RU2186627C1 - Plant for extraction of fine fractions of valuable minerals from sulfide-containing ores and placers - Google Patents

Abstract

FIELD: concentration of minerals from and gravels by dynamic gravitational method in thin-layer flows in apparatus combining principles of concentration on standard concentrating tables and rotary tables at activation of process of neutralizing middlings. SUBSTANCE: proposed plant is provided with system feeding air to deck plates; this system is stationary; plant is also provided with neutralizing system for feeding the composition to chute for receiving fraction of high density and chute for receiving fraction of low density which are found of sides opposite to fraction unloading end; drive ensures synchronous rotation of distributor of system feeding pulp and flushing water; deck riffles are narrowing; they are oriented at shift with their center relative to common axis of rotation of deck plates; deck plates are made in form of sectors located over circumference formed by common axis of rotation; they are provided with agitators rigidly secured from below; deck plate supports are mounted in CG of deck plates and heeling mechanisms are mounted under loading ends of deck plates orienting them above guide chutes for high-density fraction engageable with unloading ends of deck plates; guide chutes for high-density fraction are inclined in radii from common axis of rotation of deck plates towards chute used for receiving and located over perimeter under plane formed by deck plates; its bottom is inclined towards side of unloading high-density fractions; outer wall of chute used for receiving high-density fraction forms inner wall of chute used for receiving low-density fraction which is mounted over outer perimeter of plane formed by deck plates; its bottom is inclined towards side of unloading low-density fraction. EFFECT: enhanced efficiency of extraction of valuable minerals; reduced toxicity of concentration products. 6 dwg

Description

 The invention relates to the field of mineral processing from ores and placers by the gravitational method of the dynamic type in thin-layer flows on apparatuses combining the principles of enrichment on concentration tables of a conventional type and rotating, with the activation of the process of neutralizing the intermediate product.

 The well-known Holman-Michel table for film flotation of sulfides containing a deck, a deck oscillation drive, a system of air tubes covering half the deck area, a pulp feeding system, a concentrate flushing system (see Burt R. D. Gravity enrichment technology. M .: Nedra 1990, p. 311).

 The installation allows you to solve the problem of reducing the toxicity of the intermediate by film flotation, but does not provide sufficient efficiency for the extraction of valuable minerals.

Known round, convex, conical table of two types. First, the table rotates slowly with a frequency of 2-5 min ^-1 , passing under the points of pulp supply, flushing water and cleaning. The second - the deck is stationary, and the power, flushing system and cleaners rotate (see Bert R.D. Technology of gravitational enrichment. M .: Nedra, 1990, p. 311).

 The disadvantage of these tables is that they can only be applied to a monolayer of particles.

 The closest in technical essence and in the result achieved when using it is the installation for the extraction of small fractions of valuable minerals from sulfide-containing ores and placers, including decks with wave profile flutes with a decrease in height along the flute and across the deck and with locking flutes mounted on supports , and roll mechanisms, a drive, a pulp and water supply system for flushing with a distributor (see the Guide to ore dressing // Basic processes / Edited by OS Bogdanov. M .: Nedra, 1983, pp. 83-97 - prototype).

 This installation does not extract valuable minerals of small fractions (-0.2 mm) in a wide range of size ranges, for example, up to +0.06 mm, and does not reduce the toxicity of the intermediate and final product when processing placers containing sulfide minerals.

 The purpose of the invention is to increase the efficiency of the extraction of valuable minerals with a decrease in the toxicity of intermediate products of the process.

