SU1033203A1 - Centrifugal hydraulic classifier - Google Patents

Abstract

CENTRIFUGAL HYDRAULIC CLASSIFIER, including cylindrical housing, pitakadiy nozzle, condensed product nozzle, drain nozzle, cover, air chamber, characterized in that, in order to improve the performance and efficiency of classification due to the effect of air vibrations on the classic material, the gymnastics programmer will apply to the class maker, in a gymnastics artworker. the camera is mounted on a hook, communicated with the cavity klassifikatot a and made in the form of a hollow ring.

Description

This invention relates to the enrichment of minerals and can be used in the coal, mining, chemical and other industries.

A hydraulic classifier is known, including a housing, loading and unloading nozzles, and an air chamber D1.

A disadvantage of the known classifier is insufficient performance and low separation efficiency. This is due to the fact that the separation of the material is carried out only under the force of gravity and the inertia of the flow of the liquid network.

The closest to the invention to the technical essence and the achieved result is a centrifugal hydraulic classifier, which includes a cylindrical body, a supply nozzle, a nozzle of a thickened material, a drain nozzle, an air chamber t 2.

The disadvantage of this classifier is the additional turbulization of the pulp flow in the conical part of the apparatus, which leads to an increase in the intensity of mixing of the condensed product and significantly reduces the productivity and efficiency of the classification.

The purpose of the invention is to increase the productivity and efficiency of classification due to the effect of air vibrations on the material being classified.

The goal is achieved by the fact that a centrifugal hydraulic classifier, including a cylindrical body, a supply nozzle, a nozzle of condensed material, a drain nozzle, a lid, an air chamber, is equipped with a pulsator, an air chamber is installed on the lid, communicated with the cavity of the classifier and made in the form of a hollow ring.

FIG. 1 shows a centrifugal hydraulic classifier (section A-A in FIG. 2); in fig. 2-section BB in FIG. one.

The centrifugal hydraulic classifier consists of a cylindrical housing 1, a power supply nozzle 2, a condensate product nozzle 3, a drain pit, a cabin 4. In the upper part of the classifier, the air chamber 6 is arranged in the form of a hollow ring and connected to the classifier cavity.

Periodic compressed air to create an oscillatory motion

Water is produced using a pulsator 7 made, for example, in the form of an air-slide mechanism.

Centrifugal hydraulic classifier works as follows

The initial pulp enters the classifier tangentially through the supply nozzle 2. At the same time, compressed air enters the air chamber 6 to create forced water oscillations in the classifier. Under the action of centrifugal forces, part of the source material is thrown to the walls of the housing 1. The main part of the material being divided as a result of the action of centrifugal force regroup in such a way that the particle size decreases from the inner wall of the housing 1 to the axis of the classifier. At the same time, for larger particles, concentrated in the annular space G, under the effect of the total flow, which is the result of imposing the forced oscillations on the flow from the pulsator 7, the sedimentation rate increases. These particles, together with the largest ones, move down the conical part of the housing 1 and are removed through the nozzle 3 of the thickened material.

Shallow 4acjTHn is classified from the bottom of the drain port 4 in the total flow ,. l right-up and characterized. mom greater speed of removal of particles in the sink. i

The advantage of the proposed construction is the maximum use in the working space of the apparatus by the effect of forced vibrations on the material being classified. The directional influence of oscillations of a certain frequency and amplitude on the grains of various sizes in combination with the action of centrifugal force allows reducing the mixing intensity, i.e. increase process productivity and improve classification efficiency.:

G., The use of the proposed centrifugal hydraulic classifier makes it possible to reduce the content of the class-0.5 mm in the condensed product from 15–20 to 2%, and the content of the class + 0.5 mm in the drain, respectively, from 3–10 up to 0.6-1%, i.e. increase the efficiency of the process by 4-5% while increasing its productivity by 10-15%.

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Claims (1)

CENTRIFUGAL HYDRAULIC CLASSIFIER, including a cylindrical-conical housing, a supply pipe, a condensed product pipe, a drain pipe, a cover, an air chamber, characterized in that, in order to increase the productivity and classification efficiency due to the influence of air vibrations on the classified material, the classifier is equipped with a pulsator, an air chamber installed on kryaike, communicated with the classifier cavity and made in the form of a hollow ring. then ι ^pi n ^