RU2331480C1 - Screener - Google Patents

Abstract

FIELD: mining engineering.

SUBSTANCE: screener comprises a box, vibration exciter having variable frequency and vibration amplitude, concentration cell in the form of a plate with wear-resistant ribbed coating of integral transverse ribs with at least one longitudinal groove having variable depth and coupled on the lower level with inter-rib spacer by side holes made in the cheeks of the longitudinal groove and with longitudinal vertically positioned walls, being tightly connected with outer ends of transverse ribs. Transverse ribs are inclined towards the longitudinal groove and tilted to the charging side, being made with variable quantity, height and angle of slope. Side holes in cheeks of the longitudinal groove are made in successive groups following one another, hole sizes increasing gradually in the reverse direction from the charging side. Side holes in each group are slotted, slots being located directly over the concentration cell plate surfaces in the direction of the longitudinal groove. Pyramid reception pockets with outlet fittings in lower part are located under the side holes of each group and along the longitudinal groove, their vertexes being downward.

EFFECT: increase in efficiency of minerals gravity concentration with simultaneous particle size classification.

2 cl, 3 dwg

Description

The invention relates to the field of mineral processing, and in particular to apparatus for gravity processing, and can be used to extract a useful component from various granular materials with simultaneous separation of the material by particle size.

Known rumble concentrator / 1 /, including a box with a sowing surface, a vibration exciter, a concentration element in the form of transverse ribs and a longitudinal groove mated at the lower level with intercostal cavities through lateral openings, the transverse ribs have a slope in the direction of the longitudinal groove and tilt to the loading side rumble-concentrator, and it is possible to change their quantity, height and angle of inclination, the ribbed coating of the concentration element is made wear-resistant, the box and the sowing surface with a concent the ionic element has the ability to change the frequency and amplitude of vibration, the concentration element is made in the form of a thin-layer non-perforated plate, the transverse ribs of which are integral with the plate, the longitudinal groove has side walls, the side holes are made in these walls, the thin-layer plate is provided with longitudinal, vertically arranged and tightly walls connected to the outer ends of the transverse ribs.

The disadvantage of the screening concentrator / 1 / is the lack of the necessary structural elements in it, which make it possible to concentrate the material of a wide range of fineness and to continuously withdraw fractions of different fineness and increased density into separate products.

The closest in technical essence and the achieved result is a vibration concentrator, including a box, a vibration exciter, a concentration element in the form of transverse ribs and a longitudinal groove conjugated at the lower level with intercostal cavities by means of side holes, the transverse ribs have a slope in the direction of the longitudinal groove and tilt to the loading side vibroconcentrator, and it is possible to change their number, height and angle, the ribbed coating of the concentration element is made wear-resistant, the box with the concentration element can change the frequency and amplitude of vibration, the concentration element is made in the form of a plate, the transverse ribs of which are integral with the plate, the longitudinal groove has side walls, the side holes are made in these walls, the plate is provided with longitudinal, vertically located and tightly connected with the outer ends of the transverse ribs walls / 2 /.

The disadvantage of this device is the lack of necessary structural elements in it, which allow to continuously concentrate the material of a wide range of particle sizes and to continuously withdraw fractions of various sizes and increased densities into individual products.

The aim of the invention is to increase the efficiency of gravitational enrichment of minerals by improving the conditions of the vibrodynamic separation of mineral mixtures of a wide range of particle sizes and the continuous removal of fractions of various sizes and high densities into individual products.

This goal is achieved by the fact that in the screening device, comprising a box, a vibration exciter installed with the possibility of changing the frequency and amplitude of vibration, the concentration element in the form of a plate with a wear-resistant ribbed coating made of transverse ribs made at the same time with the plate with at least one longitudinal groove, made with a variable depth, and conjugated at the lower level with intercostal cavities by means of side holes made in the side walls of the longitudinal groove, and with longitudinal, vertical walls that are vertically located and are tightly connected to the external ends of the transverse ribs, the transverse ribs have a slope in the direction of the longitudinal groove and tilt to the loading side and are configured to change their number, height and angle, the side holes in the side walls of the longitudinal groove are made sequentially arranged one after another another groups of these holes with increasing hole sizes from group to group in the direction from the device loading, the side holes of each of the groups are made left-shaped with slots located directly above the plate surface of the concentration element in the direction of the longitudinal groove, under the side holes of each of the groups there are pyramidal receiving pockets located along the longitudinal groove with the top facing down with outlet pipes in the lower part, the number of longitudinal grooves in the concentration element is more one.

When creating the invention, the authors proceeded from the following.

With vibrations of the layer of enriched material, minerals with a higher density with respect to minerals of waste rock tend to occupy the lowest level in this layer, and with multi-frequency vibrations, the smallest particles also tend to occupy this level. Therefore, in vibratory feeders or on vibrating screens, in particular multi-frequency ones, it is advisable to additionally create conditions for the concentration and withdrawal of such minerals and particles into separate products. To do this, it is rational to place the concentration element in the zone of multi-frequency vibrations and make it wear-resistant (for example, from titanium, polyurethane, rubber, fluoroplastic, plastic, etc.) in the form of a ribbed coating with transverse ribs made integral with the plate. The concentration element must have at least one longitudinal groove, the inner cavity of which at the lower level should mate with the intercostal cavities through the side openings. The transverse ribs should have a slope in the direction of the longitudinal groove and a slope in the loading direction. The concentration element must be able to change the frequency and amplitude of the vibrations. Side holes must be made in series of successive groups of these holes with increasing hole sizes from group to group in the direction from the loading of the device. The lateral holes of each of the groups are rational to make slit-like with the arrangement of slots directly above the surface of the plate of the concentration element in the direction of the longitudinal groove. Under the side openings of each of the groups, it is necessary to place pyramidal receiving pockets located along the longitudinal groove. The pyramidal receiving pockets with their tops should be facing down. At the top of the pockets, the outlet pipes must be secured.

