SU988316A1 - Apparatus for controlling disk vacuum filter - Google Patents

Description

The disk vacuum filter consists of a bath 1 in which two cell shafts 2 and 3 are installed on the same horizontal level with filter disks 4 and 5 fixed to them. Filter disks 5 consisting of separate sectors are placed in interdisk spaces of shaft 2. Cellular shafts 2 and 3 through fixed distribution heads 6 and 7 are connected to the source 8 of pneumatic energy (vacuum and compressed air). The distributor heads 6 and 7 are equipped with spool switches 9 and 10, which ensure the switching of the operating discs from the filtering mode to the thickening mode.

The spool switches 9 and 10 through the control block 11 are connected to the block 12 for determining the solids content in the suspension. The control unit 11 consists of series-connected threshold elements 13 and switching elements 14. On the opposite sides of the bath 1, in parallel to the shaft cell 2 and 3, discharge pockets are installed

15 (Fig. 2).

Cell shafts 2 and 3 are driven by separately controlled drives. The suspension of the disk vacuum filter is supplied from the side of the pockets through distribution manifolds.

16 and 17. The disk vacuum filter is equipped with a blade broom 18 installed at the bottom of the tub.

The disk vacuum filter control device operates as follows.

Through the distribution manifolds 16 and 17, the slurry enters the bath 1. The filter discs 4 and 5 rotate in opposite directions. Under normal operating conditions, i.e., when the concentration of the suspension is within acceptable limits, the disks mounted on the cell shafts 2 and 3 operate in the filtering mode. In this case, all sectors of these disks, rotating, in one revolution, pass several working zones: a set of sediment 19, its apertures 20 and stripping 21 (Fig. 3). The distribution of the pneumatic energy supplied through the distributor heads 6 and 7 to the cellular shafts 2 and 3 over the working zones is performed using spool switches 9 and 10. During normal operation of the vacuum filter, i.e., in filtering mode, the sediment is removed over discharge pockets 15 (Fig. 2). The sediment falls into the pockets of 15 and falls on the conveyor. The working filtering surface of the disk vacuum filter in this case is determined by the sum of the surfaces of all the disks.

With a decrease in the solid content in the suspension, i.e. its concentration, below the limit value, the output signal of the block 12 through one of the threshold elements 13 and the switching element 14 commands the corresponding spool switch 9 or 10 to distribute the pneumatic energy supplied to the distribution head work areas

corresponding to the operation of the disks in the thickening mode (Fig. 4). In this case, all disk sectors, rotating, will pass through the working zones: dial 22 and its blown out 23 (Fig. 4) The precipitate, after its removal from the filter disks operating in the condensing mode, enters from the filter disks operating in the condensing mode enters the bath and is moved with the suspension contained in the bath with the help of a blade dresser 18. As a result, the concentration of the suspension rises, which contributes to an increase in the productivity of the second group of disks operating in the filtering mode.

The number of disk groups switched to operation in the condensation mode is determined by the size of the output signal of block 12, i.e. the amount of solid in suspension.

It is possible to install in a similar way and a larger number of cell shafts, for example, three. In this case, the filter disks of the extreme shafts, as a rule, work in the mode of filtration, and the middle ones - in the mode of thickening.

Thus, the presence of two or more cell rolls with filter discs® allows you to increase the productivity of a disk vacuum filter by 2 times while reducing the specific-occupied production area. In addition, when the filtering conditions change (the quality of the suspension, the magnitude of the vacuum, etc.), the disk vacuum filter allows the suspension to be concentrated and filtered simultaneously. It is also possible to use it as a thickener suspension. All this will be

0 operational capabilities of the disk vacuum filter and contributes to improving its performance when operating on low concentrated suspensions.

The economic effect of using the proposed vacuum filter is

ABOUT 36 thousand r. Per year.

Claims (2)

1. A disk vacuum filter control unit containing a bath with discharge pockets, distribution heads, a source of pneumatic energy, two cell grooves in parallel with the filter discs, in order to improve the disk vacuum filter performance during operation on low concentrated suspensions, the device is additionally equipped with a block for determining the solids content in the suspension, a control block and spool switches; The determination of the solids content in the slurry is connected via a control unit to the control inputs of the spool switches, the other inputs of which are connected to a source of pneumatic energy, and the outputs to distribution heads. 2. A device according to claim 1, characterized in that the control unit consists of series-connected threshold and switching elements. Information sources, taken into account in the examination 1. Brook O. L. Filtration of coal suspensions. M., "Nedra, 1978, p. 48. 2. The author's certificate number 797722, cl. B 01 D 33/26, 1978.