SU1510940A1 - Hydrocyclone - Google Patents

Abstract

This invention relates to a slurry separation technique and allows for increased separation efficiency. The hydrocyclone includes a housing (K) 1 with a tangential supply nozzle 2, a sand nozzle 3 for withdrawing the condensed product, a drain nozzle (SP) 4 for draining the clarified liquid provided at the inlet with a cylindrical nozzle (H) 5, while the center of the inner surface H 5 is offset with respect to the K 1 axis, and the center of the outer diameter H 5 coincides with the K 1 axis, which allows maintaining the distribution of the supply and discharge volumes as well as the productivity of the apparatus unchanged. H 5 is provided inside with radial ribs (P) 6, the bases of which are adjacent to the inner surface of H 5, and the tops are located around the circumference of the diameter of SP 4. P 6 contribute to the creation of small-scale turbulence, pressure drops and speeds, which reduces clogging of the clarified liquid. 2 Il.

Description

The invention relates to the technique of separating liquid inhomogeneous media, in particular, to devices for separating and enriching suspensions in the field of centrifugal forces, and can be applied in the mining, processing of ores and other industrial sectors.

The purpose of the invention is to increase the efficiency of separation,

1 shows a hydrocyclone, a general view; figure 2 - section aa in figure 1.

The hydrocyclone consists of a cylindrical body 1 with a tangential supply nozzle 2, a sand nozzle 3 for evacuating the condensed product, a drain nozzle 4 for draining the clarified liquid, having a cylindrical nozzle 5 at the inlet with ribs 6 located inside and adjacent to the inner surface nozzles, and their tops are located around the circumference of the diameter of the drain pipe,

The center of the inner surface of the nozzle is shifted relative to the axis sa, and the center of the outer diameter coincides with the axis of the body.

Hydrocyclone works as follows.

The initial suspension entering through the nozzle 2 into the cylindrical body 1 of the apparatus forms a rotating flow, directed along the helix from top to bottom. Under the action of centrifugal force, large and heavy particles are thrown against the wall of the hydrocyclone and then discharged through the sand nozzle 3, and the clarified flow leaves through the drain nozzle 4. As it moves through the cylindrical nozzle, the stream receives a periodic perturbation from the ribs. This contributes to a more efficient, with minimal clogging, cleaning of the material at the inlet to the drain nipple by creating zones of increased small-scale turbulence, pressure drops and velocity.

The location of the edges at which the vertices of them are on a circle.

coinciding with the diameter of the drain pipe, and the base of the ribs adjacent to the inner cylindrical surface of the nozzle, whose center is offset from the axis of the hydrocyclone, ensures that the axis of the air column coincides with the axis of the hydrocyclone and maintains the distribution of the feed volume between the sands and the drain, as well as the performance of the apparatus. The shape of the cylindrical nozzle contributes to an increase in the residence time of the solid particles in the hydrocyclone and forcing them towards the walls of the hydrocyclone, as a result of which, when they fall into the external downward flow, they are discharged through a large opening. The particles of boundary size and separation density, which have loop-like trajectories of movement, are mainly directed by the lower part of the cylindrical nozzle towards the lower discharge opening and are unloaded through the sand nozzle. This increases the efficiency of separation due to the intensification of the drainage and subsequent unloading of large and heavy particles through the sand nozzle, as well as particles of boundary size and separation density.

Claims (1)

 Invention Formula A hydrocyclone containing a cylindrical body, supplying a drain and sand pipe and a sand nozzle, characterized in that, in order to increase separation efficiency, the drain pipe is provided at the inlet with a cylindrical nozzle with radial ribs installed inside the nozzle and adjacent bases to its inner surface, while the tops of the ribs are located on a circle that coincides with the inner diameter of the drain pipe, the center of the inner surface of the nozzle is offset relative to the axis of the housing, and the center of the outer the diameter of the nozzle coincides with the axis of the housing. Compiled by V.Timoshkov Editor M. Bandura Tehred and. Veres Order 5836/11 Circulation 494 VNIIPI State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR 113035, Moscow, Zh-35, Raushsk nab. 4/5 Production and Publishing Combine Patent, Uzhgorod, st. Gagarin, 101 FIG 2 Proofreader M.Maksimishinets Subscription