SU1546170A2 - Hydrocyclone - Google Patents

Abstract

The invention relates to the technique of separating materials using liquids, in particular, to hydrocyclones with automatic regulation of their work, and can be used in the chemical and other industries. The purpose of the invention is the automatic regulation of the hydrocyclone by vacuum and the prevention of clogging of the sand pipe of the hydrocyclone. The hydrocyclone consists of a housing 1 with a tangential inlet 2, a sand 3 and a drain 4 nozzles, an intermediate chamber 5, a diaphragm 6 with a central nozzle 7. A valve (K) 8 with a shank 9 is mounted in the sand nozzle 3, moving in the guide sleeve 10 the bracket 11 connected to the housing 1. The adjustment device includes a bellows (C) 12 and a rod 13 connecting it to K 8. A nozzle 14 is mounted in the socket 2, fixed to the axis 15 by means of a hinge 16 and connected to the C 12 th 17, resting on a hinge support 18 provided with a latch 19. A clarified product withdrawn through conduit 20. The feed slurry enters the housing 1 through the conduit 2 and swirl. Solid particles are discharged through the sand pipe 3, the light phase through the drain chamber 5 is removed through the pipes 7 and 20. The operation mode of the hydrocyclone is maintained by controlling the discharge in its central part C 12, which regulates the flow section of the sand pipe 3 by moving the K 8 rod 13, and at the same time through the pull 17, it changes the slant feed inclination by changing the inclination of the nozzle 14. 2 or

Description

The solids are discharged through the sand 3, the easy phase is removed through the drain chamber 5 through the nozzles 7 and 20 C. The mode of operation of the hydro cyclone is maintained by controlling the discharge in its central

part C 12, which regulates the flow area of the sand pipe 3 by moving K 8 by the rod 13, and simultaneously through the pull 17 changes the inclination of the slurry feed by changing the inclination of the nozzle 14. 2 Il.

The invention relates to a technique for separating materials using liquids, in particular to hydrocyclones with automatic regulation of their work, used in the chemical, food and other industries.

The aim of the invention is the automatic regulation of the hydrocyclone by vacuum and the prevention of the clogging of the sand nozzle of the hydrocyclone.

FIG. 1 shows a hydrocyclone, a general view; in fig. 2 is a section A-A in FIG.

The hydrocyclone consists of a cylindrical body 1 with a tangential inlet nozzle 2, a sand nozzle 3 and a drain nozzle 4. A intermediate drain chamber 5 and a diaphragm 0 with a central nozzle 7 are installed above the hydrocyclone body 1 and a valve 8 with a tail 9 having a the possibility of vertical movement in the guide sleeve 10, which is fixedly connected to the housing 1 through the bracket 11. The device for automatic adjustment of the hydrocyclone consists of a bellows 12 and a rod 13, one end to first is attached to the upper end of the bellows 12, and the other end is connected to the valve 8. The bellows 12 is installed on the intermediate drain chamber 5. The nozzle 14 is installed in the inlet fitting, fixed to the axis 15 by means of a hinge 16, having the ability to rotate The hinge 17, pivotally connected to the sylphon 12 and resting on the hinge support 18.

Kapan 8 is connected to the rod 13 threaded connection. To change the length of the gig 17, a clamp 19 is provided, having the ability to move along the threads. This makes it possible to establish a definite polo5

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valve 8 in the sand pipe 3 and a certain range of variation of the angle of attack of the nozzle 14 when built to the automatic adjustment mode of the hydrocyclone. A nozzle 20 is provided for removal of the clarified product.

Hydrocyclone works as follows.

The original slurry is fed through a tangential inlet 2 in the housing 1, acquiring a circular spiral motion therein. Under the action of centrifugal forces, the more thorny phase is thrown to the walls of the hydrocyclone and moves downward along a spiral trajectory, discharging through the sand nozzle 3. The light phase moves in the internal spiral upward flow into the intermediate drain chamber 5 through the central nozzle 7 and is removed from camera on the branch pipe 20.

During the operation of the hydrocyclone, a vacuum is created in the central air column, the value of which depends on the change in the amount of the product exiting through the sand pipe. The change in vacuum is transmitted through the drain pipe 4 into the cavity of the bellows 12.

As the vacuum increases, the bellows 12 is compressed under the influence of atmospheric pressure, downwardly the rod 13 with the valve 8, the shank 9 of which moves in the guide sleeve 10. At the same time, the size of the cross section of the sand pipe 3 increases. The compression of the bellows 12 is transmitted by means of a pull to the nozzle 14. The rotation of the nozzle 14 in the vertical plane allows an increase in the axial component of the velocity of the external downward flow in the hydro cyclone, which improves the efficiency of the flushing of the thickened fractions and prevents the likelihood of clogging the sand pipe 3.

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When vacuum is reduced, the pressure difference inside and outside of the bellows 12 decreases, the bellows rectifies, the rod 13 and the valve 8 are attracted upwards reducing the inlet cross section of the sand pipe 3, and also returning the nozzle in the hydrocyclone inlet to the original position,

Thus, by supplying the hydrocyclone with an intermediate drain chamber and a bellows rigidly connected to the stem and the intermediate drain chamber, the valve is provided with a shank and supplied with a guide sleeve, and the nozzle is installed in the hydrocyclone inlet pipe with a hinge and an axis that can be turned vertical plane due to the movement of the hinge, pivotally connected with the strong background and resting on the hinge

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support, automatic regulation of the hydrocyclone operation is achieved, according to the vacuum, prevention of sand-pipe coupling, which ensures the creation of an optimal mode of operation with simple and reliable means.

Claims (1)

Invention Formula Hydrocyclone auth. To 544474, characterized in that in order to automatically regulate the operation of the hydrocyclone in terms of vacuum and to prevent clogging of the sand pipe, it is equipped with a thrust, articulated support and nozzle installed with the help of a hinge and an axis in the inlet nozzle that can be rotated in a vertical plane, while connected to the bellows by means of a pull rod supported by a hinge support. 13 1