DE1275972B - Method and device for dry sorting of solid, granular material - Google Patents

Description

Method and apparatus for dry sorting of solid granular Good The invention relates to a method and a device for dry sorting of solid granular material through pneumatic density stratification and downstream Cutting process.

It is already a device for the separation of crushed in hammer mills, Raw lignite containing fine dust and coarse grain is known according to grain classes. Included the bulk material flows over a steeply inclined porous plate through which air is blown will. The coarse grain settles down due to its weight, while the dust is lifted to the surface by the blown air. The bulk material then flows against it a guide tongue that removes the dust from the coarse grain in the relatively thick layer separates. This sorting is only possible with bulk goods that differ greatly in grain size possible. In contrast, the invention has for its object to dry sorting of bulk material To enable small grain size and to create a suitable device. The method according to the invention consists in the feed material by continuous and evenly acting compressed air to flow and thereby in layers different weights and then these layers one after the other to sieve. When sorting, the differential effect of the air is no longer there Function of the size of the grains, but only the specific weight, its fluctuations are much less severe than the possible differences in the size of the grains.

The blowing in of air may only make the mass flowable, without to induce movements or eddies within the mass which would have the tendency to to mix the ingredients of different weights. According to the further invention therefore the pressure of the compressed air is set according to the type of bulk material. Through this one can get the air speed of the medium size as well as the medium specific Adjust the weight of the ingredients in the mixture.

The method according to the invention would be with the known device for separating fine dust and coarse grains, because the porous Plate is inclined too much and a guide tongue is provided for separation. The device to carry out the new method is characterized according to the invention in that that a sorting chute, the bottom of which has a porous surface inclined by about 8 to 15 ° is, under which there is a supply space for a compressed gas, with a subsequent inclined surface is united, which is provided with holes or gaps whose width is greater than the largest grain of the feed material. This can be one layer of the same on the sorting chute over the entire length of the sorting chute and low thickness, so that a strong subdivision despite the low layer thickness is achievable according to different densities.

In order to be able to adapt the device to the respective task according to a further feature of the invention, the inclination of the porous surface of the sorting chute adjustable. For this purpose, the sorting chute can also be used to change the flow width be provided with adjustable side jaws on the porous surface.

The inclination of the inclined surface of the separation channel is also expedient adjustable, approximately between 20 and 40 °.

The invention is illustrated by way of example in the drawing, namely FIG. 1 shows a sectional view of the device according to the invention and in particular of the sorting chute, FIG. 2 is a sectional view of the separation chute, FIG. 3 shows a plan view of the unit consisting of a sorting chute and a separating chute; and FIG. 4 a sectional view of a modified embodiment of the sorting chute with gas container. The device in which the mixture is treated comprises ( FIGS. 1 and 3) a rectangular sorting chute 1, the flat bottom 2 of which consists of a fine-pored material; Below this base is a container 3, from which air or another gas can be blown in through the entire surface under uniform pressure over the entire surface, as indicated above.

The sorting chute is arranged in such a way that the porous bottom surface is inclined at a certain angle a with respect to the horizontal. That to be sorted Grain mixture 14 is introduced from above onto the bottom of the sorting chute and flows under the double influence of the angle a and the action of the fan to the lower Section. The sorting result obtained at the bottom of the sorting chute according to specific gravity depends on the size of the angle α, on the pressure of the gas flow taking into account the permeability of the porous surface, the length of the sorting chute and the solid quantity introduced into the channel. These values must be experimental determined in order to achieve the best possible result. This can be known with Devices are carried out, the sorting chute under variable and arranged measurable angles and the pressure under variable and measurable values depending on the porosity of the soil and the composition by weight of the mixture can be applied. The amount of grain supplied is also brought to a suitable value by changing the thickness of the grain flow. the The length of the sorting chute is generally determined by construction and beforehand depending on the type of goods to be sorted, experimentally determined to be an optimal one Get result.

