DE3539902A1 - Treatment of shredder scrap - Google Patents

Abstract

In the treatment of shredder scrap (2), by separating the light fraction (15, 16, 17) from the non-magnetic material (6) by means of air jigging (12, 13, 14), the following plant part for float-and-sink separation (25, 26, 30) can be substantially relieved. To improve the separation, the non-magnetic material (6) should be graded (7) before the air jigging (12, 13, 14). <IMAGE>

Description

The invention is directed to a preparation process shredder scrap by separating the magnetic Portion and a one- or multi-level sorting of Non-magnetic goods by means of swim-sink divorce, as well as on a device for performing the method.

In shredder plants, essentially old cars and so-called wealth waste (refrigerators and other household appliances) are processed into shredder scrap. Up to 70% of magnetic waste is removed from the shredder scrap by magnetic separation. The non-magnetic material is composed of textiles, wood, glass, stones, tires, plastic parts as well as residual dust and metals such as aluminum, copper, zinc, tin, lead, magnesium, their alloys or compounds and non-magnetic steels. So far, the non-magnetic material has been classified in a drum sieve at 100 or 60 mm. The coarser 60 or 100 mm fraction, which contains large pieces of tire, motor windings and the like, must be hand-stuck. Grain classes smaller than 60 or 100 mm are fed into a heavy turbidity plant. With a separation density in the range of 1.6 to 1.7 g / cm ^3, rubber, wood, plastic parts and textiles are sorted out. The sediment is then subjected to a heavy sludge separation in the range of 2.85 to 2.9 g / cm ³ in order to separate aluminum and aluminum alloys from the heavier metals.

The processing of non-magnetic material in heavy turbidity plants is problematic and expensive. Contrary to the past Old devices and old cars have not been cannibalized before, which to a greater extent in light goods and in oils and Battery acid leads. This leads to a stronger ver contamination of the clouded and the regeneration of the Cloudiness is correspondingly more complex. Besides, will more heavy material is towed out by the light goods.

The object of the invention is to improve the Processing process of shredded scrap is a protection to reach the clouding of the dark.

In procedural terms, the problem is solved in that before Float-sink divorce a separation of the non-magnetic material done by air setting.

The main idea of the invention is before Float-sink divorce through the light non-magnetic material To separate air settlements.

Although it is known that air-tightness is a narrower class sation of the feed material must be required and the Selectivity when placing the air does not match that of the swimming Sink divorce is coming up, it surprisingly turns out that the treatment process for shredder scrap through the additional step of air seating if sufficient Selectivity becomes more economical because it achieves this Conservation of the heavy turbidity clearly outweighs the additional effort.

A preferred density range to which the air setting machine is set is between 1.6 and 1.65 g / cm ³ . The resulting light goods (in the order of up to 40%) essentially consist of rubber, wood, plastics and textiles. The material coming out of the shredder is hot and largely dry. The adhering oils and acids as well as residual dust are essentially removed by the circulating air when the air is set.

It is known that when air is set by the lower Apparent density even heavy parts can be discharged. In trials, there was a defective content in the light goods moved to the grain class of approx. 10 to 13%; he is almost twice as high as with swim-sink separators. Indeed this is less due to an insufficient selectivity of the Attachment rather than the interlocking and jamming between the individual metal components.

On the other hand, there is no loss at this point Heavy cloud particles.

In the float-sink lift that follows the air setting riding, for example in a lifting wheel separator, could be on different large parts separated according to their density will; but it is also possible to classify the ones anyway Treat fractions separately. It turned out to be exposed favorably, the heavy fraction with grains grö Return more than 40 mm to the shredder and fraction to treat less than 40 mm in a gravity cyclone.

An inventive device for performing the Ver Fahrens contains at least one air setting machine for loading act of the non-magnetic material in front of the swim-sink-shit dung. A classifying device improves the selectivity the air setting machine.

The invention is shown schematically in the drawing and further described below by way of example. In the shredder system 1 , large devices and cars 2 consisting predominantly of metal are pressed together and crushed.

Since there is hardly any sorting of the feed material today, shredder scrap 3 contains organic constituents such as wood, rubber and plastic in different amounts, but also adhering oils and acids. Iron and non-ferrous metals are to be considered as valuable materials in shredder scrap.

With a magnetic separation 4 , the magnetic material 5 is brought out. In addition to the metallic non-ferrous materials, almost all "contaminants" remain in the non-magnetic material.

