DE661897C - Device for processing hard coal or other substances by means of heavy fluids - Google Patents

Description

Device for processing hard coal or other substances by means of heavy liquid The present invention relates to a device in which the separation of raw materials, such as B. of coal, by means of the known Swimming and sinking procedure is performed.

In the drawing, an embodiment is shown, namely the Fig. I shows a central longitudinal section through the new device, while Fig. 2 shows a section along the line AB. In the reprocessing tank a. two shafts b and c are arranged, which are occupied with disks d and e. The shafts are set in constant rotation by a belt drive f. The inner parts of the shafts and the disks are covered by a grate-like cover body g which only partially surrounds the disks and is provided with slots k for the disks. As the drawing shows, the disks are mounted in such a way that free cross-sections (channels i and #k) remain between the lower part of the processing vessel a and the cover body. The raw material is fed into the pulp n by the belt m. The turbidity is of such a specific weight that the pure coal goes down on it, while the middle goods and mountains perish. Finely ground magnetite and water, for example, can be selected as such a turbidity. It is not necessary for the pulp to be a stable suspension. The movement of the turbidity in the processing vessel, described below, rather ensures that the weighting substances remain suspended in the water.

When pouring into the chest, the pure coal separates from mountains and Mittelgut; it floats on the surface of the bath and is blocked by the scratch tape or the like carried out at p. Through the movement of the disk shafts as shown a counterclockwise flow of water is created in the separating vessel. the pure mountains, which are the heaviest, are also the quickest to separate from the coal and fall through the shaft! down into outlet g, from where it passes through the mountain bucket elevator r can be transported upwards. The middle good, on the other hand, follows the Water flow and partly remains suspended, partly it falls on the upper level Area s of the cover body g. The axes c and b of the disks are inclined at an angle Arranged level, and the upper cover surface s is inclined at an angle. That promotes together with the flow of the sludge, the medium material is discharged to the Schurret. From there it gets into a not specifically shown 'bucket elevator and in the Extension of the upper surface s of the cover body is located, a Sieve or rust v. This prevents the Mittelgut from the water flow downwards is entrained, however, allows the sludge to circulate freely through the channels r. ' and k between the cover body and the container wall. Between the discharge for the Kohlre and an adjustable flap w can expediently be arranged for the medium good. This makes it possible to have a larger or smaller part of the in abeyance present components to the discharge t for the medium good to thereby to achieve a sharpness of separation in different ways.

As a result of the movement of the disks d and e, an inherently undesirable circulation of the sludge within the cover body g is of course also achieved. This can be counteracted by installing one or more partition walls x in this room, for example. In order to avoid an accumulation of the turbidity-weighting substances in the housing g, the bottom part of the housing is designed as a sieve y. If you want to achieve an even better removal of the heavy matter, you can leave the sieve away and thereby obtain a free slot through which the weighting substances can fall out and mix with the constantly circulating turbidity again. In order to avoid that the coal pieces lie in front of the disk wheels and are thereby smashed, fitting pieces z and a1 are attached, which correspond exactly to the disk thickness and are each arranged in the plane of the disks.

In the drawing, the coal pieces are shown in black, the mining pieces on the other hand white and the middle good partly black, partly white.

The inclination of the surface s of the cover body is expediently so chosen to be parallel to the plane of the axes of the disk shafts. At oblique Arrangement then takes place the conveyance of the particles falling on this surface in part due to gravity, partly due to the turbidity flow after the discharge, while in the case of a horizontal arrangement, the promotion is supported by an increased turbidity movement of the friction between the product and the rotating disks, happens.

The great advantage of the new device is that it can be used at lower Overall height still has a great performance because the medium good with great speed is enforced in a relatively low layer. *

Claims (4)

PATENT CLAIMS: i. Device for processing hard coal or other substances by means of heavy liquids, characterized by on two or several shafts (b, c) whose axes lie in a horizontal or inclined plane, attached discs (d, 2) rotating in the same direction inside the container (a), by one that only partially encompasses the panes, at a distance from the container walls arranged cover body (g), on its upper, provided with slots for the discs grate-like surface parallel to the plane of the axes of the disk shafts after discharge adjoining a sieve, and by such an arrangement of the discs and the cover body at the task point that free cross-sections for the mountains to sink to the ground cles container remain free. 2 <- Device according to claim i, characterized in that that within the cover body (g) to prevent undesired circulation of the sludge Partition walls (x) are installed. 3. Device according to claim i and 2, characterized in that that the bottom of the cover body (g) is designed as a sieve (y) or with a slot is provided. 4. Apparatus according to claim i to 3, characterized in that in front of the disk wheels (cZ, e) fitting pieces (z and ai) are attached, which are exactly the Disc thickness correspond and are each arranged in the plane of the discs.