RU2186626C1 - Plant for extraction of valuable minerals - Google Patents

Abstract

FIELD: concentration of minerals from ores and placers by dynamic gravity method in thin-layer flows in apparatus combining principles of concentration of standard concentrating tables and rotary tables at activation of process of neutralizing middlings. SUBSTANCE: plant for extraction of valuable minerals is provided with neutralizing system; deck plates are made in form of sectors; they are mounted at shift of area of each subsequent deck plate by half as compared with previous one; upper points of each deck plate are shifted relative to helical line over radius of each level; provision is made for adjustment of longitudinal and transversal inclination by means of heeling mechanism mounted under unloading ends of deck plates for rotation around their vertical axes; supports are mounted under upper points of deck plates; unloading ends of deck plates are provided with chutes which are rigidly engageable with them; these chutes are used for high- density fraction; chutes have varying heights; chute used for receiving high-density fraction is engageable with chute used for receiving low- density fraction and is mounted under deck plates with bottom inclined towards discharge of high-density fraction; chute used for receiving low- density fraction has bottom inclined towards discharge of low-density fraction; drive provides for synchronous rotation of distributor of pulp and water supply system for flushing deck plates around common axis. EFFECT: increased productivity; enhanced efficiency of extraction of fine fractions of minerals; enhanced ecological safety. 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 of the deck area, a pulp feeding system, a concentrate flushing system (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 (Burt R.D. Technology of gravitational enrichment. M .: Nedra, 1990, p. 311).

 The disadvantage of these tables is that they can only be used for a monolayer of particles.

 The closest in technical essence and in the result achieved when using it is a plant for the extraction of valuable minerals, including decks with flutes mounted on supports and with roll mechanisms, a drive, a pulp and water supply system for flushing with a distributor (see. Reference for Ore beneficiation. Main processes / Under the editorship of OS Bogdanov. M .: Nedra, 1983, pp. 90-97 - 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.

 The goal is achieved in that the installation for the extraction of valuable minerals, including decks with flutes mounted on supports and with roll mechanisms, a drive, a pulp and water supply system for flushing with a distributor, according to the invention is equipped with a neutralization system, while the decks are made in the form of sectors and installed with an offset of half the area of each subsequent deck over the previous one so that the upper points of each of them are placed relative to the helix with an offset along the radius of each level, and the supports are made with the ability to regulate the longitudinal and transverse tilts of the decks using roll mechanisms installed under the unloading ends of the decks, and with the possibility of rotation around their vertical axes, while the supports are installed under the upper points of the decks, and the unloading ends of the decks have gutters that are rigidly mated with them for the high-density fraction variable size in height, and the trough for receiving the high density fraction is paired with the trough for receiving the low density fraction and is installed under the decks, with the bottom tilted towards the discharge dressing high density fractions, and the chute for receiving the low density fraction has a bottom inclined towards the low density fraction discharge, wherein the actuator is adapted to provide synchronous rotation of the distributor of the pulp supply system and the water for flushing with decks around a common axis.

 Performing decks with the possibility of not only longitudinal and transverse regulation of their position, but also rotation around a support located at the top of the deck sector, allows you to adjust the hydrodynamic mode of separation of material into fractions, taking into account the initial parameters of placers, the relative content of fractions, particle size and shape, and the difference in the density of the separated fractions.

 The drawings show the installation for the extraction of valuable minerals.

 Figure 1 - General view of the installation; figure 2 is a section aa in figure 1; figure 3 is a view of B in figure 2, the location of the decks one above the other; figure 4 - arrangement of the upper point of each deck relative to the common axis of rotation along a helix with an offset along the radius of each level; figure 5 shows the helix location of the dispensers for the supply of pulp and water for flushing; figure 6 shows the shape of the deck without riffles, its position with respect to the groove for receiving the high density fraction and the groove mating with the deck for the high density fraction.

The installation contains decks 1 with flutes 2 mounted on supports 3, and roll mechanisms 4. Decks 1 are made in the form of sectors 5 and each subsequent deck 1 is located above the previous one with an offset of 6 half the area of deck 1, closing them with a gap 7 vertically. The upper points 8 of each subsequent deck 1 (in Fig. 3 - B ₁ ; B ₂ *; in Fig. 4 - B ₁ *, B ₂ *, B ₃ *, B ₄ *, B ₅ *, B ₆ *, B ₇ *) are placed relative to helix 9 (Fig. 4) with an offset of 10 along a radius of 11 (except for the first point) of each level 12 ( ₂ V ₂ *, _{3 3} V ₃ *, ₄ V ₄ *, ₅ V ₅ *, _{6V 6} *,
V ₇ V ₇ *). The supports of deck 1 are configured to adjust the longitudinal inclination of 13 December 1 with lowering the discharge end 14 of the high density fraction of deck 1 below the level of the loading end 15 of deck 1 and the transverse inclination of 16 deck 1 with lowering the outer radius edge 17 of deck 1 relative to the inner radius edge 18 of sector 5 decks 1. Decks can rotate around the vertical axes of 19 supports 3. Supports 3 are installed under the upper points of Dec 8 1. Roll mechanisms 4 are installed under the unloading ends of Dec 14 1. Edges of 20 unloading ends of 14 fractions high of high density are mated with grooves for the high density fraction 21, having a height of 22 sizes from the first deck 1 to the last deck 1 in the direction of increase, taking into account the vertical displacement of the sectors of sectors 5 along the helix 9 so that when rinsing, the high density fraction is directed exactly a chute for receiving a high density fraction 23 mating with a chute for receiving a low density fraction 24.

