SU1669493A1 - Vibrating filter - Google Patents

Abstract

The invention relates to devices for the continuous separation of suspensions into liquid and solid phases, and specifically to vibration filters. The goal is to enhance the regeneration of the filter. The vibrating filter contains a housing with nozzles for supplying the initial fluid, draining the filtrate, heavy soils and a filter element enclosed in a microgrid placed in the housing, the open end of which is connected to the filtrate draining nozzle, and a vibration exciter, the spring-loaded movable cup of which is attached to the closed end of the filter element, and the walls with an elastic membrane installed with the possibility of blocking the feed holes are attached to the receiving tube of the vibration exciter rigidly connected to the nozzle odvoda initial liquid. The filter is equipped with an overflow pipe with a flow regulator tangentially installed in the upper part of the housing, and the vibration exciter is equipped with diaphragms located before and after the feed holes. The filter is also equipped with a flow reflector mounted on the receiving tube of the vibration exciter, made in the form of a screw chute, and the filter element has the shape of a truncated cone, located a large base down. 1 hp ff, 1 ill.

Description

The invention relates to devices for the continuous separation of suspensions into liquid and solid phases, and specifically to vibration filters.

The purpose of the invention is to enhance the regeneration of the filter.

The drawing shows a vibration filter, a general view.

The vibration filter consists of a cylindrical body 1 with nozzles for supplying the source fluid 2, draining filtrate 3 and heavy soils 4. At the top of the body is tangentially installed

a bypass pipe 5 with a regulator 6. In case 1, a filter element 7 sealed by a microgrid and a vibration exciter 8 are placed. The upper open end of the filter element, made in the form of a truncated cone, is attached to the nipple 3 by the microgrid 9; the shape of the glass of the movable element 10 of the vibration exciter. The walls of the glass vibrator are attached to the receiving tube 11 of the vibration exciter 8 by means of an elastic membrane 12 that overlaps

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feed holes 13 in the lower position of the glass. The movable element of the vibration exciter through the rod 14 and the return spring 15 is connected with the filtrate outlet pipe, which has a threaded connection with the housing. In the receiving tube of the vibration exciter, having a threaded connection with the source liquid supply nozzle, diaphragms 16 are installed in front of the feed holes and after them, and a reflector 17 arranged in the form of a screw groove is placed outside the tube.

Vibration filter works as follows.

The contaminated liquid through the pipe 2 and the receiving pipe 11 enters the glass 10 of the vibration exciter 8 and lifts it, overcoming the force of the spring 15. At the same time, the membrane 12 opens the feed holes 13, providing fluid supply to the housing and a decrease in pressure in the vibration exciter. The glass under the action of the spring 15 returns to its lower position, closing the holes 13 and providing axial oscillations of the filter element. The shape of the oscillation pulse of the filter element is established by means of a diaphragm 16. The tension of the filtering net 9 is regulated by pressing the return spring 15. From the vibration exciter, the initial fluid falls on the helical reflector 17, twists and rises. In this case, a cyclonic effect occurs in the liquid under the action of which heavy particles of contaminants are concentrated along the walls of the housing, are lowered and removed through the pipe 4, and light particles of contaminants are collected in the center, rise up and leave the filter with a part of the liquid through the bypass pipe 5 , The flow rate in the overflow pipe is changed by means of the regulator 6. At the same time, with increasing flow through the regulator, the hydraulic load on the filter element decreases, the cyclonic

effect and improve the condition of regeneration of the filter element while reducing the flow rate of the filtrate through the pipe 3. Thus using the entire flow of the source fluid to drive the vibration exciter with subsequent discharge of a part of the fluid from the filter, mine the filter element, and ensuring the optimal pulse shape and frequency

oscillations significantly enhance the regeneration of the filter during its operation.

Claims (2)

1. Vibration filter, comprising a housing with source connections fluid, filtrate drainage, heavy contaminants and a filter element enclosed in a microgrid, placed in the housing, the open end of which is connected to the filtrate drainage nozzle, and a vibration exciter, the spring-loaded movable cup of which is attached to the closed end of the filter element and the walls using an elastic membrane , installed with the possibility of blocking the feed holes, are connected to the receiving tube of the vibration exciter, which is rigidly connected to the pipe for supplying the source fluid, characterized in that In order to enhance the regeneration of the filter during operation, it is equipped with a bypass pipe with a flow regulator tangentially installed in the upper part of the housing, and the vibration exciter is equipped with diaphragms, located before and after the feed holes. 2. The filter according to claim 1, characterized in that it is provided with a flow reflector, mounted on the receiving tube of the vibration exciter, made in the form of a screw chute, and the filter element has the shape of a truncated cone, located a large base down. d.