SU997738A1 - Disc-type vacuum filter - Google Patents

Description

(54) DISC VACUUM FILTER

one

The invention relates to the filtration of suspensions, is intended to increase the performance of vacuum disk filters and can be used in the coal, mining, chemical and other industries.

The pre-concentration of the suspension significantly increases the filter performance not only by increasing the concentration of solids in the suspension, but also as a result of a sharp decrease in the negative effect of its separation,. as well as creating conditions for intensifying the regime by increasing the number of revolutions of the discs.

A vacuum disk filter is known, comprising a hollow shaft with dewatering discs fixed on it, a bath with a mixer, distributor heads and a drive. On the side opposite to the sediment discharge, in the bath below the level of the suspension are fixed stationary thickening filter sections. A collector is installed near the sections to remove or return the filtrate. The sediment filtered on the sections is periodically removed by the reverse current of the filtrate 1 The main disadvantage of this filter is the low efficiency of the preliminary condensation - the solid content increases by only 20-30%. Accordingly, the performance of the filter as a whole does not significantly increase. The reason for the low condensation efficiency is the small number of sections operating cycles per unit time. This is due to the slow removal of sediment from the filtration zone of the sections under conditions 10 without the relative movement of the slurry and sections. An increase in the number of cycles leads to the reverse suction of the removed sediment and the sections stop working. The low condensation efficiency is explained by the small filter area of the sections, since their dimensions are limited to the bath and the level of suspension in it.

A vacuum disk filter is known, in which a part of dewatering 20 disks 2 is used to pre-thicken the suspension.

However, this filter also does not provide intensive condensation.

The closest technical solution to the invention is a disk vacuum filter containing disks mounted on parallel shafts, while the disks of one shaft are placed between the disks of the second shaft 3.

This filter allows to significantly intensify the thickening of the suspension, however, when the separation of less concentrated suspensions, the degree of concentration remains insufficient.

The aim of the invention is to increase the filter performance by intensifying the pre-concentration of the slurry.

This goal is achieved by the fact that in a filter containing a bath, parallel installed shafts with channels for drainage of filtrate, distribution heads, drive and thickening and dewatering discs made from separate sectors, fixed by necks on the shafts, while thickening discs are placed between the dewatering discs in groups two disks or more and the ratio of the filter area of thickening disks to their internal volume is 200-400.

The throat sectors of the thickening disks are displaced relative to its axis and located at the leading edge of the sector in the direction of its rotation, the throat of the sector is lowered into the shaft channel to half the height of its cross section, and the cross section area of the shaft channel is larger than the sum of the cross-sections of all the throats entering the channel.

FIG. 1 shows a filter, a general view; in fig. 2 shows section A-A in FIG. one; in fig. 3 - node shaft and the throat of the disk.

The disk vacuum filter contains a shaft 1 with dewatering disks 2 and distribution heads 3, a shaft 4 with thickening disks 5 which enter the spaces between the disks 2, distribution heads 6, a common bath 7, a drive 8 and a power collector 9. The thickening disks sectors 10 are designed so that the ratio of the filtering area to their internal volume is at least 400, which ensures the effective suction of the filtrate. Thickening disks are placed between dehydrating groups of two or more disks. The throat 11 of the sectors 10 is shifted from the axis to the leading edge of the sector so that at the end of the filtering zone, before washing the sediment, the volume of the sector is not emptied. The sector neck enters the shaft channel 12 up to half its cross section in order to eliminate a possible drain back into the sectors remaining in the filtrate shaft channel at the time the shaft channel joins the atmosphere to flush sediment from the sectors.

The filter works as follows.

Through the collector 9, the initial slurry enters the beginning of the filtering zone of the thickening disks 5. Another series of sectors of the disks 5 at the beginning of the filtration zone is connected to the vacuum with the help of distribution heads 6. As a result, the sediment is filtered on the sectors, and the filtrate through the mesh penetrates into the internal cavity of the sector, filling it. Due to the small volume of the sector, the filtrate, filling it, flows through the neck 11 into the shaft channel 12 and is removed through the distribution heads 6. At the end of the filtering zone, this row of sectors through the distribution heads 6 is disconnected from the vacuum

and is connected to the atmosphere, as a result of which the filtrate, which is in the sectors and fills its entire volume, is poured out through the screen and washes away the sediment. In order for the filtrate remaining in the shaft channel at the time the sectors are connected to the atmosphere,

could not be poured back into the sector under the action of atmospheric pressure, the throat of the sectors continued in the shaft channel to half its height. Upon further rotation of the shaft, this filtrate is also removed.

through the distributor head 6. The washed loose sediment is lowered into the filtering zone of the dewatering disks 2, picked up by them, dehydrated and blown off with compressed air. The dewatering discs 2 work like a regular disc vacuum filter.

The invention allows to pre-thicken the flotation concentrate from 250 g / l to the maximum required 500-600 g / l and to produce dehydrated 1 thickened suspension with a capacity 4 times greater than the filter of the same area that works without thickening the suspension.

Claims (3)

Invention Formula 5 1. A disk vacuum filter containing a bath, parallel-mounted shafts with channels for drainage of filtrate, drive distribution heads and thickening and dewatering disks made of separate sectors, fixed by throats on shafts, while thickening disks are placed between the dehydrating disks, characterized in that, in order to increase the filter performance by intensifying pre-thickening 5 NIN suspensions, thickening disks are placed between the dewatering disks in groups of two or more, wherein the ratio of the area of the filter disc thickener to their internal volume equal to 200-400. 0 2. The filter according to claim 1, characterized in that the throat of the sectors of the thickening disks is offset relative to its axis and is located at the leading edge of the sector in the direction of its rotation. 3. The filter according to claim 1, characterized in that the throat of the sector of the thickening disk is lowered into the shaft channel to half its height, and the cross-sectional area of the shaft channel is more than the sum of the cross-sectional areas of all mouths entering the channel. Sources of information taken into account in the examination 1. USSR author's certificate No. 448875, cl. B 01 D 33/26, 1971. 2. The UK patent number 1471153, cl. In 1 D, 1977. 3. USSR author's certificate No. 406553, cl. B 01 D 33/26, 04.24.71 (prototype). YU