RU2322302C1 - Vibration concentrator - Google Patents

Abstract

FIELD: enrichment of minerals.

SUBSTANCE: vibration concentrator comprises box, vibration exciter, concentrating member made of plates and in block with the plates of transverse ribs, and longitudinal groove with variable depth conjugated with inter-rib hollows by means of side opening. The longitudinal groove has sides provided with openings. The plate is provided with longitudinal vertical walls that are rigidly connected with the outer faces of the transverse ribs. The transverse ribs are sloping in the direction of the longitudinal groove and are inclined to the charging side. The ribbed coating of the concentration member is wear proof, the concentrator receiver is mounted at the outlet end of the longitudinal groove, and the frequency and amplitude of vibration of the box and concentration member can be changed. The bottom of the longitudinal groove is perforated.

EFFECT: enhanced efficiency.

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 the useful component from various granular materials.

A known hub-hub, including a box with a sowing surface, a vibration exciter, a concentration element in the form of transverse ribs and a longitudinal groove with a variable depth, conjugated at the lower level with intercostal cavities through side openings, the transverse ribs have a slope in the direction of the longitudinal groove and tilt to the loading side moreover, it is possible to change their number, height and angle of inclination, the ribbed coating of the concentration element is made wear-resistant, at the output end of the longitudinal groove of the mouth the concentrate receiver is mounted, the box and the sowing surface with the concentration element have 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, side holes are made in these walls, the plate equipped with longitudinal, vertically located and tightly connected with the outer ends of the transverse ribs of the walls / 1 /.

The disadvantage of the screening concentrator / 1 / is the lack of the necessary structural elements in it, which make it possible to concentrate and control the smallest mineral grains of high density in a separate product.

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

The disadvantage of this device is the lack of necessary structural elements in it, which allow concentrating and regulating the output of the smallest mineral grains of high density into a separate product.

The aim of the invention is to increase the efficiency of gravitational enrichment of minerals by improving the conditions for the separation of mineral mixtures and the simultaneous continuous vibrodynamic removal of high density fractions of a wide range of particle sizes in a separate product, with the possibility of its controlled output.

This goal is achieved by the fact that in a vibration concentrator including a box, a vibration exciter, a concentration element in the form of plates and transverse ribs made integral with the plates, a longitudinal groove with a variable depth, conjugated at the lower level with intercostal cavities by means of side holes, the longitudinal groove has side walls, side holes are made in these walls, the plate is provided with longitudinal, vertically located and tightly connected to the outer ends of the transverse ribs walls, transverse the ribs have a slope in the direction of the longitudinal groove and tilt to the loading side, and it is possible to change their number, height and angle, the ribbed coating of the concentration element is made wear-resistant, a concentrator is installed at the output end of the longitudinal groove, the box and the concentration element can change the frequency and amplitude of vibration , the bottom of the longitudinal groove is made mesh, and for the upper part of the side walls of the longitudinal groove with side holes in its inner cavity articulated behind replays flap with a length not exceeding the length of the side walls, with the possibility of adjusting the angle of inclination.

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

With vibrations of the layer of enriched material, minerals with a higher density in relation to the minerals of waste rock tend to occupy the lowest level in this layer. Such conditions of vibration of the material layer are created in operating vibratory feeders and in screening operations. Therefore, in vibratory feeders or on the surface of a vibrating screen, it is advisable to additionally create conditions for the concentration and withdrawal of such minerals into a separate product. This can be achieved if structural elements are introduced on the bottom of the vibratory feeder or on the surface of the screening hub that will provide such conditions. In particular, for a vibratory feeder, it is rational to carry out the concentration element at the same time with the box or place it on the bottom and make it wear-resistant in the form of a ribbed coating with transverse ribs (for example, from titanium, polyurethane, rubber, fluoroplastic, plastic, etc.). The ribbed coating should 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. A concentrate collector should be installed at the output end of the longitudinal groove. The ribs should be inclined in the direction of the longitudinal groove and inclined in the loading direction.