Experience has shown that there are major differences in the specific Weight of the constituents of the mixture to be sorted means a reduction in length allow the gutter. In the opposite case, it must be increased.

The width of the sorting channel, which remains constant over the entire length 1 is by construction depending on the weight to be achieved Fixed amount taking into account the thickness of the stream and the mean specific Weight of the mixture to be treated is determined. This width can if necessary with the help of movable jaws 5 (Fig. 3) of suitable thickness placed on both sides the sorting chute are arranged, can be reduced.

In order to collect the parts separately at the exit of the sorting chute according to their specific weight during their way in the sorting chute have been sorted and which are arranged in layers from bottom to top of decreasing severity deposit in the thickness of the flowing grain stream, is preferably subsequently to the sorting chute on the side of the exit of the goods a separation chute 6 (Fig. 1, 2 and 3). This channel comprises a grate 7 with holes or Columns whose opening sizes are adapted to the grain size of the goods to be let through are. This separation channel must be arranged so that the grate 7 in relation is arranged to the horizontal at an angle b, which is relative to the angle a of Sorting chute and the type of mixture being treated can be adjusted accordingly is that the effect of gravity combined with the speed of the good on Output of the sorting chute results in a stream on the separation grate, its speed is preferably very small.

Under these conditions one achieves that when passing the grate 7 the layers whose specific gravity from bottom to top exceeds the thickness of the at the exit of the sorting chute 1 flowing out grain flow decreases, in a row arranged departments of the separation chute 6 below the sorting device be sorted according to their specific weight with optimal results.

Separation into as many groups as is practically desirable can be achieved in that flaps 8 are arranged below the grate, which are so inclined as to separate the various collected groups 15 Discharge container 9.

The flaps 8 are preferably movable along the length of the grate arranged to be the length of the for each group depending on the mixture to be sorted required grate and, as a result, adjust the composition of this group.

It is advantageous to have the width of the grain flow continuously on the grate from the beginning to the end, depending on the progressive decrease in the amount of grains on the grate to decrease.

This is effected for example (Fig. 3) by two tongues 10, which is perpendicular to the plane of the grate and on this V-shaped with by bending or Pivoting around their fastenings arranged on both sides of the grate at its end variable angle can be attached.

Various other embodiments of this device can also be used to be eliminated by pulling it off vertically, according to the specific weight Subdivided departments arranged one above the other in an almost horizontal position be used.

In certain special cases it is advantageous, depending on the type of mixture to be sorted, with the combined effect of drainage through the Gravity and fluidity have the effect of accelerating the rate of flow to connect the upper layers of the stream. This can for example (Fig. 4) can be achieved in that the upper part of the sorting chute 1 in whole or in part is closed by a plate 12. This creates parallel to the path of the granular A flow of air (or the flow of some other gas) flowing from the through the The bottom of the sorting chute comes from the injected fluid and the top layer the grain takes away faster. This speed of the air flow and thus the uppermost grain can be regulated by moving the plate 12 vertically, the plane of which can run parallel to the porous floor 2 or at an angle to this, whereby the flow of air can be regulated. If necessary, this can Flow rate by supplying additional air under suitable pressure a tube 13 (Fig. 4) can be increased, wherein the air supplied with the through air blown into the bottom of the sorting chute. On the other hand, one can use the Reduce flow rate by only partially removing the top of the sorting chute covers, for example for covering a suitably perforated Plate 12 is used.

In the case of industrial use, the known type of sorting several units arranged in series, each of which a sorting chute and a separating chute to divide groups therebetween or to further treat "mixed items". In the following, the Results achieved method according to the invention shown on the basis of examples.

