SU1150043A1 - Hydraulic cyclone for classification and enriching of fine-grained material - Google Patents

Abstract

GILR011LKLON FOR CLASSIFICATION AND ENRICHMENT OF THIN-GRAIN MATERIALS, comprising a housing with a tangential inlet pipe and a Peskovy pipe located in the lower conical part of the body, a cylindro-conical nozzle installed with the possibility of axial movement of the process, the process, the process, the process of the process, the process, the process of the process, the process, the process, the process of the process, the process, the process, the process of the process, the process, the process, the process, the process, the process, the process, the process, the process, the process, the process, the process, the process, the process of the process reducing the abrasive wear of the sand pipe, it is equipped with a screw channel, enveloping the cylindrical part of the cylindrical cone and attachment captive to its conical portion having a conicity sootvetstruk tsuyu taper inner surface of the conical portion slab housing. ate 4ib CO

Description

The invention relates to mineral processing devices and can be used in mining, coal permeability for the separation of fine-grained materials by size and density in an aqueous medium. A hydrocyclone is known, which has a cylindrical housing with an inlet and a drainage nozzle, a lower cylindrical nozzle located coaxially inside the sand fitting ij. A disadvantage of the known hydrocyclone is the poor quality of separation, due to the fact that particles of the intermediate fraction clog up one or both of the separation products. The closest in technical essence and the achieved result is a hydrocyclone, comprising a housing with a tangential inlet nozzle, a necKOBbW nozzle and located in the lower conical part of the housing with a blunt-conical nozzle installed with axial displacement. The disadvantages of the hydrocyclone are the impossibility of obtaining three separation products and the high abrasive, wear of the sand pipe. The purpose of the invention is to increase the efficiency of the process of dividing the starting material into three products and reducing the abrasive wear of the sand pipe. The goal is achieved by the fact that a hydrocyclone, comprising a housing with a tangential inlet and a Peskov nozzle, located in the lower conical part of the body, has a cylindrical cone, installed with axial movement, and bends around the cylindrical conical nozzle parts that have a taper, corresponding to the taper of the inner, surface of the conical part of the housing. FIG. 1 shows a hydrocyclone, a general view; of figs. 2 sand pipe with a screw channel, a general view. The hydrocyclone consists of a cylindrical cone 1c with a tangential outlet nozzle 2, a drain nozzle 3, a sand nozzle 4, inside of which is a coaxially nozzle 5 coaxially placed for discharging an intermediate fraction. The nozzle 5 is mounted for axial movement by means of a screw connection 6 with a gland seal 7. The taper of the conical part of the cylindrical conical nozzle 5 corresponds to the taper of the inner surface of the conical part of the body. For unloading the heavy granular fraction, a screw channel 8 is provided, which surrounds the cylindrical part of the cylindrical cone and is attached to its conical part. Hydrocyclone works as follows. The original pulp enters under pressure into the hydrocyclone body 1 through the tangential inlet and under the action of centrifugal forces is divided into three fractions: the clarified fraction rises up and is discharged through the drain nipple 3, the heavy fraction moves down and unloads through the sand pipe 4, and the intermediate fraction - through the screw channel, which bore the cylindrical part of the cylindrical cone 5. The most effective allocation of the intermediate fraction is achieved when the maximum radius of the conical parts of a cylindrical nozzle are calculated using the formula 4g (H - h) R .--, where H is the elevation of the fluid in the hydrocyclone, cm; h is the level of quiescent fluid in a hydrocyclone, cm; R is the hydrocyclone radius, cm; Q is the frequency of rotation of the fluid, c- ;:. g is the acceleration of the force of gravity, see Hydrocyclone works as follows. The original pulp under pressure enters the cylindrical body 1 through the tangential inlet 2, where it is separated under the action of centrifugal forces. Flow, limited surface zero vertical speeds and a drain pipe 3 containing chalk3

cue and light particles are transported up and discharged through the drain nipple 3.

The flow in the space between the walls of the hydrocyclone and the surface of zero vertical speeds, containing the largest and heaviest particles, moves down and collapses through the sand pipe 4 and the screw channel 8.

In the volume, adjacent to the surface of zero vertical velocities, circulating streams arise, in which both large and heavy, and small and light particles fall. - An intermediate product zone is formed, discharged through a cylindrical nozzle 5, whose position along the height of the hydrocyclone is regulated by means of a screw connection 6.

The best results are achieved when the angle of taper of the upper conical part: the cylindrical cone corresponds to the inner surface of the conical part of the body.

500434

hydroclone, because in this case it is possible to maintain a constant flow area between the wall of the hydrocyclone and the conical part of the cylindrical cone, resulting in a smooth change in the circumferential flow rate and granular product, and unloading it through a screw channel that envelopes the cylindrical part of the cylindrical nozzle, provides movement without changing the original path, resulting in a stable process and reduced abrasive wear of the sand connection.

The solids content in the discharge decreases 2.1 times, at this time, the ash content increases by 14%, and therefore the loss of combustible mass is reduced. Drain hydrocyclone does not contain grains with a particle size of more than 0.5 mm.

The lower and intermediate products do not contain grains less than 0.5 mm, and the ash content of the intermediate product is 1.6% lower than the ash content of the bottom product of the base hydrocyclone.

Claims (1)

HYDROCYCLONE FOR CLASSIFICATION AND ENRICHMENT OF THIN-GRAIN MAT- RIALOV. comprising a housing with a tangential inlet pipe and a sand pipe, a cylinder-conical nozzle located in the lower conical part of the body, mounted with axial movement, characterized in that, in order to increase the efficiency of the process of separation of the source material into three products and reduce abrasive wear of the sand pipe, it is equipped vigntoy channel enveloping the cylindrical part of the cylinder-conical nozzle and attached to its conical part having a taper corresponding to the taper 5 it internal surface of the conical body portion. S „„ „1150043 f