SU957975A1 - Thickening vacuum hydraulic cyclone - Google Patents

Description

(54) VACUUMHYDROCYCLONE-BRAIN

Claims (2)

This invention relates to apparatus for the continuous separation of a two-phase liquid. Under the action of centrifugal force, it can be used in various industries. Known pressure hydrocyclone containing a cylindrical body with a tangential inlet, drain and Peskovy pipes, a conical thickener adjacent to the sand pipe of a hydrocyclone ij. The disadvantage of this hydrocyclone is low separation efficiency. Closest to the proposed technical essence and the achieved result is a vacuum-hydrocyon-thickener containing a cylindrical body with a tangential inlet and a drain pipe located coaxially inside the body, a conical thickener with a Peskovy branch pipe and a jet device 2, however, the thickener is perpendicular to the hydrocyclone axis . Taking into account the length of the cone-forming agent, the pulp velocity decreases when the cone is wedged, and this position of the thickener requires considerable pressure for separation. A part of the pipe connecting the hydrocyclone and the thickener 7 is located inside the 1SH of the lindric part of the hydrocyclone, which causes swirling of the inlet flow and leads to a decrease in the separation efficiency. An air cord is formed along the hydrocyclone axis. The purpose of the invention is to increase the separation efficiency by providing a secondary suction of the clarified fraction from the thickener. The goal is achieved by the fact that a vacuum hydrocyclone containing a cylindrical body with a tangential inlet and a drain pipe located coaxially inside the body, a conical thickener with a sandy branch pipe and nozzles of the jet apparatus is provided with a coil of a spiral placed between the conical part of the body and a conical thickener, a plate and a semicircular groove installed between the beginning and the end of the coil, with the beginning of the coil of a spiral located tangentially to the drain pipe, its end is attached to the plate not at an acute angle, but the nozzles of the jet apparatus are installed tangentially to the gutter and perpendicular to the orifice. FIG. 1 shows a vacuum-hydrocyclone thickener, a general view; in fig. 2 - section A-A in FIG. If in FIG. Section BB in FIG. 1. Hydrocyclone-thickener contains a hydrocyclone 1 with an inlet 2 and a drain pipe 3 connected to a pump (not shown). A conical thickener 4 is installed under the hydrocyclone, divided from the hydrocyclone by one turn of the spiral helix 5, which has a direction in the direction of the flow. The thickener has a sand pipe 6 A drain pipe 7 is installed along the hydrocyclone axis, connecting the drain pipe 3 with a thickener 4, the line of the beginning of 8 helix 5 is rigidly attached to the outer surface of the drain pipe 7 and is tangential to it. The end of 9 helix 5 is rigidly attached; to the outer surface of the drain pipe 7, is located to it tangentially. The end 9 of the helix 5 is connected to the plate 10 under. acute angle to the direction of flow. A hydrocycle is fitted with a semi-circle by a groove 11 with an opening 12 connecting the vacuum hydrocyclone and the thickener. On a tangent to the chute 11 and perpendicular to the hole 12, the nozzle 13 of the jet apparatus is mounted. Vacuum hydrocyclone thickener works as follows. The device is filled with water and turn on the pump. In hydrocyclone 1, the liquid is divided into two fractions. The clarified fraction is sucked in by the pump through a perforated drain connection 3, and suspended particles descend downwards into the opening 12 and further into the condenser 4 ... In order to increase the efficiency of the solidification of the particle in the thickener 4 and to create a pressure in it along the tangent to the chute 11 and perpendicular to the aperture 12, it flows under pressure, water from the nozzle 13 of the jet apparatus. The high velocity jet creates additional force for entraining solid particles from the hydroclonium and at the same time dilutes this condensed mass. In the thickener 4, a secondary separation of the liquid into fractions occurs. The solid particles, due to the tangential flow direction and initial head, are rejected towards the periphery and directed towards the sand nozzle 6. The clarified fraction from the central part is directed by the upward flow along the sludge pipe 7 to the pump. Due to the connection of the drain pipe 7 with the drain pipe 3 in the thickener 4, an additional force is created which sucks the secondary clarified liquid, which contributes to the increase in the condensation efficiency of the final product. . Claims. A vacuum hydrocyclone thickener containing a cylindrical body with a tangential inlet nozzle and a drain pipe located coaxially inside the body, a conical thickener with a necKofibM-nozzle and jet apparatus nozzles, with the aim of increasing the separation efficiency. secondary suction of the clarified fraction from the thickener, it is provided with a coil of a spiral placed between the conical part of the body and the conical thickener, a plate and a semicircular groove with an opening between Achal and coil end, wherein the beginning of the spiral coil is arranged tangentially to the discharge pipe, its end is attached to the plate at an acute angle, and the jet nozzle unit is mounted tangent to, and perpendicular to the opening. Sources of information taken into account in the examination 1. US patent No. 3533506, cl. 210-84, 19701. 2. Hydrodiclones, hydrocyclone intakes and sand traps, and water-lifting installations with a hydro-cyclone receiving chamber. Prospectus of the exhibition Irrigati and drainage, 1975. fm.1 Fl.1 6-6