DE3431147A1 - Method and device for preparing minerals, such as for example coal or ore, by means of a dense medium separating device - Google Patents

Abstract

Known processing methods for coarse-grained minerals, such as for example coal or ore, by means of a dense medium separating device have the disadvantage that extraneous materials such as for example ferrochromium, whose acquisition and reprocessing are associated with a relatively high degree of effort and expense, are required as the dense medium for dense medium production. However, these disadvantages are eliminated according to the invention in that the dense medium is produced with the aid of heavy materials which arise during the processing of minerals in the dense medium separating device constructed as a jigging machine.

Description

Process and device for the preparation of minerals,

such as coal or ore, using a heavy beet separator The invention relates to a method for processing minerals, such as Coal or ore, by means of a heavy beet separator, after which the obtained Light goods and heavy goods passed separately over sieves, and thereby from adhering Sword beet are aoebrew, whereupon the diluted Swordruoe obtained in this way with a lower weight before being returned to the heavy beet separator is fed to a collecting container for heavy beet production. The invention relates to furthermore a device for carrying out this method.

Such a method and a corresponding device are for Example from DE-AS 10 30 785 known. The raw coal is separated here into washed coal and mountains by means of a magnetite sword beet. The application the well-known separation process on other minerals, such as ores Ferrosilicon is required as a hydrogen for the production of heavy beet. The disadvantage here is that in this known separation process for heavy beet production Foreign materials are required as heavy material, their procurement and processing are associated with a relatively high cost.

It is the object of the invention to eliminate these disadvantages and a enable significant savings in operating costs.

The object is achieved according to the method of the invention in that that the sword male production takes place with the help of heavy goods, which in the processing of the minerals in the SchwertrüDe separator.

When producing heavy beet with the help of fine-grained heavy material, This is the case during the mineral processing process in the heavy beet separator incurred itself, the procurement and processing at third-party, expensive magnetizable heavy materials, so that in this way the operating costs can be reduced considerably.

In an embodiment of the invention it is provided that the processing the minerals for the extraction of the heavy material takes place in a heavy beet seeding machine. The use of a heavy beet as a separation medium enables coarse-grained minerals, such as sorting heavy ore minerals on a jig. Because the high density difference between the coarse-grained ore minerals and water as a separating medium and depending on the grain size required high layer thickness of the bedding bed it was previously difficult to use water as the medium on normal setting machines, Prepare coarse-grained minerals. The inventive swarm setting method therefore enables the sorting of minerals within a very advantageously wide range of grain sizes from around 20 to 400 mm. The use of dSr Heavy beet seeding machine according to the invention makes the otherwise usual cost-intensive Manual digging as a pre-mountain decision is superfluous.

In a further embodiment of the invention it is provided that the resulting Heavy goods for heavy beet production after the adhering sludge has been rinsed off into one fine-grained and a coarse-grained portion is classified. According to the invention part of the heavy goods for heavy beet production or replacement the loss of heavy material is required. This heavy cargo must be made available in very fine-grained form will. It is therefore advantageous to divide the heavy material produced in the process into two grain fractions to classify, starting from the fine-grained material, the finest-grained material, oen heavy material for heavy beet production in a downstream drying and to be able to produce the comminution process with the least possible expenditure of energy.

In a further embodiment of the invention it is provided that the classified Fine-grained heavy goods for heavy beet production to less than 60 My, preferably smaller than 40 My, is crushed. With coarse-grained material up to approx. 400 mm A crushing of the heavy material is sufficient for the production of heavy beet up to to less than 60 My. This advantageously increases the density of the setting medium (For example, water with fine-grained heavy components of the Input materials) so far that the required setting process of the high Setting bed with normal pulsing, as is usual with a pulsed setting machine is, can be carried out. The force required to move the The setting bed is higher than with a normal setting machine, but it is also resistant of the settling bed lowered by the increased buoyancy of the heavy beet, see above that the settling bed moves with the pulsation of the separating medium (heavy beet) and the pulp cannot flow around the coarse grains in the intergrain volume without these to raise. Due to the fact that the fine-grained heavy material for heavy beet production, is preferably crushed to less than 40 My, the possibility is very advantageous given to adjust the pulp to a high solids content of fine-grained heavy material. The use of heavy beet with high solids content allows compared to normal setting machines operated with pulsating water with comparable cutting performance a sharp decrease in pulse intensity and frequency.