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 box, it is rational to perform the concentration element along with the box or to make it in the form of a plate fixed to the box, the transverse ribs of which are expediently performed at the same time with a plate. In order for the enrichment material not to fall into the longitudinal groove, the longitudinal groove must have protective side walls with a height exceeding the height of the layer of enrichable material. The lateral openings connecting the intercostal cavities with the longitudinal groove should be made in this case in the side walls. The cross-sectional area of these side holes is advisable to change depending on the size of the enriched material, as well as on the content of particles of the useful component in this material. To exclude mechanical losses of particles of the useful component in the leakage of articulation of the concentration element with the duct of the vibroconcentrator, it is advisable to provide the plate with longitudinal, vertically located and tightly connected to the outer ends of the transverse ribs walls, as well as a transverse wall on the loading side of the apparatus. The height of these walls should also exceed the height of the layer of the processed material.

To withdraw the smallest particles of concentrate from the apparatus, the bottom of the longitudinal groove is advisable to perform mesh. To control the output of the concentrate, it is advisable for the upper part of the side walls of the longitudinal groove with side holes in its internal cavity to pivotally shut the valves with a length not exceeding the length of the side walls, with the possibility of adjusting the angle of their inclination. To adjust the inclination of the dampers, it is advisable to place removable weights of various weights in their longitudinal pockets at the bottom. This will allow to slow down the exit of the concentrate into the longitudinal groove from the intercostal cavities and, as a result, prevent its dilution by particles of light fractions.

The above concentration conditions are applicable to many types of mineral raw materials. In this case, the concentration efficiency especially increases when the grain density of the useful component is much higher than the density of the grains of waste rock, for example, in the processing of gold-bearing ores and sands, in the enrichment of rare-metal raw materials, tin ores, and many other types of raw materials similar and similar in terms of separation.

The invention is illustrated by drawings, in which Fig. 1 shows a general view of a vibro-concentrator, in Fig. 2 is a top view of a vibro-concentrator with a showing of its working ribbed coating, in Fig. 3 is a section A-A in Fig. 1, showing a mesh bottom of a longitudinal groove and adjustable flaps.

The vibroconcentrator 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 bottom of the box 1 is placed a concentration element 5, made integral with the box 1 in the form of a ribbed wear-resistant coating 6 with transverse ribs 7 having longitudinal groove 8. It is possible to produce a concentration element 5 and separately from the box 1 with its subsequent fixing on the bottom of the box. Depending on the width of the box 1, the longitudinal grooves 8 on the ribbed cover 6 may be larger. The inner cavity of the longitudinal groove 8 at the lower level is interfaced with intercostal cavities 9 by means of side holes 10.

To improve the transportation of mineral grains of increased density to the longitudinal groove 8, the transverse ribs 7 of the ribbed wear-resistant coating 6 have a slope in the direction of the longitudinal groove 8, and for better retention of these mineral grains in the intercostal cavities 9, the transverse ribs 7 are inclined to the loading side of the vibro-concentrator. At the output end of the longitudinal groove 8, a concentrate receiver 11 mounted on the supporting frame 3 is installed, which is designed to remove high-density fractions from the apparatus into a separate product.

In order for the finest and most slimy particles of the useful component to enter the concentrate and not 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 12, the transverse ribs 7 of which are made integral with the plate. In order to prevent the enriched material from falling into the longitudinal groove 8, the longitudinal groove has protective side walls 13. The side holes 10 are made at the lower level of the protective side walls 13. For this, the plate 12 is provided with longitudinal walls 14 vertically located and tightly connected to the outer ends transverse ribs 7, as well as the end wall 15 from the loading side of the apparatus.

The bottom 16 of the longitudinal groove 8 is mesh and the shutters 17 with a length not exceeding the length of the side walls 13 are pivotally fixed to the upper part of the side walls 13 of the longitudinal groove 8 with the side holes 10 in its inner cavity, with the possibility of adjusting the angle of inclination thereof. To adjust the inclination of the dampers 17, removable weights 19 of various weights are placed in their longitudinal pockets 18.

The vibroconcentrator works as follows.

