SU1079302A1 - Hydraulic cyclone - Google Patents

Abstract

HYDRO-CYCLONE, containing a pilindonic Kopeiyc with a tangential inlet nozzle, drain and Peskov nozzles, a grooved helical insert installed between the housing and the drain nozzle, characterized in that, in order to control the effectiveness of the operation of the hydrocyclone by reducing the volume of the small fractions due to the reduction of the hydrocyclone by reducing the flow of the hydrocyclone by reducing the flow of the small cyclones the operating mode of the hydraulic system, it is equipped with a damper, hinged on the drain pipe, made with a window placed on the side opposite to the opposite pipe, and this hinge joint is shifted downstream from the edge of the window by 45-90 °.

Description

The invention relates to devices for thickening suspensions, in particular, clutching and slopes, and can be used in the mining, chemical and other industries associated with the separation of solid from a liquid solution. Known hydrodynamics, containing a cylindrical body with tangential inlet, drain and Peskovy pipes, the lower torn of the springs) the pipe is closed, and the pipe is filled with perforated Cl 1 The disadvantage of the known hydro-cyclone is a significant loss of particles of small fractions in the drain. The closest to the proposed technical essence and the achieved result is a hydrocyclone containing a cylindrical body with a tangential inlet patra & som, a drain and Peskovy branch pipes, a helical spiral insert installed between the body and the drain branch pipe 2. A disadvantage of the known hydrocyclone is the low efficiency of the hydrocyclone operation. The purpose of the invention is to increase the efficiency of the hydrocyclone operation by reducing the removal of particles of small fractions into the drain and controlling the hydrodynamic mode of operation of the hydrocyclone. The goal is achieved by the fact that a hydrocyclone containing a cylindrical body with tangential inlets, drain and sand pipes, a grooved spiral insert, installed between the body and the drain pipe, is provided with a damper that is centrally mounted on a drain pipe made with a window located on the side, opposite the inlet nozzle, while the hinge flap is mixed downstream from the edge of the window by 45–90 °. FIG. 1 shows a hydrocyclone, O &1; in fig. 2 - the same, a view of a super xy, on fig. 3 - drain pipe with a canister, general view. A hydrocyclone consists of a cischdrich body 1, a tangential inlet nozzle 2, a sand nozzle 3 located in the conical part of the case of the drain nozzle 4, closed from the end and installed in the center of the housing cover. Between the housing 1 and the drain pipe 4 is installed spiral grooved insert 5 with grooves 02 tilted away from the inlet pipe, fixed with the upper end to the hydrocyclone cover. The drain nozzle 4 is complete with a window 6 located on the side opposite the inlet nozzle, and is equipped with a hinged damper 7, with the hinge of the damper located upstream from 45 to 9 from the edge of the window, the Hydrocyclone works in the following way. The initial mixture through the tangential inlet nozzle 2 into the body of the hydrocyclone 1 and moves along the spiral grooved insert 5. Under the action of centrifugal forces, the solid particles are thrown to the body wall and further removed through the sand nozzle 3. The fine particles are carried by the ascending flow of the clarified liquid into the zone drain nozzle 4. At the same time, the particles are simultaneously under the action of centrifugal forces and upstream forces, as a result of which they describe a helical trajectory. Getting into the gap between the valve 7 and the spiral grooved insert 5, the particles gain acceleration and are thrown to the inner surface of the spiral insert 5 and along the inclined chutes of the viewhole to the area of the sand pipe 3. The location of the window 6 at the most distant point of the particle path ensures long-term centrifugal forces to these particles, due to which the degree of clarification of the water is infused. Regulation of the hydrodynamic regime is ensured by the fact that the flap overlaps the flow of the slurry between the drainage pipe and the spiral insert, resulting in an increased flow rate and particles acquire acceleration, being thrown to the inclined chutes of the spiral insert, and output to the zone of the sandy pipe. It was established experimentally that the flap length should overlap the gap by no more than 45-50%, and its hinge is downstream from the edge of the window by 459O. Thus, due to the discharge of the drain nozzle with a window located on the side opposite to the inlet nozzle, the residence time of solid PSA particles by the action of centrifugal forces is increased, and the removal of particles of small fractions into the drain is reduced.

310793024

, As a result of adjustment of the interkey clearance, the joint (with a spiral grooved insert and a beater on the back and forth)

with a splice nozzle by means of a hyarooynamic mode in a hyaroine slope

Claims (1)

A HYDROCYCLONE containing a cylinder-conical body with a tangential inlet pipe, drain and sand pipes, a grooved spiral insert installed between the body and the drain pipe, characterized in that, in order to increase the efficiency of the hydrocyclone by reducing the removal of fine particles into the drain and regulation hydrodynamic operation of the hydrocyclone, it is equipped with a shutter pivotally mounted on a drain pipe made with a window placed on the side opposite the inlet pipe, p and this flap hinge offset from the edge of the downstream window at 45-90 °. 1 1079302