RU103760U1 - COMPLEX FOR DRY ENRICHMENT OF ORE AND NON-METAL MATERIALS CONTAINING COMPONENTS WITH DIFFERENT DENSITY AND / OR FORM OF PARTICLES - Google Patents

Abstract

 1. A complex for dry dressing of ore and non-metallic materials containing components with different densities and / or particle shapes, including a pre-prepared ore preparation site or material accumulation site, or a process section and a classification section including at least one a screen with at least a large screening product output and a small screening product output, and at least two separating devices connected separately from each other with different outputs screening method, characterized in that the separating devices are made in the form of a multi-product pneumatic classifier for separating a large screening product and a multi-product pneumatic classifier for separating a small screening product, and the classification section additionally includes a grinder and a multi-product pneumatic classifier for processing the crushed material, each multi-product pneumatic the classifier is equipped with at least a light output separation product, the output of the average separation product and the output of the heavy separation product, the output of the heavy separation product of the multi-product pneumatic classifier for screening the large screening fraction is connected to the vibrating screen of the heavy separation product, the inlet of the grinder is connected to the output of the over-the-wire fraction of the vibrating screen of the heavy separation product, the output of the middle product of the separation of the multi-product pneumatic classifier separation of a large screening product, divided by heavy product yields

Description

The utility model relates to mining and processing equipment and can be used in the construction, mining, chemical and other sectors of the economy for the dry beneficiation of ore, non-metallic materials and industrial waste containing components with different shapes or particle densities, for example, vermiculite, mica, ore metals, metallurgical slag, etc.

A known complex for dry dressing of ore and non-metallic materials, including a pre-prepared material preparation site or a material accumulation site, or a process site and a classification site including a screen, to the outputs of which, separately from each other, two screens are connected, the outputs of which are equipped vibrating screens [1].

The disadvantages of this complex include the incomplete extraction of the intermediate product during the primary enrichment of the material and during finishing operations and the regrinding of the starting material in the preliminary preparation section, due to the technical characteristics of the equipment in the classification section.

The task to which the utility model is directed is to increase the technological indicators of enrichment and improve the quality of the concentrate obtained by ensuring the preservation of the initial structure of the enriched materials and the completeness of their extraction.

The problem is solved in that in a complex for dry dressing of ore and non-metallic materials containing components with different densities and / or particle shapes, including a pre-prepared ore preparation site or a place of material accumulation, or a technological process section and a classification section, including, at least one screen with at least the output of a large screening product and the output of a small screening product, and at least two separation devices connected separately different from each other with different yields of screening products, separating devices are made in the form of a multi-product pneumatic classifier for separating a large screening product and a multi-product pneumatic classifier for separating a small screening product, and the classification section additionally includes a shredder and a multi-product pneumatic classifier for processing crushed material connected to it, each multi-product pneumatic classifier is equipped with at least ode of the light separation product, the output of the middle separation product and the output of the heavy separation product, the output of the heavy separation product of the multi-product pneumatic classifier for separating the large screening fraction is connected to the vibrating screen of the heavy separation product, the input of the grinder is connected to the output of the oversize fraction of the vibrating screen of the heavy separation product, the output of the middle separation product of the multi-product pneumatic classifier for separation of a large screening product, outputs heavy THE PRODUCT division pneumatic classifier multiproduct small separation and product screening multiproduct pneumatic classifier processing comminuted material.

The problem can also be solved by the fact that the output of the light product of separation of at least one multi-product pneumatic classifier can be equipped with a dust separator equipped with a vibrating screen of the light product of separation, and the output of the middle product of separation of at least one multi-product pneumatic classifier can be provided vibrating screen.

Figure 1 presents a complex for dry concentration of ore and non-metallic materials containing components with different densities and / or particle shapes.

