RU1776458C - Centrifugal classifier - Google Patents

Abstract

Usage: the separation of polydisperse bulk materials using centrifugal forces. SUMMARY OF THE INVENTION: The classifier comprises coaxially arranged, one in the other, respectively, cylindrical outer casing, inner casing and flow distributor. Between the cylindrical parts of the inner casing and the flow distributor, swirl vanes are mounted attached respectively to the outer and inner surfaces of the cylindrical parts of the flow distributor and the inner casing. The upper and lower covers and nozzles for supplying raw material and removal of small and coarse product and an intermediate nozzle fixed to the lower conical part of the inner case and covering the nozzle for supplying raw material with a gap are installed on the outer casing. A cylindrical shell with additional twisting blades fixed on its inner surface is installed between the outer and inner bodies with a gap. Spinning vanes are rigidly connected to the inner casing and the flow distributor and are mounted for axial movement. The flow distributor is connected to the top cover of the outer casing by means of screw pairs. 1 ill. (L

Description

The invention relates to devices for separating polydisperse bulk materials into fractions, in particular to centrifugal classifiers, and can be used in the construction materials industry, chemical technology, energy and other industries.

A centrifugal classifier is known, including a cylindrical conical housing and a flow distributor, swirl vanes installed between the cylindrical parts of the housing and the flow distributor, the upper and lower covers of the housing, respectively, with branch pipes for the removal of small and coarse products, a branch pipe for supplying the initial product 1.

The source material, together with the air, is supplied from below through the feed pipe. In the gap between the conical parts of the cylinder-conical housing and the distributor, the largest particles fall out of the stream, which are deposited on the bottom cover and are poured through the coarse product chute. Then, with the remaining particles, it is twisted in twisting vanes and enters the centrifugal-countercurrent separation zone formed by the housing, the top cover and the cylinder-conical

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dispenser. Under the influence of the prevailing centrifugal forces, large particles move to the periphery, settle on the inner cylindrical surface of the casing and are poured through twisting vanes onto the bottom cover, after which they are discharged through the coarse product chute. Small particles under the influence of the prevailing forces of entrainment by the air flow move to the axis of the classifier and are removed together with the air through the discharge pipe.

A disadvantage of the design is the low separation efficiency of the material due to the following factors. Firstly, the large particles of the centrifugal countercurrent stage have a difficult passage to the coarse product flow, as they move through the swirl vanes towards the flow. As a result of this, some of them, without additional classification, are again picked up by the flow, carried out into the centrifugal countercurrent zone and returned again. This leads to the presence of a parasitic circulating particle stream, increasing the local concentration of the material in the air and reducing the separation efficiency. Secondly, in the centrifugal-flow-through separation zone, a single classification of particles occurs, and particles that mistakenly enter a product that does not correspond to their size remain in it permanently, which also reduces the separation efficiency.

The closest in technical essence and the achieved effect to the claimed is a centrifugal classifier, including coaxially located, one in the other, respectively, cylindrical outer casing, inner casing and flow distributor, swirl vanes installed between the cylindrical parts of the inner casing and the distributor flow, upper and lower covers of the outer casing, respectively, with branch pipes for the removal of small and coarse products, a branch pipe for supplying the initial product and intermediate atrubok attached to the lower conical portion of the inner body 2.

An increase in the separation efficiency is achieved due to the unhindered removal of large particles from the centrifugal countercurrent zone, which, after settling on the inner cylindrical surface of the outer casing, are poured through the annular gap between the outer and inner casing, bypassing the axial swirling apparatus and not moving towards the main gas and dust flow . Reaching

bottom lid, coarse particles are discharged through the coarse estrus heat.

A drawback of the design is the limited separation efficiency, since a single classification of the material is maintained in the centrifugal countercurrent separation zone.

The purpose of the invention is to increase the classification efficiency.

0 The goal is achieved by the fact that the centrifugal classifier, including located coaxially, one in the other, respectively, cylindrical outer housing, inner housing and

5 a flow distributor, swirl vanes installed between the cylindrical parts of the inner casing and the flow distributor, the upper and lower covers of the outer casing, respectively, with branch pipes for the removal of small and coarse products, a supply pipe for the initial product and an intermediate pipe attached to the lower conical part of the inner case, equipped with a cylindrical shell with additional twisting blades fixed on its inner surface, located with gaps between the external and external morning hulls, with spinning blades

0 are fixed respectively to the outer and inner surfaces of the cylindrical parts of the flow distributor and the inner case, which are mounted with the possibility of axial movement, and the intermediate pipe covers with a gap the supply pipe of the source material, in addition, the flow distributor is connected to the upper cover of the outer case by means of screw steam

0 Achieving this goal is determined by the re-classification of thin (fine) material obtained in the separation zone formed by a cylindrical shell and a distributor, this

5, the material is re-separated in the distribution zone formed by the outer casing, the upper lid and the distributor, and large particles from both separation zones are discharged without encountering a gas-dust stream to the lower lid of the outer casing and then through the coarse product flow.