In a further embodiment of the invention it is provided that the sword beet such an amount of very fine-grained heavy material will be added that their solids content is about 20 to 35% by volume. This advantageously results in a higher pulp density and thus a higher buoyancy force on the minerals to be processed is achieved.

In a further embodiment of the invention it is provided that the sword beet If the solids content is high, wetting agents can be added to reduce the viscosity. When processing smaller grains of the input mineral, a high Consistency (volume fraction of the heavy matter in the heavy beet) because of the low The sinking speed of the finer grain significantly impede the setting process. By Addition of wetting agents, for example chemicals in the form of surface-active agents Substances, to reduce the viscosity, the separating effect is very beneficial the heavy beet seeding machine for smaller grain sizes of the input minerals has been improved.

In an embodiment of the invention according to the device, it is provided that the trained as a setting machine Schwertrü'De separator behind the Sieve and shower irrigation directions for the heavy goods that arise Sword beet production and recycling a classifying device to the heavy beet separating device Subsequent division into a fine-grain and a coarse-grain heavy material fraction is. The classifying device, for example a vibrating screen, can be used in a simple Sort the heavy material produced in the process into a fine-grained and coarse-grained fraction be divided. The fine-grain heavy cargo fraction is for further processing as heavy material for heavy beet production or replacement of heavy material losses provided, the coarse-grained heavy material fraction can be used for any customary purpose fed.

In a further embodiment of the invention it is provided that the classifying device for the fine-grain heavy material fraction with a shredding device stands. The fine-grain heavy material fraction is processed in the shredding device Crushed to less than 60 My or less than 40 My. This becomes very advantageously makes it possible for the heavy goods to accumulate during processing can be used to produce the heavy beet. This is a turnip setting process for coarse-grained minerals with dringen operating costs possible as no other strange, expensive, magnetizable heavy materials for the production of heavy beet are needed.

The invention is illustrated schematically below with reference to one in the drawing illustrated process flow diagram explained in more detail.

According to arrow 1, the minerals to be processed arrive, for example Coal or ores on a separating device designed as a heavy beet planting machine 2.

Through a line 3, the heavy beet is constantly with more constant Weight introduced into the heavy beet seeding machine 2. The light goods received - in coal processing the valuable product washed coal, in ore processing the separated mountains - comes with part of the swastroot through a draining sieve 4 and line 5 on one half of a double flushing screen 6.

The sediment separated in the heavy beet planting machine 2 - at the Coal processing the mountains, in ore processing the valuable product pure ore minerals, such as magnesite, lead-zinc concentrate or cnromite (Cr203 x FeO) - is discharged by means of a bucket elevator 2 'and reaches the via a line 7 other half of the rinsing sieve 6. Under the rinsing sieve 6 are two sludge collecting funnels 8 and 9 arranged. The heavy goods (chromite) on the left half of the sieve and from Pure black beet, which drips easily on the right half of the sieve, is poured over a Line 10, together with that supplied via a line 11 from the strainer 4 pure heavy beet introduced into a heavy beet collecting container 12.

On the rinsing sieve 6, the light goods and the heavy goods (chromite) over the second funnel 9 first with back water and then with fresh water means Shower devices 13 and 14 sprayed off any still adhering sword beet. The diluted Heavy beet from the funnel 9 is transferred via a line 15 to a thin beet collecting container 16 forwarded.

From the rinsing sieve 6, the light material arrives via a line 17 further use in a storage bunker 18. The heavy cargo still required in the process passes from the rinsing sieve 6 via a line 19 to a classifying device 20, which is designed for example as a vibrating screen, and is then converted into a fine-grained and a coarse-grained heavy lift. »Fraction classified. The coarse-grained one Heavy lift fraction is fed via a line 21 to a heavy goods bunker 22 for further use.

