SU601051A1 - Classifier hydrocyclone - Google Patents

Claims (3)

The invention relates to devices for classifying a zerian material by size and specific gravity, and can be used in chemical, food, mining, and other industries. A hydrocyclone is known. It includes a cylindroconical case with a tangential inlet nozzle, a drained pipe and a sandy nozzle. The drain pipe is made with the movement: vertical I. The hydrocyclone does not allow to get only two cohesive products of class size by size, so it is ineffective. From 1, the wall also has a gyrodroclone, which includes a cylindrical body with tangential inlets: a pipe, a drawing, a drawing, a drawing of a condensed fraction, and a container, a drawing of a container. These connections do not allow the classification process to be managed during the operation of the apparatus. The closest to the proposed is a hydrocyclone classifier, a 1B enclosure made in the form of a cylindrical shell with a tangential inlet of the initial granular material, and two truncated cones with different tapers, adjacent large bases to the cylindrical shell and equipped with outlet pipes of the clarified and dense fractions 3. The disadvantage of the known hydrocyclone is the low classification efficiency of the granular material, due to the inability to adjust the process during operation. apparatus. The purpose of the present invention is to improve the efficiency of the classification of granular material by size by providing the ability to adjust the process during operation of the apparatus. This goal is achieved by the fact that it is equipped with mirror fittings installed with the possibility of axial movement of the joint within the outlet pipes of the clarified and condensed fractions. FIG. 1 shows the proposed gndrots; clan classifier, general vnd; in fig. g Drotsiklon, view from above. The hydrocyclical / classifier contains a body made in the form of a cylindrical shell / with a tangential pipe 2 introducing the initial granular material, and two truncated cones 3, 4 with different angles of taper, with large bases to the cylindrical shell and provided with pipes 5 and 5 for the light of the light. and condensed fractions. The inside of the nozzles are mounted with the possibility of axial movement (Vertical pipes 7 and 8. The hydrocyclone classifier works in the following 1M manner. The initial granular material is fed through the tangential branch pipe of the Avoda 2 into the silky shell.) Under the action of centrifugal force convex products with different content and grain size Material Output through the pipes 5, 6 and (Vertical pipes 7 and 5, installed with the possibility of axial movement. To obtain the desired concentration and grain size of the granular material You can use different diameters of the drain pipes 5, 6 and vertical pipes 7; And 8, from the angles of taper of truncated cones and 4, as well as moving along the axis of the device vertical pipes 7 and 8 relative to each other and relative to tangential input 2. Due to the presence of two conical parts n, respectively, of two mutually (moving vertical pipes for outputting separated 1f | ractions, the efficiency of lassification of granular material according to KpyiHiHOCTH is reduced, the design of the classifier is simplified, the apparatus is stabilized in In various modes, it is possible to adjust the size and solids content in the effluent during the classification process. The invention of the hydraulic clone classifier, comprising a body made in the form of a cylindrical shell with a tangential nozzle for introducing the initial granular material and two truncated cones with different angles that form large unons: anne to the cylindrical shell and provided with connecting pipes and condensed fractions, characterized in that, in order to increase the efficiency of the size of the granular material by size by allowing the process to be adjusted during operation of the apparatus, n is provided with vertical pipes mounted axially movable inside the pipes coaxially and withdrawal of thickened clarified fractions. Sources of information taken into account Gary Egkonertize: 1. Authors' license of the USSR L 99250, cl. B 04 C 1/00, 1954. 2. Patent Czechoslovakia L 140508,, cl. 55 d 4, 1971. 3. The UK patent number 1438242, cl. In 2 P, 1976. FIG. 2