Achieving this goal is ensured by placing between the external and

5 by inner bodies with gaps relative to their cylindrical shell with additional twisting blades fixed on its inner surface, while twisting blades are attached respectively to

external and internal surfaces of the cylindrical parts of the flow distributor and the inner housing, which are mounted for axial movement.

The combination of distinctive features leads to the emergence of a new property - re-classification of a thin product, which leads to a positive effect - to increase the classification efficiency formulated for the purpose of the invention.

The distinguishing feature associated with the installation of screw pairs is auxiliary and serves to reconfigure the classifier to another separation boundary. This distinguishing feature is known. However, in the known technical solution, only the second classification stage is changed with the help of screw pairs, since the screw pairs are connected only with the freely suspended cover of the internal distributor, and the first and second stages are simultaneously changed in the claimed solution classifications, since the screw pairs are connected to the distributor, and the latter, in turn, is connected through twisting blades to the inner casing.

The drawing schematically shows a centrifugal classifier, a longitudinal section.

The classifier consists of an external cylindrical-conical housing 1, a top cover 2 with a discharge pipe 3 and a lower cover 4 with a coarse product flow 5. Coaxially to the outer case there is an inner cylinder-shaped housing 6, an intermediate pipe 7 is attached to its lower part, which covers the pipe with a gap supply of raw material 8.

In the inner case 6 there is a cylindrical flow distributor 9 connected to the top cover 2 through screw pairs 10. Between the cylindrical parts of the inner case 6 and the distributor 9 there are twisting blades 11. Between the outer 1 and the inner 6 cases there are gaps relative to their cylindrical shell 12 with additional twisting vanes 13 fixed on its inner surface,

Centrifugal classifier works as follows.

The source material is supplied with air through the supply pipe 8, moves in a radial clearance between the inner cylinder-conical body 6 and the cylinder-conical flow distributor 9, twists in twisting blades 11 and enters the separation zone formed by the cylindrical part of the distributor 9 and the shell

12, Coarse particles under the influence of the prevailing centrifugal forces are discarded to the periphery, are deposited on the inner surface of the shell 12, are poured into the annular gap between the inner casing 6

0 and a shell 12 to the bottom cover 4 and are led out through the coarse product groove 5. The fine particles move upward by the prevailing forces of entrainment by the gas flow. Particle stream

5 is twisted by additional twisting blades 13 and enters the centrifugal countercurrent separation zone, formed in the axial direction by the upper cover 2 and the distributor 9, and in

0 radially by the outer casing 1. where the fine particles are subjected to repeated centrifugal classification. The large particles emitted in this case, mistakenly falling into a small product in the lower zone of section 5, are deposited on the inner surface of the housing 1, are poured through the annular gap between the buildings 1 and the casing 9 onto the lower cover 4, and they are discharged through the coarse product groove 5. Small particles together

0, they are sucked out with gas through the discharge pipe 3. By means of screw pairs 10, the position of the distributor 9 is changed, while the rotary blades 11, the inner housing 6 and the intermediate nozzle 7 are moved together with the distributor. Since the additional screw blades 13 and the upper cover are stationary, simultaneous change in the height of both separation zones, which allows

0 to adjust the separation boundary.

Claims (2)

Thus, in the centrifugal classifier, an increase in the efficiency of separation of the starting material into coarse and fine fractions is achieved by repeated classification of the fine product. SUMMARY OF THE INVENTION 1. A centrifugal classifier comprising coaxially arranged, one in the other, respectively cylindrical outer housing, inner housing and flow distributor, swirl vanes installed between the cylindrical parts of the inner housing and flow distributor, the upper and lower 5th covers of the outer housing, respectively, with nozzles removal of small and coarse products, a pipe for supplying the initial product and an intermediate pipe fixed to the lower conical part of the inner rpusa, characterized the fact that, with the chain for increasing the classification efficiency, the classifier is equipped with a cylindrical shell with additional twisting blades fixed on its inner surface, located with a gap between the outer and inner cases, while the twisting blades are fixed respectively to the outer and inner surfaces of the cylindrical parts of the flow distributor and of the inner casing, which are mounted with the possibility of axial movement, we accept an intermediate pipe that covers the pipe Source code. 2. Classifier pop 1, with the exception of the fact that the flow distributor is connected to the upper cover of the external housing by means of screw pairs / J 5