The complex for dry dressing of ore and non-metallic materials containing components with different densities and / or particle shapes includes interconnected material pretreatment section 1 or material accumulation site, or a process section (not shown in FIG. 1) and a classification section, which includes at least one screen 2 with at least the output of a large screening product 3 and the output of a small screening product 4 and at least a multi-product pneumatic classifier is divided I have a large screening product 5 and a multi-product pneumatic classifier for separating a small screening product 6, a chopper 7 and a multi-product pneumatic classifier for processing crushed material 8 connected to it. A multi-product pneumatic classifier for separating a large screening product 5 is equipped with at least a light separation product 9 output the average separation product 10 and the output of the heavy separation product 11. The multi-product pneumatic classifier is divided I small screening product 6 is equipped with at least the output of the light separation product 12, the output of the average separation product 13 and the output of the heavy separation product 14. The multi-product pneumatic classifier for processing the crushed material 8 is equipped with at least the output of the light separation product 15, the output of medium separation product 16 and the output of the heavy separation product 17. The output of the heavy separation product 11 of the multi-product pneumatic classifier for the separation of large screening fractions inen with a vibrating screen of the heavy separation product 18, the input 19 of the grinder 7 is connected to the output of the over-sieve fraction 20 of the vibrating screen of the heavy separation product 18, the output of the middle separation product 10 of the multi-product pneumatic classifier for separating a large screening product 5, the output of the heavy product of separation 14 of the multi-product pneumatic classifier for separating a small screening product 6 and the release of the heavy separation product 17 of the multi-product pneumatic classifier for processing crushed m Material 8.

The outputs of the light separation product of at least one multi-product pneumatic classifier 5, 6 and 8 can be equipped with dust separators 21, 22 and 23, equipped with vibrating screens of the light separation product 24, 25 and 26, the outputs of the middle separation product, for example, 13 and 16 multi-product pneumatic classifiers of fine screening fraction 6 and processing of crushed material 8 can be connected to vibrating screens of the middle separation product 27 and 28.

Let us consider the operation of the complex by the example of processing vermiculite ore containing vermiculite (ρ _В ≈2000-2700 kg / m ³ ) in an amount of ~ 15-20%, titanomagnetites (ρ _T ≈ 5200 kg / m ³ ) in an amount of ~ 15-20%, pyroxinite (ρ _P ≈3000 ÷ 4000 kg / m ³ ) in an amount of ~ 60-70%). Vermiculite in the initial ores is represented to a greater extent in commissures and to a lesser extent in plates. The main task in the enrichment of vermiculite ore is the destruction of vermiculite adhesions, their transformation into lamellar particles and separation due to a significant difference in the dynamic shape coefficient of the particles relative to related components.

The complex works as follows. At the preliminary material preparation section 1, primary ore crushing, drying, screening, magnetic fraction extraction and prepared material with a particle size of 0-6 mm are fed to the screen 2.

At screen 2, the ore is fractionated into a large screening product (CNG) of a size of 3-6 mm, and a small screening product (MPG) of a size of 0-3 mm. CNG is supplied to the multi-product pneumatic classifier 5, and PGM - to the multi-product pneumatic classifier 6.

As a result of the separation of CNG in classifier 5, we obtain the following separation products:

- a heavy separation product (TPR5) containing vermiculite adhesions and associated rock, while adhesions are characterized by a larger size due to their lower density compared to the accompanying rock;

- the average separation product (SPR5) containing vermiculite adhesions and associated rock;

- a light separation product (LPR5) containing vermiculite plates, adhesions and associated rock, while the plates are characterized by a large size due to their greater aerodynamic resistance and lower mass compared to adhesions and associated rock.

TPR5 enters the vibrating screen 18, where it is divided into a supersize fraction, then a large fractionation product (KPF18), which contains mainly vermiculite adhesions and associated rock, and is fed to input 19 of grinder 7 with the aim of revealing vermiculite adhesions and disintegration of the accompanying rock, and a small fractionation product ( MPF18), which contains predominantly associated rock, and is a waste product that is derived from technology.

SPR5 is fed to the input 19 of the grinder 7 in order to open the vermiculite adhesions and disintegrate the associated rock.

LPR5 can enter the dust collector 21 and then to the vibrating screen 24, where it is divided into a large fractionation product (KPF24), which contains mainly vermiculite plates, and a small fractionation product (MPF24), which contains mainly particles of accompanying rock. KPF24 is 80-90% vermiculite concentrate and is supplied for stocking or storage, while MPF24 is removed from the technology as a waste product.

PGM with a grain size of 0-3 mm is fed into the multi-product pneumatic classifier 6, where it is divided into the following products:

- a heavy separation product (TPR6) containing vermiculite adhesions and associated rock;

- the average separation product (SPR6) containing vermiculite plates and associated rock, while the plates are characterized by a large size due to their greater aerodynamic resistance and lower mass compared to the accompanying rock;

- a light separation product (LPR6) containing vermiculite plates, splices and associated rock, while the plates are characterized by a large size due to their greater aerodynamic resistance and lower mass compared to vermiculite adhesions and associated rock.

TPR6 is fed to the input 19 of the grinder 7 in order to reveal vermiculite adhesions and disintegration of the accompanying rock.

