SU1740064A1 - Segregation table - Google Patents

Abstract

Use: in the enrichment of minerals, in particular gravitational enrichment, and can be used to concentrate finely dispersed schliech minerals. Deca (D) 1 of the segregation table is made in the form of sections-gutters, the bottom of which is made in the form of an alternating sequence of flat / 4 platforms and trays (L) 17 filled with a granular bed-bed, the density of which is less than the density of valuable minerals but greater than the density of particles sent to tails. L 17 in the bottom part is connected to the schlepo-receiver 21 by means of a grid (C) 19. The material presoaked in water with the addition of a peptizer is fed to D 1. When the material passes through an even section 16 D1, the mineral mixture undergoes segregation under the influence of vibration, and heavy valuable finely dispersed the particles appear below, above them large heavy, then light small ones and light large ones. The segregated layer enters L 17. Valuable heavy minerals migrate downwards, pass through C 19 and accumulate at the bottom of L 17 in a schliepricem 21. Light particles, having passed the entire length of the gutter sections, are loaded into the receiver. 1 c p f-ly, 1 tab., 2 ill. & About 6

Description

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The invention contributes to the enrichment of minerals, in particular to gravity enrichment, and can be used to concentrate finely dispersed schliech minerals.

A known gateway for the enrichment of minerals includes a parallel-sided gutter and a bottom with a catching covering, on which arcuate strips are installed in staggered order to create additional turbulent zones.

The disadvantage of this sluice is that it cannot capture fine minerals due to the turbulence of the pulp flow, as a result of which fine particles are carried to the tailings.

Concentration tables of various designs are known, for example, a concentration round table comprising a deck made of flexible material wrapped with pushers, and the deck plates are connected to the body via return springs, water supply troughs, tools for changing the deck tilt angle and the vibrator .

The disadvantage of these devices is the low degree of extraction of fine minerals due to their structural and operational features. In particular, the hydrodynamic washing regimes created in them lead to a partial entrainment of useful fine particles in the tails.

The closest to the present invention is a table (herd) for mineral processing, including a deck mounted on a base plate and having slit transverse along the material movement, under which trays are installed for receiving the concentrate, a feed funnel, a loading hopper and a vibrator . This table has the disadvantages noted above, namely the loss of fine particles of valuable mineral, because the edges of the cracks formed by the control board and the deck violate the density structure of the layer of material to be separated, resulting in small dense particles from the bottom part turbulent flows in the upper part of the layer and go to the tails. In addition, smaller but lighter particles, according to the law of segregation, greatly dilute the concentration of heavy minerals.

The purpose of the invention is to increase the recovery of a valuable component. This goal is achieved by the fact that, in the known construction, the deck is made with longitudinal strips along the material movement path, grids with a gap to the bottom are installed in trays, granular material with a particle density average between the density of the heavy and light components being processed is placed on the grids more than the size of the grid cells; in this case, the bottoms of adjacent trays are made with a slope in opposite directions, and the whole device is equipped with a device for adjusting the angle of inclination of the deck.

Making the deck with longitudinal material strips allows the material to be divided to distribute the material being separated evenly and create a hydrodynamic mode of pulp movement in which a stable segregation column is formed as a result of the deck vibration (heavy and small particles — bottom, light and large above).

Installing the grid in trays with a gap to their bottom allows the granular material (bed) to be held above the bottom of the tray and thus facilitates the penetration into the area between the grid and the bottom (schlifacrim) only heavy fine and fine mineral particles.

The choice of granular material with a density of chowk-average between the densities of heavy and light components of the processed material and with a particle size greater than the mesh size allows, according to the laws of segregation, only heavy fractions of the material and bed fractions can penetrate through this material (bed) The passage through the grids accumulates at the bottom of the trays, from where they are periodically unloaded.

The execution of the bottoms of adjacent trays with a slope in opposite directions gives the device a symmetry in the plan, which facilitates the creation of the sustained vibration characteristics of the deck and the complete flushing of the accumulated concentrate into the corresponding bunker.

A device for adjusting the angle of inclination of the deck allows you to control the speed of movement along the deck of the material being divided and thereby to establish the optimal mode of separation.

The drawing shows a segregation table, side view and top.

The segregation table has deck 1, divided into sections 2 by means of strips 3, located along the path of the material being divided. The deck is supported through racks 4 and 5 on the platform 6. The rack 4 has a device 7 for adjusting the deck tilt. The platform 6, through the supports 8 and the slides 9, rests on the skid 10. The iO runner supports 10 are fastened to the base 12.

A vibrator 13 is mounted on the base 12. In the left end of deck 1, a feed hopper 14 and an irrigation tube 15 are installed. The bottom of deck 1 is made in an alternating sequence of flat sections 16 and slots in which trays 17 are installed. The trays 17 are filled with granular material (bed) 18 The grids 19 are fixed with the help of flanges 20 and the slot collectors 21 form the bottom of the chutes. The bottom of the chutes has a slope towards the discharge nozzles 22. The flush water supply pipes 23 are opposite to the nozzles 22 of the trays 23. At the right end of deck 1 meyuts threshold 24 and a receiver 25 for particulate material with sieve bottom 26 is not pro- Let material bed. Under the receiver 25 for granular material (bed) on the base 12, a bunker 27 for tailings is installed. Tubes 28 are mounted at the ends of the receiver for granular material to discharge it into the hopper 29. On the sides of deck 1 to platform 6, the chutes 30 are attached to discharge the concentrate, which have an outlet through the channels 31 to the hopper 32 for concentrate.

