RU2014147C1 - Fine-dispersive material classifier - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: classifier has a cylindric-conical case, a cylinder with drain bleed funnel mounted with an annular clearance inside it, a bell-shaped sieve fastened to the upper edge of the case, a mixer with scrapers which is positioned above them. Moreover, the classifier has a pulp feed branch pipe and a device for discharging the products of separation. The pulp feed branch pipe is mounted tangentially to the cylinder, the funnel is mounted inside the cylinder with their upper parts made coincident. The peripheral part of the sieve above the annular clearance is made solid. EFFECT: improved structure. 2 dwg

Description

 The invention relates to mineral processing, in particular to the hydraulic classification of fine particles and can be used in mining, ore-preparation enterprises and other industries.

 A device is known consisting of a cylindrical-conical body located in the upper part of the conical diaphragm body, devices for supplying and discharging purified and purified water, an oil retaining shield, an inner cylinder with a truncated conical base. The device relates to open hydrocyclones and is intended for the separation of suspensions with a particle size of 0.1-0.25 mm or more [1].

 The inability to obtain thin plums is the main disadvantage of open hydrocyclones.

 A device for classifying finely dispersed materials is known, including a cylinder-conical housing, a cylinder with a funnel for draining the drain installed inside it with an annular gap, a dome-shaped sieve mounted on the upper edge of the housing, a stirrer with scrapers placed above them, a pulp-feed pipe and a device for unloading separation products forming sieves and the upper edge of the scraper of the stirrer is made in the form of the curve of the curl "Anezi" [2].

 A disadvantage of the known device is that in its working volume, located in a domed space inside the funnel for draining the drain and the inner cylinder, there is an inefficient cleaning of classification products. In this case, there is a mutual deformation of particle flows, taken by strokes from a domed sieve, coagulated, as well as particles close in size to the sieve openings, and particles coming from the bottom of the conical part of the device.

 As a result, the effect of various factors is enhanced. Among these factors are the mechanical interaction of particles with each other and with the walls of the funnel to drain the inner cylinder, the presence of local irregularities and turbulent vortices in the flows, uneven concentration fields, the formation of conglomerates of particles; with increasing particle concentration, the effect of constraint increases due to a decrease in the living cross section of flows and the probability of direct mechanical interaction of particles with each other, which leads to a decrease in the particle velocity.

 Thus, the mutual deformation of the flows and an increase in the concentration of particles in the domed space inside the funnel for draining the drain and the inner cylinder violates the structure of the flows and is a source of their additional turbulization, which does not reduce the intensity of mixing of the separation products and significantly reduces the classification efficiency.

 The aim of the invention is to increase the efficiency of classification.

 The installation of a pulp-supply pipe tangentially to the cylinder and a funnel for draining the drain inside the cylinder with the combination of their upper edges, as well as the peripheral part of the dome-shaped sieve above the continuous annular gap, provide a smoother movement with minimal turbulence of the two separated flows of finely dispersed and coagulated, as well as close in size particles of suspension in the domed compartment of the device, which significantly increases the classification efficiency of finely dispersed materials.

 In FIG. 1 shows a device, a General view; in FIG. 2 is a section AA in FIG. 1.

 A device for classifying finely dispersed materials comprises a cylinder 1 with a tangential pulp-conducting pipe 2 located inside the cylinder-conical housing 3, a drive 4 with a shaft 5, in the lower part of which a stirrer 6 with ridges 7 is installed, the shape of which is similar to a generatrix of a domed sieve 8 with a continuous breaker ring 9, prefabricated chute for a drain product 10 with a drain nozzle 11, a funnel for draining the drain 12, a device for unloading sand 13, an annular gap 14, a domed compartment 15.

 A device for the classification of fine materials works as follows. The initial suspension containing fine particles, through a tangential pulp supply pipe 2 enters the cylinder 1, forming, in addition to the slow rotation of the suspension, a vertical flow. Fine particles pass through a drain funnel 12, a domed sieve 8, roll into a collection chute for a drain product 10 and are removed through a drain nozzle 11. Removing coagulated particles that are close in size to the sieve openings adhering to the lower surface of the sieve 8 is done by strokes 7 mounted on a mixer 6, which is rotationally driven by the drive 4 through the shaft 5. The particles removed and guided by the strokes 7 and the continuous baffle ring 9 fall through the domed compartment 15 into the annular gap 14, to which is located between the outer surface of the cylinder 1 and the inner surface of the coaxially located cylindrical conical body 3 and then, together with the large particles that were previously separated in the inner cylinder 1, are lowered and unloaded through the device for unloading the sands 13.

 The proposed device for the classification of fine materials has improved the classification efficiency by improving the structure of the shared suspension flow.

Claims (1)

 DEVICE FOR CLASSIFICATION OF THIN-DISPERSED MATERIALS, including a cylindrical housing, a cylinder with an annular gap installed in it with a funnel for draining the drain, a domed sieve mounted on the upper edge of the housing, a stirrer with scrapers placed above them, a pulp feed pipe and separation devices for unloading, that, in order to increase the efficiency of the classification process, the pulp inlet pipe is installed tangentially to the cylinder, the drain funnel is installed in cylinder with a combination of their upper edges, and the peripheral part of the domed sieve above the annular gap is made continuous.

Images