 The trough for receiving the high density fraction 23 has a bottom 25 with an inclination towards the discharge side of the high density fraction 26. The trough for receiving the low density fraction 24 has a bottom 27 with an inclination towards the discharge side of the low density fraction 28.

 The installation has a drive 29, a pulp and water supply system for flushing 30, a neutralization system 31. A drive 29 provides synchronous rotation of the distributor 32 of the pulp and water supply system for flushing 30 with decks 1 around axis 33.

 Installation works as follows.

 Using the roll mechanism 4, the position of sectors 5 Dec 1 of the longitudinal inclination 13 is adjusted by lowering the discharge ends 14 below the level of the loading ends 15 Dec 1, the transverse inclination 16 (lowering the outer radius edges 17 Dec 1 relative to the inner radius edges 18) and the relative position by rotation around the vertical axes 19 of the supports 3. In accordance with the initial parameters of the processed material, the corrugations 2 are directed at the desired angle to the flow of the supplied material in the area of the loading end 1 Dec 1.

 The position of Dec 1 is fixed firmly.

 Actuator 29 is turned on, which provides synchronous rotation of deck 1, each of which is offset 6 by half the area of previous deck 1, with a vertical clearance of 7. The upper points 8 of each subsequent deck 1 are placed along a helical line 9 with an offset of 10 along the radius 11 of each level 12 to provide, when adjusting the location of the radius edge 17 of the subsequent decks 1, with the possibility of a shift to prevent the low-density fraction from falling onto decks 1 located below. Synchronously with decks 1, a distributor 32 rotates around axis 33. From the pulp and water supply system for flushing 30, pulp starts to be supplied to all decks 1.

 On the surface of deck 1, under the influence of gravitational, hydrodynamic, archimedean and centrifugal forces, particles of different densities are separated. The low density fractions are moved through the outer radius edge 17 into the groove to receive the low density fraction 24. The high density fractions are trapped in the corrugations 2.

 After the flush water is supplied, the high-density particles move to the discharge ends 14 and through the edges 20 enter the troughs for the high-density fraction 21 of different heights 22, then to the trough for receiving the high-density fraction 23.

 From the neutralization system 31, a composition is supplied for sorption of sulfides or the formation of more stable sulfates in the trough for receiving the high density fraction 23 from the side opposite to the discharge of the high density fraction 26, and to the trough for receiving the low density fraction 24 from the side opposite to the discharge of the low density fraction 28 Due to the fact that the bottom 25 and the bottom 27 have slopes, the composition for neutralizing by gravity is distributed over the surface of the fraction. A fraction of the fractions from the grooves 23, 24 when supplying water for flushing ensures the advancement of the fractions to the discharge side of the high density fraction 26 and to the discharge side of the low density fraction 28.

 The fractions are unloaded.

 The installation provides increased productivity, the quality of extraction of fine mineral fractions and environmental friendliness.

Claims (1)

 Installation for the extraction of valuable minerals, including decks with flutes mounted on supports and with roll mechanisms, a drive, a pulp and water supply system for flushing with a distributor, characterized in that it is equipped with a neutralization system, while the decks are made in the form of sectors and are installed with an offset half the area of each subsequent deck above the previous one so that the upper points of each of them are placed relative to the helix with an offset along the radius of each level, and the supports are made with the possibility of adjusting the longitudinal and transverse tilting of decks with the help of roll mechanisms installed under the unloading ends of the decks and with the possibility of rotation around their vertical axes, while the supports are installed under the upper points of the decks, and the unloading ends of the decks have gutters that are rigidly mated to them for a high-density fraction of variable size in height moreover, the trough for receiving the high density fraction is paired with the trough for receiving the low density fraction and is installed under the decks, with the bottom tilted towards the discharge of the high density fraction, and the trough A receiving low density fraction has a bottom inclined towards the low density fraction discharge, wherein the actuator is adapted to provide synchronous rotation of the distributor of the pulp supply system and the water for flushing with decks around a common axis.

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