentrates ), agricultural (production of animal feed, macroencapsulated seeds), wood processing, building materials, engineering and others ..

Known granulating screw press (see AS USSR No. 363593, BI No. 4, 1973), designed for granulating materials with high viscosity.

The disadvantages of a granulating screw press include: the presence of "dead" zones in front of the forming head; increased effect of pulsations on mass formation; when moving the moldable mass with low adhesive ability, it is possible to rotate the mass together with the screw (disruption of the mass from the reefs).

The closest in technical essence and the achieved result to the claimed one is a granulating screw press, selected as a prototype (see Schenkel G. Screw presses for plastics. L., 1962, p. 65), for processing highly concentrated polydisperse compositions with high viscosity, limited margin of shear strength and low adhesive ability by continuous pressing.

A granular screw press consists of a housing, a housing sleeve, a screw and a multi-channel press tool. Reefs are made on the body sleeve. The transfer of a moldable mass with increased viscosity, limited margin of shear strength and low adhesive ability by a screw from the loading zone to the press tool is possible only because the moldable mass is kept from turning together with the screw reefs made on a sleeve inserted into the screw press housing.

A disadvantage of the known granular screw press: a decrease in the limited stock of shear strength of the mass in the process of moving it to the multichannel press tool to a certain critical value leads to a cohesive rupture, i.e., to tearing the mass from the reefs in the most strained axial section: the gap between the screw flange and the grooved sleeve.

The technical result, which is achieved by the claimed design of the granulating screw press, is to increase the stability of the molding process of various highly dispersed compositions without changing the design of the corrugated sleeve, i.e. reducing the number of forced stops of the press due to the breakdown of the mass from the reefs and the associated reduction in losses of raw materials and energy, as well as an increase in the productivity of the granulating screw press.

The specified technical result is achieved by the manufacture of a granulating screw press for processing highly concentrated polydisperse compositions with increased viscosity, limited shear strength and low adhesive ability, including a housing containing a sleeve placed in the housing with reefs on its inner surface made of a trapezoidal shape with a narrow base outward and filled with elastic liners, auger and multi-channel press tool.

The granulating screw press (Fig. 1) consists of a housing 1, a grooved sleeve with reefs on its inner surface, made of a trapezoidal shape with a narrow base outward and filled with elastic liners 2, a screw 3 and a multi-channel pressing tool 4.

Figure 2 presents the sleeve of the housing 2 with trapezoidal reefs and elastic inserts filling the reefs. Section AA (FIG. 2) shows the location of the reefs on the inner surface of the sleeve, and view B (FIG. 3) shows the cross section of the reef and liner. Figure 4 presents the design of the corrugated sleeve 2 in a perspective view.

Inserts can be made of various elastic materials: rubber rubber and silicone, highly elastic polymers, such as polyethylene and others.

The trapezoidal shape of the "closed" reef (with the narrow base of the trapezium outward - Fig. 3) reliably holds the liner without additional fasteners and allows its free movement along the reef for replacement during repair and maintenance. This fastening also contributes to the rapid replacement of the liners when switching to molding another type of highly dispersed composition on the same equipment.

The proposed device operates as follows. The moldable mass is mixed in the press housing 1 with the sleeve 2 (Fig. 1) by the screw 3 from the loading zone to the multi-channel press tool 4. When the screw rotates in front of the auger side of the screw flanges in the channel, the gap and reef, an area of wave-like increase in pressure is formed, and behind the runaway side of the flanges is the area of wave-like pressure reduction. This pressure difference forms a recycle (leakage flow) in the reefs and gap. The phase of compression of the elastic liners and filling of the free space of the reef with mass in the high pressure region is followed by the phase of the elastic reaction of the liners and the expulsion of fresh mass from the reef to the low pressure region. In this case, the fresh mass periodically in the direction of rotation of the screw displaces from the gap the mass, which has spent its durability, into the less stressed zone of the channel of the screw, where it relaxes, restoring the safety factor. The relaxation intensity is significantly increased by the mixing circulating mass flow in the screw channels.

Thus, the radial mass flows formed by the wave-like elastic reaction of the liners actively renew the mass in the gap between the screw flange and the sleeve. These radial periodic flows, like “nails”, crosslink the mass in the reef and channel and thus increase the holding capacity of the reef and therefore increase the stability of the molding.

As the mass moves to the press tool 4, the amplitude of the wave-like pressure change and the compression ratio of the elastic liners increases. The flow of leaks through the reef also increases, and after this the radial flows increase to the region of relatively low pressure in the gap and channel of the screw, i.e. the degree of mass renewal increases as the mass moves toward the press tool. Thus, the effect of self-regulation of the leakage flow and the degree of mass renewal with a change in tension in the critical section (gap) is manifested.

The design of the corrugated sleeve due to the selection of inserts for hardness and elasticity allows you to significantly expand the allowable interval of formability of the processed dispersed compositions of various composition and physico-mechanical properties.

The manufacture of reefs with elastic liners on the inner surface of the housing sleeve significantly increases the stability of the process of forming dispersed compositions, as the resource of shear strength of the mass increases due to its more intensive renewal in the gap between the screw flange and the body sleeve.

The manufacture of reefs with elastic liners on the body sleeve also enhances the mixing effect in the channels of the screw and, therefore, increases the structural and temperature uniformity of the mass, as well as its physical and mechanical properties in the channels of the screw, the gap and reefs.

The use of the proposed granulating press with a sleeve, on the inner surface of which reefs with elastic inserts are made, prevents mass loss from the reefs in the most strained axial section - the gap between the screw flange 3 and the corrugated sleeve of the body 2, which increases the stability of the molding process, and this leads to an increase the time-averaged productivity of a granulating screw press by 20-30%, due to the partial or complete elimination of forced shutdowns of the press due to breakdown from reefs; to reduce direct losses of raw materials and energy during the elimination of the consequences of a breakdown from reefs; allows you to significantly expand the allowable moldability range of the processed finely dispersed compositions of different composition and physico-mechanical properties on the same granulating screw press with easily feasible rapid replacement of a set of elastic liners.

Claims (1)

A granulating screw press for processing highly concentrated polydisperse compositions with increased viscosity, limited shear strength and low adhesive ability, comprising a sleeve located in the housing with reefs on its inner surface, a screw and a multi-channel press tool, characterized in that the reefs are made of trapezoidal shape with a narrow base outward and filled with elastic liners.

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