SPR6 can be supplied to vibrating screen 27, where it is divided into a large fractionation product (KPF27), which contains mainly vermiculite

plates, and a small fractionation product (MPF27), containing mainly accompanying rock. KPF27 is 80 ÷ 90% vermiculite concentrate and is supplied for packing or storage. (MPF27), which contains predominantly associated rock, and is a waste product that is derived from technology.

LPR6 can enter the dust separator 22 and then to a vibrating screen 25, where it can be divided into a large fractionation product (KPF25), which contains mainly vermiculite plates, and a small fractionation product (MPF25), which contains mainly particles of accompanying rock, vermiculite adhesions and plates, the size is smaller than the size of the vibrating sieve 25. KPF25 is 80-90% vermiculite concentrate and is supplied for packaging or storage, and MPF25 is removed from the technology as an intermediate product for further processing, for example, intumescent electric separation or packing.

The product entering the multi-product pneumatic classifier for processing the crushed material 8 is an open vermiculite commissures in the form of vermiculite plates, unopened vermiculite commissures and associated rock. After separation in classifier 8, a heavy separation product (TPR8), an average separation product (SPR8) and a light separation product (LPR8) are obtained.

TPR8, containing vermiculite adhesions and heavy particles of the accompanying rock, is returned to the input 19 of the grinder 7 with the aim of revealing vermiculite adhesions and disintegration of the accompanying rock.

SPR8, containing vermiculite plates and light, fine particles of accompanying rock, is sent for fractionation on vibrating screen 28. Large KPF 28 and medium SPF 28 separation products of vibrating screen 28 contain vermiculite plates of different sizes and are 80 ÷ 90% vermiculite concentrate. The fine separation product MPF 28 contains fine particles of accompanying rock and is a waste product.

LPR8, containing vermiculite plates and light, small particles of vermiculite adhesions and accompanying rock, can enter the dust collector 23 and then to the vibrating screen 26, where it can be divided into large KPF 26, medium SPF 26 and small MPF 26 fractionation products of vibrosieve 26. Large KPF 26 and average SPF 26, vibrosieve separation products 26 contain vermiculite plates of different sizes and are 80–90% vermiculite concentrate. MPF26 contains particles of accompanying rock, vermiculite adhesions and wafers of a size smaller than the size of a smaller sieve of vibrosieve 26, and is removed from the technology as an intermediate product for further processing, for example, expansion or electric separation or packing.

The use of the proposed complex allows to enrich various ore and non-metallic materials, in particular, to obtain vermiculite concentrate with an adjustable vermiculite content in the range of 80-95% with a yield of useful component (vermiculite) of up to 50-80%. Since the complex implements continuous selection of vermiculite plates along the entire technological chain, high-quality products are obtained by fineness, for example, in the range of 0.3-6 mm with minimal overgrinding of the useful component.

Thus, the proposed complex provides with high quality separation the dry beneficiation of ore and non-metallic materials containing components with different shapes or particle densities, for example, vermiculite, mica, metal ores, metallurgical slags, etc.

Information sources:

1. WO 2005014188 A1, 2005.

Claims (3)

1. A complex for dry dressing of ore and non-metallic materials containing components with different densities and / or particle shapes, including a pre-prepared ore preparation site or material accumulation site, or a process section and a classification section including at least one a screen with at least a large screening product output and a small screening product output, and at least two separating devices connected separately from each other with different outputs screening method, characterized in that the separating devices are made in the form of a multi-product pneumatic classifier for separating a large screening product and a multi-product pneumatic classifier for separating a small screening product, and the classification section additionally includes a grinder and a multi-product pneumatic classifier for processing the crushed material, each multi-product pneumatic the classifier is equipped with at least a light output separation product, the output of the average separation product and the output of the heavy separation product, the output of the heavy separation product of the multi-product pneumatic classifier for screening the large screening fraction is connected to the vibrating screen of the heavy separation product, the inlet of the grinder is connected to the output of the over-sizing fraction of the vibrating screen of the heavy separation product, the output of the middle product of the separation of the multi-product pneumatic classifier separation of large screening product, yields of heavy separation product I am a multi-product pneumatic classifier for separating a small screening product and a multi-product pneumatic classifier for processing crushed material. 2. The complex according to claim 1, characterized in that the output of the light separation product of at least one multi-product pneumatic classifier is equipped with a dust separator equipped with a vibrating screen of the light separation product. 3. The complex according to claim 1, characterized in that the output of the average separation product of at least one multi-product pneumatic classifier is equipped with a vibrating screen.