SU1389860A1 - Vibratory cyclone - Google Patents

Abstract

The invention relates to a technique for the separation of inhomogeneous media and makes it possible to increase the efficiency of purification of a liquid and to improve the regeneration of the filter element. For this, the vibrocyclone containing the filter element (F) 7 in the form of a perforated cone, installed vertically downwards and equipped externally with an elastic net 9 attached to the filtrate outlet, is provided with a Venturi nozzle (B) 13c attached in supply section 15 through a check valve 14 air connected to the tangential nozzle 16 for supplying the gas-liquid mixture to the lower part of the housing (K) 1, and the tangential inlet nozzle 3 for supplying the initial liquid. When the initial fluid is supplied, a smaller part of it passes through B 13, where it traps air and flows into K 1 with it. Air bubbles spin in K 1, press against F 7 and float along it, increasing the cleaning efficiency and improving the regeneration of F 7. The pressure drop on Φ 7 and the optimum mode of operation are automatically maintained by a pressure reducing valve 17, the membrane 18 of which is rigidly connected by means of regulators 19 and 21, respectively, to the throttle 20 and B 13, which allows adjusting the flow of the initial fluid and air flow through B 13. 2 zp f-ly. 1 il. G (L

Description

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The invention relates to the technique of separation of inhomogeneous media and is used to clean the liquid from contamination.

The purpose of the invention is to increase the efficiency of cleaning the liquid and improve the regeneration of the filter element.

The drawing shows a vibratory cyclone, a general view.

The vibrocyclone contains a cylindrical body 1 with a lid 2, a tangential inlet nozzle 3, nozzles for discharging sludge 4, filtrate 5 and floating contaminants 6. Inside the body there is a filtering element 7, made in the form of a perforated cone 8, mounted apex downwards and hung outside elastic mesh 9 attached to the pipe outlet of the filtrate. The upper part of the filter element with the help of a cable 10, a spring 11 and an adjusting screw 12 is attached to the filtrate outlet.

A venturi nozzle 13 is installed parallel to the inlet nozzle with an air supply tube 15 connected in compression section through a non-return valve 14 and connected to the nozzle 16, providing a tangential flow of the gas-liquid mixture to the lower part of the vibrocyclone body. A reducing valve 17 is installed at the inlet of the vibration cyclone; it consists of two cavities separated by a membrane 18 rigidly connected to the regulator 19 throttles 20 mounted on the inlet nozzle of the vibrocyclone and to the regulator 21 of the Venturi nozzle. The upper cavity of the pressure relief valve is connected via a tube 22 to the pre-grid area, the lower one is connected via a tube 23 to the filter element area located behind the screen.

The vibratory cyclone operates as follows.

Most of the original fluid through the tangential inlet 3 enters under pressure into the housing 1 and acquires an intense, rotational motion. Under the action of centrifugal forces, the heavy contaminant particles move along the walls of the housing downward and are removed with a part of the liquid through the sludge nozzle 4. The floating particles are concentrated in the upper part of the cover 2 and discharged through the nozzle 6. The remaining part of the liquid is filtered through the mesh 9 of the filter element 7 and leaves the vibratory cyclone through the pipe 5 removal of the filtrate.

A smaller part of the source fluid passes through the Venturi nozzle 13, equipped with a tube 15, traps air due to the jet effect and through the nozzle 16 is supplied to the lower part of the body of the vibro Cyclone. The air bubbles, hitting the body, twist together with the flow, are pressed to the grid due to the pressure difference and float under the action of Archimedes force, the concentrator on its surface is tiny

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contaminating particles and thereby increasing the efficiency of mechanical cleaning of the fluid.

In addition, when cleaning, for example, with iron-rich groundwater, the air entering the vibratory cyclone promotes the transfer of ferrous iron to ferric and its subsequent removal, thus ensuring chemical cleaning of liquids.

10 The pressure drop on the filter element grid and the optimal mode of operation of the vibro-cyclone are automatically maintained by the pressure reducing valve 17. As the pressure drop across the grid increases, the pressure relief valve membrane 18 connected to it through the tubes 22 and 23 is deformed down, reducing the living section with the help of regulators 19 and 21 throttles 20 and venturi nozzles 13. In this case, the supply of the initial fluid decreases, and the air flow rate increases by 20 s, which contributes to the restoration of the differential pressure set by the reduction valve on the grid.

The constant regeneration of the filter element occurs due to the effect of the flow of a gas-liquid mixture and a mastic

25 vibrations of the filter element, the body of which with its upper part using the cable 10, the spring AND and the adjusting screw 12 is attached to the filtrate outlet pipe.

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Claims (3)

1. Vibrocyclone containing a cylindrical-conical case with a lid and a tangential inlet nozzle, nozzles of filtrate, sludge and floating contaminants, a filter element covered with an elastic mesh attached with a cable, an adjusting screw and a spring to the filtrate nozzle, and a reduction A valve installed at the inlet, characterized in that, in order to improve the efficiency of cleaning the fluid and improve the regeneration of the filter element, it is equipped with a Venturi nozzle with an air supply tube, a check valve and a tangential gas supply nozzle to the lower part of the body, with the Venturi nozzle connected to the inlet and tangential nozzle of the gas-liquid mixture, and the air supply pipe is connected to the throat of the Venturi nozzle through a check valve. 0 2. A vibratory cyclone according to claim 1, characterized in that the venturi nozzle is provided with a regulator rigidly connected with the membrane of the pressure relief valve. 3. Vibrocyclone according to claim 1, different 5 by the fact that the filter element is made in the form of a perforated cone, which is installed with its top down, and the elastic mesh is attached to the filtrate outlet pipe.