Example 1 The treated mixture is a sand with a grain size of 0.15 to 0.35 mm. Its composition in terms of weight is as follows: a) specific weight 2.6 (silica) .. 43.2% b) specific weight about 3.5 (staurolite and / or garnet) ................... 7.8% e) specific gravity 4.6 (ilmenite and / or zircon). . . . . . . . . . . . . . . . . . . . . . . . 49.0% The treatment takes place on a sorting chute 10 cm wide and 90 cm long, the incline of which is 10.5 ° to the horizontal and which has a blower air pressure of 9 cm water column. The excretion takes place via a slatted grate with openings of 1.2 mm, the inclination of which is 31 ° to the horizontal. With one! In a single pass, four groups are collected in the separation chute with a yield of 1.080 kg per hour.

The following table shows the distribution of the four groups F.1, F. 2, F. 3, F. 4 in percent by weight of the treated mixture and the composition according to specific gravity of each group compared to the composition of the mixture. Output F.1 F.2 F.3 F.4 mixture Distribution of groups according to weight ................. 1000/0 17 '% 22% 38'0 / 0 23% a 43.2 1.8 9.5 52.8 92 Composition according to specific weight. . . . . . . . b 7.8 6.2 12 10.4 5.2 c 49 92 79.5 37 2.8 Example 2 The above group F.1 is used in an amount of 1.120 kg / hour. treated further on the same channel. In the course of a single pass, two groups F.1 and F.2 are collected with the following composition: Treated F.1 F.2 mixture Distribution of groups by weight ................. 1000/0 60% 40% # a 1.8 0.4 3.9 Composition according to specific weight ........ b 6.2 3.8 9.8 c 92 95.8 86.3 Example 3 Concentration of heavy minerals in grain sizes from 0.15 to 0.40 mm. Treatment on the same channel as in the above examples with an incline of 8 ° to the horizontal and with a blower air pressure of 7 cm water column and an hourly fixed yield of 1.160 kg. Original composition according to specific weight: a) weight 4.5 (ilmenite and / or zircon) .. 890/0 b) weight 5.1 (monazite). . . . . . . . . . . . . . . . 11% Three groups F.1, F.2 and F.3 are collected in the course of a single pass on the elimination chute. The following table shows the results: Treated F.1 F.2 F.3 mixture Distribution by weight ............................. 100% 34 "/ o 54% 12 '% Composition according to specific weight. . . . . . . . a 89 77 94 99.5 # b 11 23 5.9 0.5 Distribution of the goods with specific weight 5. . . . . . . . 1000/0 74% 29 '% 0.06%

Claims (9)

Claims: 1. Method for dry sorting of solid granular Good due to pneumatic density stratification and subsequent separation process, d a -by characterized in that the feed material for the dry sorting of bulk material of small grain size Brought to flow by continuous and evenly acting compressed air and is thereby divided into layers of different densities and then the layers are screened one after the other. 2. The method according to claim 1, characterized in that that the pressure of the compressed air is set according to the type of bulk material. 3. Device for carrying out the method according to claim 1 or 2, characterized by combining a sorting chute (1), the bottom of which is about 8 to 15 ° inclined porous surface (2), under which there is a supply space (3) for a compressed gas is, with an adjoining inclined surface (7) with holes or Columns is provided, the width of which is greater than the largest grain of the feed. 4. Apparatus according to claim 3, characterized in that the inclination of the porous Area (2) for sorting is adjustable. 5. Apparatus according to claim 3 or 4, characterized in that the sorting chute (1) for changing the flow width is provided with adjustable side jaws (5) on the porous surface (2). 6. Device according to one of claims 3 to 5, characterized in that the openings of the porous surface (2) are smaller than the finest grains of the feed material. 7. Device according to one of claims 3 to 6, characterized in that the porous surface (2) is supported by a grate or the like. B. Device according to one of the claims 3 to 7, characterized in that the inclination of the inclined surface (7) is adjustable is. 9. Device according to one of claims 3 to 8, characterized in that the width of the inclined excretion surface (7) is adjustable by a channel forming lateral jaws (10). Considered publications: German Patent Nos. 560110, 568 335, 715 598; German utility model No. 1700 861.