SU1546104A1 - Pressure filter - Google Patents

Abstract

The invention relates to devices for the purification of liquids from suspended and other impurities, and can be used in industrial water supply systems and chemical technology. The filter contains a mesh filter element 6, inside which are located electrodes 9 and 10, and the electrode 10 is provided with a damper, which is made in the form of a spring 11 and a tip 12. A conical shape gap 13 is formed between the tip 12 and the electrode 10. Filtration is carried out by feeding the filtered liquid through the nozzle 2 and withdrawing the purified liquid through the nozzle 3. The contaminants remain on the outside of the spherical filter element and are removed from the filter during regeneration through the nozzle 4 when the valve is opened 5. The regeneration is carried out using an electric discharge, created between the electrode 9 and the tip 12 of the electrode. During the discharge between the electrodes, the shock wave and the fluid flow created by it regenerate tip 12, part of the shock load is extinguished with the help of spring 11 and create fluid flow formed by the gap 13 when the tip moves before impact with the stationary electrode 10, which contributes to filter regeneration near the electrode 10. The use of a damper, made in the form of a spring 11 and a tip 12 installed with a gap 13 relative to the fixed electrode 10, makes it possible to intensify the regeneration and increase the reliability of the filter. 1 hp ff. 1 il.

Description

The invention relates to devices designed for the cleaning of liquids from suspended and other impurities and can be used in industrial water supply systems and chemical technology.

Purpose of the invention: increase in time of operation

The drawing schematically depicts pressure fi ptr

The filter contains 1 s of 2 and 3 days of P01achi and output of liquid and my ppam 4 with atvzhi 5 In this case, the mesh is replaced by a filter for 6 chambers cleared and cleaned

W and 1 COST 7 and 8 In the chamber 8 e i seam ui n w long-termed electrodes 9 and 10, see the jieKipOx Bbinoineii at ni j KIHIIM 1 11 and the sign and the headspace) 1 cm n g 10 and nakOHC4HHk 12 r n on yuzhe sh i on (I t axis (and yurov 13 Per yur P in nauseous conic on profit neoishpmo MI i trot 10

Phi ihip works as specimen mod. IKOCTH no (in fiplr through 2 reticuli fi Etemente b and och i, va va vypope through patrbszh 3 - pr ms mon which I hold n in the footsy frii on the surface of the dieMema h partially wash noi noi ii

SP

-U

O5

-U

I

source water and gradually accumulate at its base, where a spigot 3 for removal of the filtrate and a spout 4 for sludge discharge adjoin the screen element 6. Some of the contaminants silt the mesh of the mesh surface and are not washed away with the original fluid. Siltation of the filter element 6 during the filtration process leads to an increase in the hydraulic resistance and a decrease in filter performance.

As soon as the pressure loss on the filter element 6 exceeds the allowable value determined by the strength of the mesh, a current pulse generator (HIT) is turned on and a high voltage pulse is applied to the positive electrode that initiates an electrical discharge between the end of the positive electrode 9 and the tip 12 of the negative of electrode 10 The shock wave and hydrodynamic flow formed during electrical discharge affect the silty mesh surface of the filter element 6, destroy the layer of the delayed precipitate and discard impurities from the surface of the filter mesh.

A shock wave propagating in the longitudinal direction acts on the spring-loaded tip 12 of the negative electrode, which is rapidly moving downward, expelling the liquid from the gap 13 in the form of a conical jet. Under its action, the area of the mesh screen located at the lower part of the filter element 6 is cleaned, which is not affected by the main hydrodynamic pump pulse generated by electric discharge. The impact that the electrode tip 12 produces on its lower part 10 is transmitted to the filter element 6 and causes it to insert caking, which also intensifies the process of cleaning it from the delayed contamination

Simultaneously with the activation of the HIT, open the valve 5 and all the impurities in the filtration process that are delayed are removed to the outside of the filter through the nozzle 4

After several discharges and complete cleaning of the filter element 6, the HIT is turned off, the valve 5 is closed and

0

the fluid is again filtered without filter regeneration. The switching on and off of the HIT and, accordingly, the reproduction of electrical discharges can be performed either manually or using a contact differential pressure gauge, which records the loss of pressure on the filter element, which makes it possible to automate the operation of the filter.

The spherical shape of the filter element provides maximum filtering area with minimum filter dimensions and optimal regeneration conditions for the filter element by shock wave and hydraulic flow, propagating from electrical discharge with spherical symmetry. There are no rotating and rubbing parts in the filter, which simplifies the design of the filter, reduces the cost and increases its reliability.

Tests of the proposed filter showed that when a negative electrode with a spring-loaded tip is used in an electric discharge, the filter regeneration time is reduced and the flushing water consumption is reduced due to the intensification of the cleaning process by electric discharges. This provides better filter performance. The impulse loads acting upon electrical discharges on the electrodes are partially extinguished by a spring, thereby increasing the reliability and durability of the filter electrode system.

Claims (1)

Invention Formula A pressure filter comprising a housing with 5 nozzles for supplying and discharging the filtered liquid and removing the sludge, installed in the housing a mesh filter element dividing it into chambers for the cleaned and purified liquid, in the latter of which positive and negative electrodes are installed, differing the fact that, in order to increase reliability in operation, the negative electrode is made in the form of elements mounted along the same axis with a conical gap and connected between 5 by a spring +