DE688771C - Sink processing in a sword-grape contained coal abrasion - Google Patents

Description

Procedure for removing water from swimming and sinking treatment , Coal abraded contained in a heavy beet The invention relates to a method to remove the coal abrasion from the heavy liquid, which is and sink processing of coal and similar materials is used.

Up to now, attempts have been made to eliminate this abrasion by passing the heavy liquid over a vibrato (vibrato) covered with 0.15 mm and sieving off the abrasion from 0.15 to 0.5 mm. The sieve penetration was returned to the thickener and some of the finest coal sludge particles were washed away via the overflow. However, this method has the following disadvantages: Because of its fineness, the screen mesh is extremely sensitive and consequently has a short service life. Furthermore, the sieve can only be subjected to moderate loads, since there is a risk of the fabric clogging and, when exposed to heavy loads, part of the magnetite-containing sludge water runs off over the sieve, causing losses of weighting substance. With the overflow of the thickener, the amount of sludge washed away can be regulated, but only coal sludge particles of the order of magnitude smaller than 0.05 mm can be removed if magnetite is not to be washed out at the same time. The abrasion with a grain size of 0.05 to 0.15 mm is therefore not washed away, remains in the system and causes silting of the heavy beet.

According to the method according to the invention, these drawbacks are thereby eliminated avoided that part of the solids contained in the heavy beet constantly a is subjected to different comminution so that the weighting substance, z. B. magnetite, is spared and the coal particles are crushed to sludge fineness after which the fine coal sludge is flushed out.

It should also be noted that the invention in the union of the individual, above-specified process parts consists. It is through this union that the effect becomes achieved that the coal sludge is washed away entirely or for the most part, while the weighting substance remains wholly or for the most part in the turbidity.

The method according to the invention is based on an exemplary embodiment described. A system is shown schematically in the illustration shown, with which the process according to the invention can be carried out.

The coal separated in a swimming and sinking system a is passed over the sieve b. On this sieve, the sludge still adhering to the coal is rinsed off by fresh water supplied from the pipes z and passes through the pipe c into the collecting container d. This pulp also contains charcoal. The centrifugal pump e pumps the pulp through a pipe f into the thickener g. This thickener is provided with an adjustable overflow 1a. The thickened pulp is drawn off from the tip of the thickener g and passes through a pipe i into an agitator k, in which fresh water is fed in through the pipe na as required. From the agitator, the slurry is returned to the swimming and sinking system through the tube et and conveyed to the surface of the floating and sinking vessel together with the rest of the slurry by means of air blown through the tube j. A part of the thickened Tiübe withdrawn from the tip of the thickener g is fed through the pipeline o to a wet ball mill p, for example a discharge chamber mill (described in Mayer-Schranz: "Die Flotation", 1931, pp. 74 and 75), in which the Solids are subjected to a comminution in such a way that the coal particles are comminuted to a fineness of sludge, but the weighting substance, for example the magnetite, is spared as much as possible. Since the coal particles are much softer than the magnetite, it is possible, with the mill to work, to crush the coal while the magnetite retains its grain size. With this mill it is possible to completely remove even the heavy particles through the discharge chambers.

Today, grinding technology offers the possibility of different size reduction of the ground material to be exposed, in which only the soft, fine components are ground as far as possible.

From the mill, the pulp passes through lines q, r and the switched on centrifugal pump s into the thickener g. Via the controllable overflow according to the thickener, part of the sludge is continuously washed away with the finest coal sludge, while the magnetite sinks to the bottom. Part of the sludge washed away is passed through the pipeline y over the first part of the sieve b and used here to shower off the coal, the remaining part is removed from the system.

The sludge washed off the mountains is treated in the same way and also, as not shown in the drawing, in the collecting container d. collected and passed into the thickener g. In the pipes i and o are for the purpose Control slide valve u and v built in.

In the case of the method shown, it is possible to reduce the abrasion so far eliminate that silting does not occur. Under special circumstances you can Do without the trembling sieve (vibrator) or using a trembling sieve (vibrator) Use a larger mesh size.

In an advantageous embodiment, grinding media are used in the mill P, whose hardness is greater than that of the abrasion, but less than that of the weighting material. One uses, for example, grinding media made of flint stone, pebble stone, hardwood or the like. Like. If you choose a mill that also grinds coarse hard materials at the same time can be used, the mill can also be used for grinding fresh magnetite. The introduction of the coarse magnetite takes place as required by the feeding device t.

The mountains withdrawn from the swimming and sinking vessel a are carried through a bucket elevator w conveyed onto a sieve, not shown here, where the mountains of the heavy liquid can be separated in the same way as the coal. The severed one Heavy liquid returns to the system through pipe x. The follow-up of the rinsed weighting material takes place, as shown above, in the same In the same way as the treatment of the weighting substance rinsed off the charcoal.

Claims (2)

PATENT CLAIMS: i. Procedure for removing the swimming pool and sink processing of coal and similar substances contained in a heavy beet Coal attrition, characterized in that always a @ part of the heavy beet Solids contained in a different comminution subject to such is that the weighting substance, e.g. B. magnetite, is spared and the coal parts crushed to the fineness of the sludge, after which the fine coal sludge is washed out. 2. The method according to claim i; characterized in that a Part of the solids extracted from a thickener (g) and contained in the heavy beet in a wet ball mill (P), e.g. B. a flint mill, grind and the ground Well pumped back into the thickener (g), with the overflow of which the fine coal sludge is flushed out while the other part of the solids in the process cycle returned immediately.