SU1037971A1 - Apparatus for concentrating minerals - Google Patents

Abstract

A DEVICE FOR ENRICHMENT OF USEFUL MINERALS containing a delivery unit made in the form of a conveyor, an electronic measuring unit, a separating mechanism, an inspection chamber with a lid, on one of the side walls of which there is a background plate, on which lopUciM are the sources of illumination and on the opposite - a photo sensor with a protective screen, characterized in that, in order to increase the productivity and quality of billows of transparent materials, the inspection chamber is equipped with an additional screen rigidly mounted on the side the wall of the chamber and installed under the background plate, while the inner surface of the inspection chamber with a lid is made (O on of the light-absorbing material. s with: O

Description

The invention relates to the separation of solid materials and can be used for the enrichment of useful minerals in photometric separators according to the degree of transparency of the raw material, such as vein quartz, fluorite, etc.

An apparatus for enriching transparent materials is known, comprising a conveyor, a separating mechanism, an electronic measuring unit and an inspection chamber comprising light sources and photosensors 1J.

The disadvantage of this device is the low productivity and quality of sorting the raw material when it is divided according to the degree of transparency.

The closest to the proposed technical essence and the achieved effect is a device for enrichment of minerals, containing a feed unit, made in the form of a conveyor, an electronic measuring unit that separates the mechanism, an inspection camera with a lid, on one of the side walls the background plate is located at the ends of which are placed sources of illumination, and on the opposite side there is a photo sensor with a protective screen 2.

A disadvantage of the known device is that the photo sensor detects the total luminous flux due to the degree of transparency of a piece of quartz and the total reflectivity of its surface. As a result, there is a need for multiple cleanings of separation products, which reduces the performance of the enrichment process, the quality of the final product

The purpose of the invention is to increase the productivity and quality of sorting transparent materials.

This goal is achieved by the fact that in the device for mineral processing, containing a feed unit, made in the form of a conveyor belt, an electronic measuring unit, a dividing mechanism, an inspection chamber with a lid, on one of the side walls of which the background is located. a plate with the light sources at its ends, and on the opposite side a photo sensor with a radiation screen, the inspection camera is equipped with an additional screen rigidly mounted on the side wall of the chamber and installed under the background plate, while the inner surface of the inspection chamber With a lid made of absorbing material.

The drawing shows devices for a common fork. The device contains a raw material supply unit in the form of a conveyor 1, an electronic measuring unit 2 connected to a separating mechanism J,

inspection chamber 4 with a cover L, the inner surface of which has a coating of a material with a high light absorption coefficient, for example black. Camera 4 inspection has an inlet 6. On the one of the side walls of the camera inspection is replaceable background

plate 7, and on the opposite photo sensor 8, whose field of view is focused on the plate, 7. On

The side wall 9 of the inspection chamber underneath the background plate 7 is rigidly fixed to the screen 10 having a white or mirror coating. At the ends of the inspection chamber and on the wall on which the background plate 7 and screen 10 are located, sources 11 and 12 of light are installed, respectively, with corresponding protective screens 13 and 14, which are rigidly fixed on the lid 5. As a result, two light streams are created in the inspection chamber directed from the background plate 7 and the reflecting screen 10 towards the wall of the inspection chamber on which the photosensor 8 is mounted. At the same time, only the light flux coming from the background plate 7 enters the photosensor 8 collimation of the field of view of the photosensor b and, secondly, as a result of coating

The inner walls of the chamber are material with a high light absorption coefficient.

The device works as follows.

Before separation, a background plate 7 is installed in the inspection chamber, the reflectivity of which is experimentally chosen so that the signal recorded by the photosensor 8 when a piece of quartz 15 with the boundary content of gas-liquid inclusions / Lr enters the inspection chamber does not undergo changes. The value of L is determined as a result of special studies carried out according to generally accepted methods for evaluating the radiometric mineral dressability of the method.

When the piece and quartz 15 are separated, they enter the transport device 1 and, in free fall, successively one by one after the other through the opening b in the lid 5 enter the inspection chamber 4.

If a transparent piece of quartz 15 gets into the inspection chamber 4, the content of gas-liquid inclusions is less than the boundary L, then as a result of the internal reflection of light in a piece of quartz 15, the light sensor from the reflective screen 10 enters the photosensor 8 and as a result an electrical signal is generated, the magnitude of which exceeds that set at

device setting level. From the output of the photosensor 8, this signal enters the electron-non-measuring unit 2, which produces a command signal / activating separation mechanism 3. As a result, this piece of quartz 15 is directed to the concentrate product.

If a piece of quartz 15 with a content of gas-liquid inclusions / a large maximum allowable Lr enters the inspection chamber 4, then the luminous flux f is reduced to the photosensor 8 from the background plate 7, as a result of its partial absorption in the piece 15. Electric signal of a low level at the output of the photosensor 8 not detected by the electronic measuring unit 2, therefore a piece of quartz

15 along the path of free fall enters the tail separation product. As a result, quartz raw materials are separated according to the degree of transparency.

The installation of an additional screen in the inspection chamber of a mineral device provides a significant improvement in the quality of sorting, and, consequently, in its performance at the expense of a corresponding reduction in the number of cleaning operations.

Tests of the proposed device showed that the yield of quartz with increased transparency compared to the known device was doubled.

Claims (1)

DEVICE FOR ENRICHMENT OF USEFUL FOSSIL, containing a node 4 feed, made in the form of a conveyor, an electronic measuring unit that separates the mechanism, the inspection camera with a cover, on one of the side walls of which there is a background plate, at the ends of which there are light sources, and on the opposite - a photosensor with a protective screen, characterized in that, in order to increase the productivity and quality of sorting transparent materials, the inspection camera is equipped with an additional screen rigidly fixed to the side wall of the camera and installed under the background plate internal osm tra on from rial. , The surface of the chamber with a lid vypolnesvetopogloschayuschego Part _1st, SU ", 1,037,971 electron-measuring unit comprising istoch10