 This goal is achieved by the fact that the installation for the extraction of fine fractions of valuable minerals from sulfide-containing ores and placers, including decks with wave profile flutes with decreasing heights along the flute and across the deck and with locking flutes mounted on supports, and roll mechanisms, drive, supply system pulp and water for flushing with a distributor, according to the invention, is equipped with a system for supplying air to the decks installed permanently, a decontamination system installed with the possibility of feeding the composition to the chute for receiving frac high density and a chute for receiving low density fractions from the sides opposite to the unloading of fractions from them, while the drive is configured to provide synchronous rotation of the distributor of the pulp and water supply system for flushing with decks around the common axis, and the grooves of the decks are made tapering and oriented with by shifting the center of their formation relative to the common axis of rotation of the decks, the decks are made in the form of sectors located on a circle formed by a common axis of rotation, and are equipped with rippers that are rigidly fixed from the bottom of the latter, and the deck supports are installed at the center of gravity of the decks, and the roll mechanisms are installed under the loading ends of the decks, orienting them above the guide troughs for the high-density fraction, mating with the discharge ends of the decks, while the guide troughs for the high-density fraction are mounted obliquely along the radii from the common axis of rotation of the decks towards the chute to receive the high density fraction located around the perimeter under the plane formed by the decks, and having a bottom with an inclination towards the discharge side of the fraction high density from the latter, and the outer wall of the trough for receiving the high density fraction forms the inner wall of the trough for receiving the low density fraction installed along the outer perimeter of the plane formed by the decks and having a bottom inclined towards the discharge of the low density fraction from the latter.

 In flows of small thickness, flowing along an inclined plane, forces act on particles: gravitational, lifting (Archimedean), hydrodynamic (fluid friction against a particle and fluid pressure on a particle). The particle sizes are so small that the ratio of the action of these forces to the forces of static interaction between particles should be taken into account. Therefore, the value of the shear force created by centrifugal forces through the rotation of the decks creates a sufficient degree of separation and separation of solid fractions of different densities. Particles of high density, falling into the zone of the grooves, are under the influence of centrifugal forces that hold them. Particles of high density move along the grooves not only under the influence of three component forces, but also the fourth - centrifugal. To activate the vertical movement of particles under conditions of a quantitative predominance of low density particles over high density particles, air is provided for half the area of decks.

 The drawings show the installation for the extraction of fine fractions of valuable minerals from sulfide-containing ores and placers.

 Figure 1 shows a General view of the installation without an air supply system to the deck; figure 2 is a section aa in figure 1; figure 3 is a view of B in figure 2, the deck and the guide channel; figure 4 - section bb in figure 2, the profile of the corrugations in the section; in FIG. 5 is a view D in FIG. 2, a decrease in the height of the grooves across the deck; in Fig.6 is a view of D in Fig.1, a top view of the flutes, showing their narrowing towards the discharge side of the high density fraction.

 The installation contains four decks 1, having tapering riffles 2, of a wave profile with a decrease in height 3 along riffle 2 and height 4 across deck 1. From the discharge side of the low density fraction 5 s Dec 1, locking riffles 6 are installed to exclude the washing out of high density fractions.

 Decks 1 are made in the form of sectors 7 on a quarter of a circle and are located on a circle 8 formed by a common axis 9 of rotation of decks 1. The tapering corrugations 2 are oriented with a displacement of the center 10 of their formation relative to the common axis 9 of rotation of decks 1. Using roll mechanisms 11, installed under the loading ends 12 dec 1 on the frame 13, thanks to the supports 14 provides transverse and longitudinal inclination of dec 1.

 The supports 14 are installed relative to the deck 1 in the center of gravity 15 and are fixed on the frame 13 of the installation.

 The loading ends 12 Dec 1 are installed above the guide troughs for the high density fraction 16, which mate with the unloading ends 17 Dec 1. The guide troughs for the high density fraction 16 are installed at an angle 18 along a radius 19 from the common axis 9 of the rotation of the deck 1 towards the gutter for receiving high density fraction 20, which is located around the perimeter under the plane 21 formed by decks 1. The bottom 22 of the groove for receiving the high density fraction 20 has an inclination towards the discharge side 23 of the high density fraction from it, and the outer wall 24 it forms the inner wall 25 of the trough for receiving a fraction of low density 26, which is installed along the outer perimeter of the plane 21 formed by decks 1.

 The bottom 27 of the trough for receiving the low density fraction 26 has an inclination toward 28 to discharge the low density fraction from it. Decks 1 have rippers 29 rigidly fixed on them from below, which freely move with decks 1. The pulp and water supply system for flushing 30 is mounted on the frame 31 and has a distributor 32 synchronously rotating by means of an actuator 33 with decks 1.

 To activate the process of segregation of the separated particles, an air supply system 34 is installed, shown in FIG. 2, which is stationary with respect to decks 1 and fixed to the base 35.

