SU1655576A1 - Apparatus for counter-current gravity concentration of minerals - Google Patents

Abstract

The invention relates to the enrichment of minerals, namely, the separation of granular materials in density, greater than the density of the separation medium (PC), and can be used in the beneficiation plants and plants for the enrichment of coal, shale and other minerals. The purpose of the invention is to improve the quality of enrichment products by creating an optimal tight gradient.

Description

The invention relates to the enrichment of minerals, namely, the separation of granular materials in density, greater than the density of the separation medium, and can be used in the beneficiation plants and plants for the enrichment of coal, shale and other minerals.

The aim of the invention is to improve the quality of enrichment products by creating an optimal separation density gradient along the channel.

FIG. 1 schematically shows the proposed device, a longitudinal vertical section; in fig. 2 - section AA on fi 1.

The device is made in the form of a closed inclined expanding channel 1 of rectangular cross-section, equipped with you-Movable transverse plates 2 with bandage lifting mechanisms 3 and a loading pipe 4. To the bottom of the channel 1 is attached a discharge device for the heavy fraction (elevator, rotary unloader and others) through which a separation medium (water or air) with adjustable flow rate is fed into channel 1 under pressure. Plates 2 are mounted with the possibility of independent movement one relative to another.

The mean angle / 3 of the diffusivity of the side walls of the channel 1 is 3-10 °, and the ratio of the cross sections at the inlet and outlet of the channel 1: 1.2-1.7.

The ratio of the cross sections at the channel inlet and outlet depends on the densities of heavy and light fractions and the number of industrial products in the initial mixture and is determined experimentally. For light and medium coal, this ratio should be 1: 1.2-1.7. When K is less than 11.2 for a given average diffuse angle

the working area of the channel is shortened, reducing the number of cleaning cells, which leads to a decrease in the productivity of the device or deterioration of the quality of the concentrate and waste. When K is greater than 1: 1.7, the circulation load on the device increases, light fractions may prematurely fall into the bottom layer and be carried away by heavy material to exit from

waste devices. This leads to an increase in the consumption of the separation medium and a decrease in the quality of enrichment products.

The optimal ratio of the inlet and outlet sections of the channel, equal to 1: 1.21, 7, reduces the circulation loads, ensures sufficient performance of the device, thereby intensifying the separation process, allowing to ultimately produce more

High Quality.

Independent movement of the transverse plates provides additional operational adjustment of the enrichment process, allowing you to set the gaps,

corresponding to optimal hydrodynamic conditions in the working area.

The device works as follows.

The source material through the boot

the pipe 4 enters the inclined expansion channel 1, which is made of transverse plates 2 from above. With the help of screw lifting mechanisms 3, the transverse plates 2 are set in the position

providing optimal hydrodynamic conditions in the working area for a given performance and quality of raw materials. Getting into the upward flow of the separation medium, the material is distributed in pockets between the plates, in which, due to the expansion and deceleration of the flow, movable inclined dunes with circular circulation of solid particles - vortex separating cells are formed. With a constant flow of fresh portions of the source material between adjacent cells, a mass transfer process is established for displacing and replacing some grains with others, leading to a concentration of heavy grains in the lower cells and light ones in the upper ones.

5 In principle, this process is similar to what is happening in known devices, but due to the density gradient of separation, due to the diffusivity of the side walls of channel 1, it is intensified, i.e. separation efficiency is increased both in a separate vortex cell and in the dividing chain as a whole.

Claims (1)

Apparatus of the Invention A device for countercurrent gravity beneficiation of minerals, including a closed oblique A rectangular section channel, movable transverse plates mounted in the channel, partially overlapping the section from above, and a loading tube, characterized in that, in order to increase the quality of the enrichment products by creating an optimal separation density gradient along the channel, the side walls of the channel are made with an average angle of diffusion of 3-10 °. when the ratio of cross sections at the channel inlet and outlet is 1: 1.2-1.7, and the transverse plates are installed with the possibility of independent movement of one relative to another. FIG. 2