A material containing solid particles of various sizes and densities is fed to the concentration element 5, where it is separated by density. Heavier mineral grains occupy the lowest position in the vibrating layer and along the intercostal cavities 9, sliding along the ribs 7, move to the longitudinal groove 8, enter it through the side holes 10 and then along the groove 8 through the vibrations of the concentration element 5 are sent to the concentrate receiver 11 . When the concentrate passes along the longitudinal groove 8, the smallest particles are sown from it through the mesh bottom 16. The movement of heavy mineral grains to the longitudinal groove 8 is facilitated by the slope of the transverse ribs 7 in the direction of the channel vki 8, and their retention in the intercostal cavities 9 is facilitated by the inclination of the ribs 7 in the loading side of the vibroconcentrator.

The concentration element 5 made in the form of a plate 12 ensures that all the finest and slimiest particles of the useful component enter the concentrate and does not allow them to go into the tails through the loose junctions of the concentration element to the duct 1. This is largely facilitated by the fact that the transverse ribs 7 are made at the same time as plates 12.

The protective side walls 13 do not allow the material to be enriched into the longitudinal groove 8 and dilute the concentrate, and the vertically arranged longitudinal walls 14, tightly connected to the outer ends of the transverse ribs 7, and the transverse walls 15 do not allow the enriched material, especially its small and slimy parts, to leave under the plate 12 of the concentration element 5 and get lost with tails. When performing the concentration element 5 along with the box 1, these causes of possible losses are eliminated completely.

The output of the concentrate is controlled by means of shutters 17 pivotally fixed to the upper part of the side walls 13 of the longitudinal groove 8 with side openings 10 into its internal cavity. To adjust the angle of inclination of the shutters 17, removable weights 19 of various weights are placed in their longitudinal pockets 18.

Concentration elements can be installed both on single- and double-screen vibrating screens, and on multi-screen ones, including all types of multi-frequency screens, both with a movable and with a fixed body. A separate concentrator can be installed for each concentrate product.

Adjustment and regulation of the concentration process is carried out by changing the frequency and amplitude of vibration of the duct 1 with the concentration element 5, as well as changing the angle of inclination of the duct 1, changing the size, quantity, height and angle of inclination of the transverse ribs 7, the number and depth of the longitudinal groove 8 and intercostal cavities 9 , the size of the cross-sectional area of the side openings 10 and their shape, a change in the weight of the weights 19 in the pockets 18 of the shutters 17, the technological load of the enriched material.

Thus, the proposed technical solution in comparison with the prototype will allow, due to improved conditions for the separation of mineral mixtures and continuous vibrodynamic removal of fractions of high density in a separate product, to increase the efficiency of gravitational enrichment of minerals of a wide range of particle sizes.

Information sources

1. Patent of the Russian Federation N2284865 "Roar-concentrator" / M.N. Zlobin, E.M. Zlobin, A.M. Zlobin. N2005113214 / 03 dated 03.05.2005, Bull. 2006, N 28.

2. Patent of the Russian Federation No. 2284864 "Vibroconcentrator" / M.N. Zlobin, E.M. Zlobin, A.M. Zlobin. N2005114815 / 03 dated 05.16.2005, Bull. 2006, N 28 (prototype).

Claims (1)

A vibration concentrator, including a box, a vibration exciter, a concentration element in the form of plates and transverse ribs made at the same time with the plates, a longitudinal groove with a variable depth, conjugated at the lower level with intercostal cavities through side holes, a longitudinal groove has side walls, side holes are made in these walls, the plate is provided with longitudinal, vertically located and tightly connected to the outer ends of the transverse ribs walls, the transverse ribs have a slope in the direction of the longitudinal oh grooves and tilt to the loading side, and it is possible to change their number, height and angle, the ribbed coating of the concentration element is made wear-resistant, a concentrator is installed at the output end of the longitudinal groove, the box and the concentration element have the ability to change the frequency and amplitude of vibration, characterized in that the bottom of the longitudinal groove is made mesh, and for the upper part of the side walls of the longitudinal groove with side holes in its internal cavity, shutters are pivotally fixed Lina not exceeding the length of the side walls, with the possibility of adjusting the angle of inclination.

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