SU1024111A1 - Multisection hydraulic cyclone - Google Patents

Abstract

1. MULTI-SECTIONAL HYDROCYCLONE containing cylindrocone corpus with tangential inlet port, drain and Peskovoy nozzles, lining of cylinders and truncated contours narrowed to the sandpit nozzle, characterized in that, in order to increase the efficiency of separation of suspensions by reducing the content of suspensions in the sands, with repeated cleaning of the near-wall layer and increasing the reliability of fastening the lining elements, the truncated cones are made with external and internal bevels, while the internal bevel is located It is possible on the larger base of the truncated cone, and the outer bevel is on the smaller base of the truncated cone equipped with a flange. 2. A hydrocyclone according to claim, characterized in that the lining is made of an elastic, wear-resistant material, such as polyurethane or rubber.

Description

The present invention relates to the enrichment of minerals and chemical technology and can be used to separate particles by size and density in a liquid medium. A hydrocyclone for separating solid particles is known, which is provided with a torus of elastic material coaxially mounted inside the conical part of the body and coaxially with it 1. A disadvantage of the known hydrocyclone is that the matching cylindrical and conical sections have the same internal diameter, as a result of which to be found in the wall "vortex layer" is transported along the axis and unloaded through the sand nozzle, reducing the separation efficiency. Such a structure does not ensure the alignment of the lining sections. The closest in technical essence and the achieved result is a hydrocyclone containing a cylindrical body with a tangential inlet, drain and Peskovy nozzles, lining 2. The disadvantage of this hydrocyclone is that the matching cylindrical and conical sections have the same internal diameter, so that thin particles located in the near-wall vortex layer are transported along the axis and unloaded through the sandy nafpy6oK, reducing the separation efficiency. In the manufacture of cylindrical sections, the inner insert of the mold is collapsible, which makes it difficult to remove, and this complicates the manufacturing technology. In addition, the cylindrical and conical sections of the lining have flat end surfaces provided with flanges, which does not provide sufficient sealing of the radial clearance when they dock and makes it difficult to install the section in the housing. Such a structure does not ensure coaxiality of the lining sections. The purpose of the invention is to increase the effectiveness of the separation of suspensions by reducing the content of fine particles in the sands with repeated cleaning of the surface layer and increasing the reliability of attachment of lining elements. The goal is achieved by the fact that in a multisection hydrocyclone containing a cylindrical body with a tangential inlet, a drain and a sand pipe, a lining of cylinders and truncated cones tapering to the sand pipe, the truncated cones are made with external and internal bevels, the inner bevel being located on larger truncated cone, and the outer bevel - on a smaller base of a truncated cone, equipped with a flange. 2 It is advisable to make the lining of elastic, wear-resistant material, such as polyurethane or rubber}. FIG. 1 shows a hydrocyclone, a general view; in fig. 2 — node I in FIG. 1. A hydrocyclone consists of an outer casing 1, a lining 2, a power supply chamber 3, cylindrical 4 and conical 5 lining sections, a drain nipple 6 and a sandy nipple 7. When assembling, the end with an inner bevel 8 enters a groove formed by the wall of the housing and the plane of the outer bevel 9, ensuring the alignment of the sections and good seal. The lining section is fixed by a flange 10 clamped between the flanges of the mating sections of the outer casing 1. The hydrocyclone works as follows. Separated suspension with a certain speed is fed into the hydrocyclone through the power supply chamber 3, acquiring a helical rotation, moves along the walls of the cylindrical and conical lining sections 4 and 5. When the wall "vortex layer descends from the previous section, it collapses because the subsequent coupling section has a larger diameter. And so it is repeated many times, which leads to the cleaning of the outer helical flow, which discharges fine particles through the sand pipe 7. An internal helical flow carrying fine particles reverses inside the apparatus body and is discharged through the drain nipple 6. In the manufacture of cast lining sections, the injection mold insert is easily removed towards the larger diameter of the truncated cone and manufactured non-separable, which simplifies the manufacturing technology. The increase in separation efficiency in a multisection hydraulic cylinder occurs due to a decrease in the content of fine particles in the sands with repeated cleaning of the wall layer at the joints of the adjacent sections. The presence of a lining in the form of truncated cones tapering towards the sand branch pipe, having inner and outer bevels mating during assembly and joining sections in the body, allows to obtain a condensed product with a high concentration of solid material, which is very important when hydrocyclones work in grinding cycles, disintegration and thickening of suspensions. In addition, the proposed hydrocyclone, compared with the known, provides for obtaining a thin product in the sink and, as a consequence, the maximum classification efficiency.

ten

FIG. 2

Claims (2)

1. MULTI-SECTION HYDROCYCLONE, containing a cylindrical conical housing with a tangential inlet cut, drain and sand pipes, a lining of cylinders and truncated cones, tapering to a sand pipe, characterized in that, in order to increase the efficiency of suspension separation by reducing the content of thin particles in the sand during repeated cleaning of the wall layer and increase the reliability of fastening the lining elements, truncated cones are made with external and internal bevels, while the internal bevel is located a larger base of the truncated cone, and the outer bevel - for the smaller base of the truncated cone fitted with a flange. 2. Hydrocyclone according to π. 1, characterized in that the lining is made of an elastic, wear-resistant material, such as polyurethane or rubber.