 On the frame 31, a neutralization system 36 is installed, from which, using a pump system (not shown in the drawings), the supply of finely ground iron, CaO, coal or other substances is distributed through the pipeline to form during processing from minerals with toxic elements Sb, As, Bi, Pb, Hg, Mo, Zn are more stable sulfates or sorption of sulfides.

 The neutralization system 36 is equipped with an automatic system for regulating the periodic feeding of the composition into the groove for receiving the high density fraction 20 and the groove for receiving the low density fraction 26 from the sides 37, 38 opposite to the discharge of fractions through the grooves 39, 40.

 Installation works as follows.

 The transverse and longitudinal tilt of deck 1 is set using roll mechanisms 11 mounted on frame 13 and supports 14 located at the center of gravity of 15 dec 1 and mounted on frame 13. The loading ends 12 dec 1 are oriented above the guide channels for the high density fraction 16 that mate with the discharge ends Dec 17 1.

 The drive 33 is turned on, which synchronously rotates the deck 1 with the distributor 32 of the pulp and water supply system for flushing 30 relative to the common axis 9. The speed of rotation of the deck 1 is adjusted taking into account the parameters of the material being enriched, granulometry, and the relative content of the low density fraction. The pulp enters the top of the loading end of Dec 12, 1.

 On the surface of deck 1, made in the form of sectors 7 and located on a circle 8 formed by a common axis of rotation 9, under the influence of gravitational, hydrodynamic and centrifugal forces, separation of particles of different densities occurs and high-density fractions move to guide troughs for high-density fractions 16. Low-density particles are transported across deck 1 to the side of unloading the low-density fraction 5 due to the transverse tilt of deck 1 and lowering the height of the tapering riffles 2. Lowering the height 3 s alive riffle 2 and the wave profile extends. Rippers 22, rigidly fixed to the decks and having the ability to move with them, contribute to the process of mechanochemical activation of the medium. There is a change in the ion-molecular composition of the system, electrochemical and chemical processes are activated. There is a neutralization of the high density fraction and its periodic discharge through the trough 39 due to the inclination of the bottom 22 towards the discharge 23.

 The low-density fraction during enrichment enters across the deck 1 into the trough for receiving the low-density fraction 26, the inner wall 25 of which is formed by the outer wall 24 of the trough for receiving the high-density fraction 20.

 At the same time as the low-density fraction enters the trough to receive low-density fractions 26 from the neutralization system 36, a composition is supplied from side 38 for sorption of sulfides or the formation of more stable compounds suitable for long-term storage. Then, in the process of enrichment and accumulation of the low-density fraction with the help of cultivators 29, the process is activated and along the bottom 27, which has an inclination towards 2, the low-density fraction is unloaded through the trench 40.

 The installation provides the efficiency of extraction of valuable minerals and reduces the toxicity of enrichment products.

Claims (1)

 Installation for extracting fine fractions of valuable minerals from sulfide-containing ores and placers, including decks with wave profile flutes with a decrease in height along the flute and across the deck and with lock flutes mounted on supports, and roll mechanisms, a drive, a pulp and water supply system for flushing with dispenser, characterized in that it is equipped with a system for supplying air to the decks installed permanently, a decontamination system installed with the possibility of feeding the composition to the chute to receive high density fractions and the chute to receive and low-density fractions from the sides opposite to the unloading of fractions from them, while the drive is configured to synchronously rotate the distributor of the pulp and water supply system for flushing with decks around a common axis, and the riffle decks are made tapering and oriented with the center of their formation relative to to the common axis of rotation of the decks, the decks are made in the form of sectors located on a circle formed by a common axis of rotation, and are equipped with rippers, rigidly fixed to the bottom of the latter, and the supports of the decks of the mouth deers are centered on the center of gravity of the decks, and the roll mechanisms are installed under the loading ends of the decks, orienting them above the guide grooves for the high-density fraction, mating with the discharge ends of the decks, while the guide chutes for the high-density fraction are installed at an angle along the radii from the common axis of rotation of the decks in the side of the chute for receiving a high density fraction located around the perimeter under the plane formed by the decks and having a bottom with an inclination towards the discharge of high density fractions from the latter, The outer wall of the gutter for receiving the high-density fraction forms the inner wall of the gutter for receiving the low-density fraction, which is installed along the outer perimeter of the plane formed by the decks and has a bottom inclined towards the discharge of the low-density fraction from the latter.

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