The fine-grain heavy material fraction (chromite) is removed from the vibrating screen 20 entered into a comminuting device 24 via a line 23. The shredding device 24 can be designed as a vibratory tube mill, with which in an advantageous manner high grinding fineness of the fine-grain heavy material fraction used up to smaller 40 My can be reached. If a vibrating tube mill is used, then this would be the case pre-drying of the grist is necessary. The finely ground heavy material (chromite) from the vibrating tube mill 24 passes through an intermediate bunker 25 by means of a line 26 dosed in terms of quantity in the heavy beet collecting container 12 for the invention Heavy beet production to the desired specific gravity using the processing method Heavy material (chromite) accrues as cloudy heavy material.

The produced and collected in the swastika collecting container 12 Heavy beet is used as a separating medium by means of a pulp feed line 27 arranged pump 28 is pumped into the heavy beet seeding machine 2. For checking and maintaining a constant pulp weight is in the pulp feed line 27 a weight meter 29 is arranged.

For further preparation of the pulp, the pulp collecting container 12 part of the pulp via a line 30 with control valve 31 into the thin pulp collecting container 16 initiated, in which, as described above, also via line 15 the with return and thin syrup mixed with fresh water flows in from the funnel 9 of the rinsing sieve 6. The overflow from the thin sludge collection container 16 passes through a line 32 into a Thickener 33. The underflow from the top of the thin pulp collection container 16 is pumped into a centrifuge 36 by means of a pump 35 arranged in a line 34. In the centrifuge 36, the heavy solids are largely dewatered. The heavy materials are from the centrifuge 36 via a line 37 in aen heavy beet collecting container 12 headed. The centrate from the centrifuge 36 is passed through a line 38 to the thickener 32 and after thickening from the tip of the thickener 33, for example in pumped out a tailing pond and thereby removed it from the turnip cycle. Of the Overflow of the thickener 33 remains in the preparation process and is a Line 39 is fed to the backwater shower device 13 above the rinsing screen 6.

According to the invention, the heavy beet planting machine can also be used as a three-product planting machine be designed with medium goods production. In this case the medium good becomes crushed further processing and returned to the heavy beet seeding machine or according to the degree of digestion of the minerals according to another Processing process further treated. Thanks to the advantageous pre-separation of the mountains With the heavy beet planting machine, the outdated Hanöklaubungs process is no longer necessary. The subsequent processing steps and the systems required for them become essential relieved.

Claims (9)

Claims 1. A method for processing minerals, such as for example coal or ore, by means of a heavy beet separator, after which the received light goods and heavy goods separately passed through sieves and thereby by adhering sword beet are sprayed off, whereupon the diluted Schwertrüoe with a lower specific gravity before being returned to the sword beet separator is fed to a collecting container for heavy beet production, characterized in that that the heavy beet production takes place with the help of heavy goods, which in the processing the minerals accumulate in the heavy beet separator. 2. The method according to claim 1, characterized in that the processing the minerals for the extraction of the heavy material takes place in a heavy beet seeding machine. 3. The method according to claim 1 or 2, characterized in that the Accruing heavy goods for heavy beet production according to Krausen of the adhering turbidity is classified into a fine-grained and a coarse-grained enteil. 4. The method according to claim 1, 2 or 3, characterized in that aer classified fine-grained heavy goods for heavy beet production on a smaller scale 60 My, preferably less than 40 My, is crushed. 5. The method according to claim 1, 2, 3 or 4, characterized in that that the sword beet had such an amount fine-grained heavy goods is added that their solids content is about 20 to 35 vol .-%. 6. The method according to claim 5, characterized in that the sword beet If the solids content is high, wetting agents can be added to reduce the viscosity. 7. Device for performing the method according to the claims 1 to 6, consist of a heavy beet separating device with heavy beet and mineral feed devices, as well as with light goods and heavy goods discharge devices, with subsequent Sieve and shower devices for separating the heavy beet from the light goods obtained and parts of heavy goods, characterized in that the Heavy beet separation device (2) behind the sieve and shower devices (4, 6, 13, 14)) for the heavy cargo share for heavy beet production and recycling in the heavy beet separating device (2) a classifying device (20) for division is switched into a fine-grained and a coarse-grained heavy material fraction. 8. Apparatus according to claim 7, characterized in that the classifying device (20) for the fine-grain heavy material fraction with a shredding device (24) is in connection. 9. Apparatus according to claim 7 or 8, characterized in that the comminution device (24) is designed as a vibratory tube mill.