SU789160A1 - Hydraulic cyclone for classifying and washing minerals - Google Patents

Description

(54) HYDROCYCLONE FOR CLASSIFICATION AND ENRICHMENT OF MINERAL RESOURCES

Claims (2)

Isorette refers to the enrichment of minerals and can be used to classify granular materials by size, density in an aqueous, mineral medium in the ore-processing, chemical, and other industries. A hydrocyclone is known, which includes a cylindrical body with a lid and a bottom, a feed nozzle, a discharge device made in the form of a slotted groove located along the radius of the rotating pulp flow and a tapered element mounted coaxially inside the body C. A disadvantage of the known hydrocyclone is the low separation efficiency. The closest in technical essence and the achieved result to the proposed is a hydrocyclone containing a cylindrical body with a supply nozzle, a flange and a bottom with pivoting partitions and slotted holes for removal of separation products and a hollow conical element of elastic material installed in the body, facing a smaller base to the bottom and connected to the source of overpressure 12. A disadvantage of the known hydrocyclone is the relatively low efficiency of the section, due to It is noted that in the discharging device the mixing of mineral grains already divided by the action of centrifugal force on the size and density of the grains occurs due to the impossibility of ensuring coaxial rotation of the pulp. The purpose of the invention is to increase the efficiency of the separation process and reduce the hydraulic resistance of the hydrocyclone. The goal is achieved by the fact that the hydrocyclone is equipped with a stabilizer balancer with fin-type blades fixed on a smaller base of the conical element and a supporting element in the form of a shara located between the upper part of the conical element and the cover, the lid in the central part has a convex hemispherical shape, and The dividing partitions are made in the form of concentrically mounted on the bottom of the shells, while the slit openings of the bottom are placed between the shells. FIG. I presents a hydrocyclone, a general view; in fig. 2 shows section A-A in FIG. 1. The hydraulic chuck consists of a cylindrical body 1 with a tangentially mounted feed nozzle 2, a lid 3 and a bottom 4. Coaxially inside the body there is a hollow conical element 5 made of elastic material, for example rubber, equipped with a nozzle 6 connected to an overpressure source (not shown). A ball 8 is placed between the upper part of the conical element 5 and the profiled hatch 7 of the cover 3, and a sir-stabilizer 9 ball is installed on the smaller base of the conical element 5, made in the form of a hollow closed sphere with a hole 10 and having fin-type shaped blades 11 on the outer surface. The stabilizer balance 9 is attached to the cone element 5 by means of tide 12 and a bandage (not shown. The profiled hatch 7 is advisable to be made with a hemispherical and reversed protuberance outside the body. In the bottom 4 there are annular slots 13 and 14 and a central hole 15, and concentric between the gaps The shells 16 and 17 are installed. Receivers 18 and 19 and the central nozzle 20 are attached to the bottom for outputting the separation products. The annular slots 13 and 14 and the opening 15 are adjusted using segment valves 21-24, shafts 25 and 26 and the arms 27 and 28 .Stock 25 and 2 6 have a helical surface and are installed in guide rails 29. Before the floor hydrocyclone begins to work, the closed balancer stabilizer 9 through the opening 10 is filled with the desired medium, for example, lead shot, and closed with a plug (not shown). Then through the profiled central hatch 7 the covers 3 into the body 1 are inserted an elastic cone element 5, equipped with a nozzle 6, a ball 8 and a balancer stabilizer having fin-type blades 11 on the outer surface. Air is supplied from the source of excess pressure through the nozzle into the conical element. The elastic element is lowered onto the bottom of the hydrocyclone and the shaped Liu 7 is installed on the cover 3. The hydrocyclone works as follows. The original pulp through a tangentially installed supply nozzle 2 enters into the body of the hydrocyclone 1 and acquires a rotational motion in it. In the rotating volume of the pulp, the elastic conical element 5 is lifted and oriented along the hydrocyclone axis, and is pressed, touching the ball 8, to the shaped central hatch 7, to form a sliding support at the top of the sphere under the action of a lifting force due to the hydrostatic pressure gradient. in the rotating pulp flow and the reaction from the interaction of the blades of the Fin type with the flow of the pulp. The elastic conical element 5 takes the form of the free surface of the rotating pulp and rotates at a peripheral speed approximately equal to the tangential component of the velocity of the pulp layers in contact with the surface of the elastic conical element 5. Self-centering-conical element 5 is achieved by equipping it with an -8 ball in the upper part and balancer stabilizer 9, filled zatsttel. Fin type blades 11 also increase the hydrodynamic effect of the rotating pulp flow on the elastic cone element. Under the action of centrifugal force and due to the difference in the speeds of movement of the separated particles of minerals relative to the sphere, they are regrouped by size (or density) so that their size (or density) decreases in the direction of the axis of the apparatus. The pulp with the classified material in the discharge zone is distributed by the shells 16 and 17, the annular gaps 13 and 14 and the central opening 15 into three products of different particle size distribution. Their qualitative and quantitative characteristics are established by adjusting the annular slots 13 and 14, the central opening 15 of the unloading device when their living cross section is changed by segment valves 21-24 with the help of rods 25 and 26, steering wheels 27 and 28. Using the proposed hydrocyclone significantly reduces hydraulic resistance in the working volume and in the hydrocyclone unloading zone, eliminates the mixing of separation products by size and density at the hydrocyclone outlet and generally improves the classification efficiency. Tests of the proposed hydrocyclone show an 8% increase in separation efficiency compared to the known. Claims of Hydrocyclone for classifying and enriching minerals, comprising a cylindrical body with a supply nozzle, a lid and a bottom with separating partitions and slotted holes for diverting separation products and a hollow conical element made of elastic material, facing the bottom with a smaller base and connected to a source of overpressure, characterized in that, in order to increase the efficiency of the separation process and reduce the flow resistance, it is equipped with a lancer stabilizer with fin type blades mounted on a smaller base of the cone element and a gland-like supporting element located between the upper part of the cone element and the lid, the lid in the center 891606 This part has a convex hemispherical shape, and the dividing partitions are made in the form of concentrically mounted on the bottom of the shells, while the slotted holes of the housing 5 are located between the shells. Sources of information taken into account in the examination 1. USSR author's certificate N 486789 cl. B 03 B 5/34. Q 2. USSR author's certificate in application N 2392157 / 23-26, cl. B 04 C 5/107. 1