The device works as follows.

The discharge pipes 22 tightly close, block the pipes 23 for supplying flush water. A vibrator 13 is turned on, which causes deck 1 to reverse. When the vibrator is working, the granular material is poured into the trays 17 until it is completely filled. Moreover, the granular material is chosen so that the density of its particles is less than the density of the valuable mineral being recovered and greater than the density of particles sent to the tails, and the particle size is greater than the particle size of the valuable component, since only in this case can selectively seize heavy minerals be used particles.

Through the irrigation tube 15, rinsing water is supplied, which is to fill the trays 17. At the same time, deck 1 is installed with a certain inclination providing slow movement of the liquid along its surface.

Pre-soaked in water (3-5 hours) with the addition of a peptizer (it contributes to the separation of adherent particles) a sample of class -0.25 is fed into the feed hopper 14, which through a gap between the deck and the linear discharge end of the bunker begins to form a thin layer on the deck surface material With the passage of material on a flat section 16 of deck 1 under the action of vibration

the mineral mixture begins to segregate in a calm hydrodynamic environment with respect to density (the slope of the deck is small), i.e. heavy valuable fine particles are in the lower position, above them larger heavy, then light small and finally light large ones. Further, the segregated layer, not violating its structure, falls on the first near tray 17. Since the density of valuable heavy minerals that come into direct contact with the granular material in the tray is greater than the density of the particles of the latter, they are due to the same laws

5 segregations begin to migrate downward, pass through a sieve 19 and accumulate at the bottom of the tray in the schliepricem 21. Part of the elusive valuable particles due to some violation of the segregation column

The 0 layer above the granular material goes to the next pad 16 where the layer structure is restored again, and the process of trapping is repeated on the next tray, etc.

5 Light particles that form tailings, being unable to penetrate relatively heavy particles of granular material, pass through the entire length of the gutter sections, unload into the receiver.

0 25 and further through its mesh bottom 26 - into the bunker 27,

In the process of concentrating, a small part of the granular material goes along with the tails to the receiver 25 as a result of a heavy fraction of valuable minerals outside of its displacement, where it is regenerated on the mesh bottom 27 and discharged into the bunker 29. The concentrate of valuable minerals from the bottom of the trays is completely washed away when opened

0 discharging nozzles 22 and supplying sm water in pipes 23 to a hopper 32 for concentrate with the vibrator running and the power supply off of the material to be divided.

five

Thus, the deck has sequentially installed trays 17, filled with granular material with a density corresponding to the density

0 of its particles; mesh partition installed with a gap to the bottom of the tray; longitudinal strips in the course of the movement of the material being divided, ensuring the optimal hydrodynamic mode of separation;

5 devices for adjusting the angle of inclination, which determines the optimum performance and quality of concentration, allow the process to be continuously and without loss extract the valuable component from the mineral mixture.

The results of testing a segregation table on a geological sample containing fine schlichy minerals are listed in the table.

An iron wire slit with a particle size of 0.3-0.8 mm was used as a granular material.

As can be seen from the table, heavy minerals do not disappear into tailings (in this case, complete extraction). In addition, a high degree of enrichment is noted.

Especially effective is the operation of the device in the concentration of fine gold. Virtually all of the gold is trapped in the first tray from the side of the feed bin.

At present, a working prototype of a device has been manufactured that is used in the laboratory to concentrate finely dispersed schlichy minerals from geological samples.

Lead design work to create a large segregation table

performance. An experimental production release is planned.

Claims (2)

1. A segregation table, including a deck mounted on the base plate with transverse slots along which the trays are installed to receive the concentrate, a loading chute, discharge bins, a vibrator, characterized in that, in order to increase the extraction of the valuable component, the deck is made with slats longitudinal in the course of material movement, grids with a gap to the bottom are installed in trays, on grids there is a granular material with a particle density / greedy between the densities of the heavy and light components of the material being processed, and with a particle size / larger mesh cells, with the bottom of the adjacent trays performed with a bias in opposite directions. 2. A table according to claim 1, characterized in that it is made with a device for adjusting the angle of the deck. zmer sits II: ... t 2,3, .., I. 60 7 eight 0.31 0.07 -), 15 13 ten characters C 2 -0,1 15 Ech 0 18 0.03 .2 51.5 31.5 96 33  100 1, | 0, Sch5 3, D, PI 0.07 E, 05 0.2 (0 U.3 3f332232 j / 29 Editor A.Makovska Tehred M. Morgenthal Order 2033 Circulation: Subscription VNIIPI State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR 113035, Moscow, Zh-35, 4/5 Raushsk nab. Production and Publishing Combine Patent, Uzhgorod, Gagarin st., 101 FIG. 2 Proofreader T.Malets