SU1049112A1 - Hydraulic cyclone - Google Patents

Abstract

A HYDROCYCLONE containing a cylindrical enclosure with a tangential inlet, slush and Peskov nozzles, a spiral insert located inside the enclosure at the inlet, and so that, in order to increase the efficiency of separation by preventing particles from escaping fractions into drains and reduction of hydraulic losses, the spiral insert is made grooved, while the grooves have a slope in the direction from the inlet nozzle. i;

Description

The invention relates to a device. You need to thicken the gas mixture, and more specifically to hydrocyclones, and can be used in the mining industry, as well as in other industries associated with the extraction of hard liquids from the liquid medium. A hydrocyclone is known, consisting of a cylindrical body, a sand nozzle, a power supply and a drainage pipe. The disadvantages of this hydrocyclone are significant pressure losses in the hydrocyclone and the removal of particles of the chalk fractions into the drain. The closest in technical essence and the achieved result is a hydrocyclone containing a cylindrical body with a tangential inlet inlet, a drain and sand inlet, a spiral insert located inside the building At the inlet nozzle 2. However, the known hydrocyclone is not efficient enough, It has significant pressure losses and does not provide: fine cleaning of clarified water. . The aim of the invention is to increase the separation efficiency by preventing the removal of particles of the fine fraction into the drain and reducing hydraulic losses. Settling the goal is achieved by the fact that in a hydrocyclone containing a cylindrical body with a tangential inlet, a drain and a sandpipe, a spiral insert located .BHVTDH building / sa at the inlet nozzle, spiral on the insert / grooved, while the Loba have an inclination in the direction from the inlet. , FIG. 1 shows a general hydrocyclone; in fig. 2 shows section A-A in FIG. If in FIG. 3 scan spiral insert. The hydrocyclone consists of a cylindrical housing 1, equipped with a tangential rotary nozzle 2, a sand nozzle 3 in the conical part, a drain nozzle 4 installed in the center of a hydrocyclone, a grooved insert 5, having a helix in plan view attached by a torch to a hydrocyclone cover and a groove in storovu from the inlet. The rational angle of inclination of the grooves in the direction away from the inlet nozzle was established experimentally and is equal to 20-30. The hydrocyclone works as follows. Getting through the inlet 2, the slurry moves along the spiral insert 5 along a continuously reduced cement radius, as a result of which the centrifugal forces acting on the flow continuously increase. . In this case, the lips located on the outer surface of the insert, arrange and unwind the slurry stream, and, in addition, wash the particles of small fractions from the water layer pressed to the outside of the insert. Subsequently, the particles of the fine fractions, together with the particles of the coarse fractions, are thrown by centrifugal forces to the wall of the hydrocyclone and subsequently removed through the sand pipe 3. The particles of the fine fractions carried by the ascending stream to the area of the discharge pipe 4 gradually lose their vertical velocity, the action of the centrifugal forces becomes The particles predominate and are pressed against the inner surface of the spiral insert and are removed along inclined grooves from the zone of the drain pipe. As a result, an increase in the efficiency of separation of hydro-gas is achieved. cyclone due to the unwinding and ordering of the incoming slurry flow, which occurs when the slurry flow moves along the outer surface of the fluted spiral insert, the pressure loss in the hydrocyclone decreases, thereby increasing the efficiency of separation of the slurry fractions due to leaching of particles of small fractions from slurry layer pressed to the outer surface of the grooved insert, which is carried out by the slurry stream at the intersection of the outer side of the groove insert, as well as above. improvement of the quality of purification of clarified water due to the removal of particles of small fractions along the grooves from the zone of the drain pipe. The expected economic effect by comparison with the known is 14.8 tyu. rubles.

Ismdna hydraulic system

FIG, g

Fig.Z

Claims (1)

A HYDROCYCLONE containing a cylindrical conical housing with a tangential inlet, a drain and sand nozzles, a spiral insert located inside the housing at the inlet, characterized in that, in order to increase separation efficiency by preventing the removal of fine particles into the drain and reducing hydraulic losses , the spiral-shaped insert is grooved, while the grooves have an inclination in the direction from the inlet pipe.