SU1319902A1 - Dredger-sump - Google Patents

Abstract

The invention relates to mineral processing technology and improves the quality of the concentrate by increasing the degree of separation by size. A distribution chute 2 with feed nozzles (C) 3 adjoins the housing I with the bottom. Iodine C 3 has a collector (K) 4 with system C 5. Iodine K 4 has an additional K 6 with C 7. This C 7 is installed at an angle to the bottom of the housing 1 and C 7 on different halves of the K 6 are turned toward the adjacent half. The angle of rotation C 7 decreases from the center of the collector to the periphery. The outlet openings C 7 are lower in one half than in the other. Julia, via chute 2, flows through the C 3 into the housing 1. The working medium (for example, air and technical water) is supplied to K 4, 6 and to C 5, 7. The medium leaving C 5 creates an upward flow of fluid. It flushes small particles into the drain chamber 8, the large particles settle to the bottom and are carried away by the elevator 9. The jet stream created by the working medium flowing from C 7 creates a curtain. It does not allow the upstream flow coming from the bottom, created by the lifting troughs of the elevator 9, to transfer the particles deep into the flow, and also large particles from small particles are separated in this curtain. 2 Il. I SL CO with CO O N3

Description

This invention relates to mineral processing technology and can be used to separate particles by size.

The aim of the invention is to improve the quality of the concentrate by increasing the degree of separation by size.

FIG. 1 schematically shows a bumper bump; in fig. 2 - additional manifold with nozzles.

A distribution chute 2 is connected to the housing 1 of the bumper sump with supply nozzles 3, below which a collector 4 is installed with nozzles 5. An additional collector 6 is installed below the collector 5

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from the nozzles 7, it comes to the wall of the housing 1, adjacent to the discharge chamber 8, then a large part of the flow turns upwards together with small particles, and a smaller part turns to the bottom. Due to the fact that the nozzles on different half of the collector are inclined toward the adjacent half, it is possible to create a continuous curtain over the elevator. In addition, since the openings of these nozzles are at different heights, the slurry at one height will move in one direction and the other in the opposite direction. Due to the fact that the jet energy decreases with distance from the nozzle, the speed of movement at some distance from the nozzle will become small, as a result of which

with nozzles 7. Chamber 8 is adjacent to housing 1, part of the flow will turn down or up,

plum. Inside the housing 1 is placed an elevator 9 with a casing 10.

Bagger sump works as follows.

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Pulp on the chute 2

The nozzles 3 enter the housing 1. The working medium is supplied to the collectors 4 and b, and from there to the nozzles 5 and 7 (to the collectors 4 and 6, wound media, such as air and technical water) can be supplied. The medium coming out of the nozzles 5 creates an upward flow of liquid, which flushes the finest, most ash fractions of the solid phase into the overflow chamber 8 (discharge chamber), which allows for the enrichment of coal to reduce the ash content by 1.5%. Large particles are deposited on the bottom and carried out by the elevator 9, which is closed in the housing 10, with the exception of the bottom. However, the rising buckets of the elevator create an upward flow near the bottom, which carries along part of the settled particles. The jet flow created by the working medium flowing from the nozzles 7 creates a curtain that does not allow the upward flow coming from the bottom to transfer particles into the depth of the flow. In addition, in this veil, further separation of large

In the central part of the apparatus, an intense vortex (screw) with increasing radius from the nozzles to the wall, connecting to the discharge chamber, will occur. Large particles under the action of centrifugal force through the power of 20 Noah will be carried out of this vortex flow and deposited on the bottom, and small particles will be carried away into the drain chamber.

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Claims (1)

Invention Formula A bumper sump, comprising a housing with a bottom, an adjacent distribution chute with feed nozzles, a drain chamber, an elevator housed in the housing and a collector located under the feeding nozzles with a nozzle system for supplying additional working medium, characterized in that concentrate by increasing the degree of separation by size, it is equipped with an additional collector with nozzles installed under the main collector with nozzles, while the nozzles of the additional collector are installed at an angle to the bottom of the case, the nozzles on different halves of the additional collector are turned towards the adjacent half, and the angle of rotation of the nozzles of the particles from the smaller ones. Large particles are deposited from the center of the collector to the periphery, and small particles are carried away by a jet, with the outlet nozzles on one flow in the drain chamber. Since the jets half are lower than the other. tWH№V Compiled by E. Kiseleva Tehred I. Veres Corrector A. Zimokosov Circulation 511 Subscription VNIIPI USSR State Committee for Inventions and Discoveries 113035, Moscow, Zh-35, Raushsk nab. 4/5 Production and printing company, Uzhgorod, ul. Project, 4 0 from the nozzles 7, it comes to the wall of the housing 1, adjacent to the discharge chamber 8, then a large part of the flow turns upwards together with small particles, and a smaller part turns to the bottom. Due to the fact that the nozzles on different half of the collector are inclined toward the adjacent half, it is possible to create a continuous curtain over the elevator. In addition, since the openings of these nozzles are at different heights, the slurry at one height will move in one direction and the other in the opposite direction. Due to the fact that the jet energy decreases with distance from the nozzle, the speed of movement at some distance from the nozzle will become small, as a result of which 5 part of the flow will turn down or up, with Invention Formula A bumper sump, comprising a housing with a bottom, an adjacent distribution chute with feed nozzles, a drain chamber, an elevator housed in the housing and a collector located under the feeding nozzles with a nozzle system for supplying additional working medium, characterized in that concentrate by increasing the degree of separation by size, it is equipped with an additional collector with nozzles installed under the main collector with nozzles, while the nozzles of the additional collector are installed at an angle to the bottom of the casing, the nozzles at different halves of the additional collector are turned towards the adjacent half, and the angle of rotation of the nozzles decreases from the center of the collector to the periphery, with the outlet nozzles on one half lower than the other. ".OI-N Phi. 2