According to the invention, the non-magnetic light material, which is predominantly formed by the “disruptive” constituents, is to be separated beforehand by air settling. In order to improve the selectivity, the grain size of the material must be limited. For this reason, the non-magnetic material 6 is classified here in egg ner 7 drum 7 . There are three grain classes 8 , 9 , 10 in the grain class ratio 1 to 2, for example with cuts between 120 to 60, 60 to 30 and 30 to 15 mm. Since approx. 90% of the shredder scrap lies in the grain size range between 10 and 40 mm, it can be useful to further divide this middle area. The fine grain 10 a smaller than 5 mm is discarded. Very fine dust 11 is discharged from the screening device and discarded directly. The coarse parts 8 a are handgelaubt.

Each of the fractions 8 , 9 , 10 is given to an air setting machine 12 , 13 , 14 , which is basically the same. When setting the air, the air volume and the air baffle setting on the fan and on the setting grate as well as on the overflow frame must be adapted to the feed grain size. Each air setting machine 12 , 13 , 14 separates the classified non-magnetic material into a light 15 , 16 , 17 and a heavy fraction 18 , 19 , 20 .

In principle, a third fraction is formed during air setting: The air stream 21 emerging from the air setting machine absorbs a large part of the light components, such as paper and fiber materials, the dust and adhering oil and liquid residues. These substances that pollute the heavy turbidity are eliminated in air purification 22 and 23 ; the clean air is returned to the air setting machine via 24 .

The entire heavy goods 18 , 19 , 20 can be brought together again for the heavy pulp cutting.

In the described system, the heavy media separation is a two-stage 25, the separation density in the first stage 25 is about 2.7 g / cm ³ and in the second stage 26 was 2.9 to 3.0 g / cm ^3. In the first sink separator 25 , the heavy slurry contains a magnetite-ferrosilicon mixture, in the second sink separator 26 pure ferrosilicon as a heavy substance. For a certain shredder scrap, it has been found that the portion 29 between 2.6 and 2.9 g / cm ³ consists essentially of aluminum and aluminum alloys, while the portion 28 over 2.9 g / cm ^{3 is} all heavy metals ( Copper, zinc, tin, brass, bronze, lead, antimony and their alloys). However, it is advantageous to use the coarse grain class 8 z. B. coarser 40 mm after the classification back into the shredder 1 for further shredding. Then only two air-setting machines are required for grain classes 9 and 10 .

The heavy goods 19 and 20 can then be merged for the treatment of heavy turbidity and treated in two stages in heavy turbidity cyclones.

Of course, in the process according to the invention, the sludge in the float-sink separators 25 and 26 or heavily cloudy cyclone 30 must also be regenerated and supplemented. This circuit is known per se and is not shown separately in the figure. However, the savings in the preparation of the operating and separating cloudy circuits are considerable.

The table shows an example of the different proportions of shredded non-magnetic material. The proportions of non-magnetic material (in percent by weight) for the individual classes were:

The coarse material is recirculated, the dust is discarded, and the middle 3 fractions are each fed to an air setting machine. The density fractions given in the table resulted:

Claims (10)

1. A process for the treatment of shredder scrap by separating the magnetic portion and one- or multi-stage sorting of the non-magnetic material by means of a float-sink divorce, characterized in that prior to the float-sink divorce, the non-magnetic material is separated by air settling. 2. The method according to claim 1, characterized in that classified non-magnetic material is separated by air. 3. The method according to claim 2, characterized in that each classified non-magnetic material fraction one on the spe Abandoned grain size coordinated air setting machine becomes. 4. The method according to claim 1, 2 or 3, characterized records that the non-magnetic material in classes smaller than 10 mm, from 10 to 60/100 mm and larger 60/100 mm. 5. The method according to claim 1, 2 or 3, characterized records that the non-magnetic material in classes smaller than 10 mm, larger than 100 mm and other classes between 10 and 100 mm is disassembled. 6. The method according to any one of claims 1 to 5, characterized in that the non-magnetic material in the air setting machine is separated at a density of 1.6 g / cm ³ . 7. The method according to any one of claims 1 to 6, characterized characterized that coarse-grained heavy cargo after the air put in the shredder is recirculated.   8. The method according to any one of claims 1 to 7, characterized characterized in that the heavy non-magnetic material in a Float-sink divorce is separated. 9. The method according to any one of claims 1 to 7, characterized characterized in that the heavy non-magnetic material in a multi-stage swim-sink divorce is separated. 10. Device for performing the method according to one of claims 1 to 9, consisting of a shredder, a magnetic separator and one or more float-sink separators, characterized in that a classifying device ( 7 ) and at least one air setting machine ( 12 , 13th , 14 ) for treating the non-magnetic material ( 6 ) before the swim-sink divorce ( 25 , 26 ) are present.