The invention is illustrated by drawings, where in Fig.1 shows a General view of the device for screening, Fig.2 is a top view of it, Fig.3 is a view of the concentration element along section AA.

The screening device includes a box 1, mounted by means of shock absorbers 2 on the support frame 3, and designed to create the necessary vibrations of the working bodies of the vibration exciter 4. On the working body of the box 1 is placed a concentration element 5 with transverse ribs 6 and with a longitudinal groove 7, conjugated at the lower level with intercostal cavities 8 by means of side holes 9. The number of longitudinal grooves 7 in the concentration element 5 may be more than one, depending on the width of the screen.

To improve the transportation of high-density mineral grains to the longitudinal groove 7, the transverse ribs 6 are inclined in the direction of the longitudinal groove 7, and to better retain these mineral grains in the intercostal depressions 8, the transverse ribs 6 are inclined towards the loading side of the screen.

In order for the finest and most slimy particles of the useful component to enter the concentrate and not to go to the tails through loose connections of the concentration element to the duct, the concentration element 5 is made in the form of a plate 10, the transverse ribs 6 are made integral with the plate.

In order that the material to be enriched does not fall into the longitudinal groove 7, the longitudinal groove has protective side walls 11. The side holes 9 are made at the lower level of the protective side walls 11. The plate 10 is provided with longitudinal walls 12, vertically located and tightly connected to the outer ends of the transverse ribs 6 , as well as the end wall 13 from the loading side of the apparatus.

The side holes 9 in the side walls 11 of the longitudinal groove 7 are made sequentially arranged one after another in groups 14-16 of these holes with the size of the side holes 9 increasing from group to group in the direction from the loading of the device. The side holes 9 of each of the groups 14-16 are slit-shaped with the slots located directly above the surface of the plate 10 of the concentration element 5 in the direction of the longitudinal groove 9. Under the side holes 9 of each of the groups 14-16 there are pyramidal receiving pockets 17 with a vertex located along the longitudinal groove 9 facing down. At the tops of the pyramidal pockets, outlet pipes 18 are fixed.

A screening device operates as follows.

A material containing solid particles of various sizes and densities is fed to the concentration element 5, where it is separated by particle size and density.

Heavier mineral grains and the finest and finest particles of material occupy the lowest position in the vibrating layer and along the intercostal cavities 8, sliding along the ribs 6, move to the longitudinal groove 7, enter it through the side holes 9. The movement of heavy mineral grains and the smallest and thin particles of material to the longitudinal groove 7 contributes to the slope of the transverse ribs 6 in the direction of the groove 7, and their retention in the intercostal cavities 8 contributes to the inclination of the ribs 6 in the loading side of the apparatus.

The concentration element 5 made in the form of a plate 10 ensures that all the finest and most slimy particles of the useful component enter the concentrate and does not allow them to go into the tails through loose junctions of the concentration element to the duct 1. This is also facilitated by the fact that the transverse ribs 6 are integral with the plate 10 The protective side walls 11 do not allow the material to be enriched into the longitudinal groove 7 and dilute the concentrate, and the vertically located longitudinal walls 12, tightly connected to the external torus s transverse edges 6 and the transverse wall 13 do not allow the enriched material, especially fine and slimy parts thereof, beneath the plate 10 to leave the concentration element 5 and lost with tails.

The adjustment and regulation of the process of vibroconcentration and fractionation of the material is carried out by changing the frequency and amplitude of vibration of the box 1 and the concentration element 5, by changing the angle of inclination of the box 1, size, quantity, height and angle of inclination of the transverse ribs 6, the cross-sectional area of the side holes 9 and their shape, the value of the technological load in the power supply of the device.

Thus, the proposed technical solution in comparison with the prototype will allow, by improving the vibrodynamic separation of mineral mixtures and removing fractions of various sizes and high densities into separate products, increase the efficiency of gravitational enrichment of minerals of a wide range of sizes.

Information sources

1. Patent of the Russian Federation N 2284865 "Screen-hub". M.N. Zlobin, E.M. Zlobin, A.M. Zlobin. N 2005113214/03 dated 03.05.2005.

2. Patent of the Russian Federation No. 2284864 "Vibroconcentrator". M.N. Zlobin, E.M. Zlobin, A.M. Zlobin. N 2005114815/03 from 05.16.2005 (prototype).

Claims (2)

1. The device for screening, comprising a box, vibration exciter installed with the possibility of changing the frequency and amplitude of vibration of the concentration element in the form of a plate with a wear-resistant ribbed coating made of transverse ribs integrally with the plate with at least one longitudinal groove made with a variable depth and conjugated at the lower level with intercostal cavities by means of side holes made in the side walls of the longitudinal groove, and with longitudinal, vertically arranged and tightly connected connected with the outer ends of the transverse ribs by the walls, the transverse ribs have a slope in the direction of the longitudinal groove and tilt to the loading side and are configured to change their number, height and angle of inclination, characterized in that the side holes in the side walls of the longitudinal groove are made in series another groups of these holes with increasing hole sizes from group to group in the direction from the device loading, the side holes of each of the groups are slotted with dix slots immediately above the surface concentration of the element plates in the direction of the longitudinal grooves under the lateral holes of each group are arranged along the longitudinal grooves pyramidal receiving pockets with the vertex facing downwards with an outlet at the bottom. 2. The screening device according to claim 1, characterized in that the number of longitudinal grooves in the concentration element may be more than one.

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