SU1475734A1 - Powder materials classifier - Google Patents

Abstract

The invention relates to apparatus for the separation of polydisperse materials into fractions and can be used in the chemical and other branches of the national economy. The purpose of the invention is to improve the quality of classification by reducing aerodynamic drag and controlling the separation process. The initial dust and gas flow is fed through the nozzle 3 of introducing the initial mixture into the space between the housings 1 and 2 and twisted by blades 9, falling into the first space along the material movement between the rings 5. Under the action of centrifugal forces, large particles are released, which are discharged through the discharge device 10. A part of the dust-gas mixture with the minimum concentration of particles is selected through the gap 7 between the lid 6 of the lower ring 5 and the base of the upper one and is discharged through the branch pipe 4 of the fine fraction. The process of separation of the next stage proceeds in the same way as in the first, but with a different consumption of the dust-gas mixture, determined by the gap 7. The setting of the classifier consists in adjusting the size of the gap 7 based on the fractional composition of the resulting product. 2 Il.

Description

one

The invention relates to devices for the separation of polydisperse materials into fractions and can be used in the chemical industry, metallurgy and other sectors of the national economy.

The purpose of the invention is to improve the quality of classification by reducing aerodynamic drag and controlling the separation process.

FIG. 1 shows the classifier, the general c. in fig. 2 shows section A-A in FIG. one.

The classifier includes outer 1 and inner 2 cylindrical-conical shells, pipe 3 supplying the initial mixture, swirling intensity in the next stage, is regulated by changing the size of the gap 7. Thus, the most rational process conditions are chosen, based on the fractional composition of the resulting product. At the same time, the aerodynamic drag of the device as a whole is reduced. The process of separation of the next stage proceeds in the same way as in the first, but with a different consumption of dust and air mixture. Adjusting the gas flow to the next stage is also done by changing the gap 7. Therefore, by controlling the flow in each stage of separation, it is possible to achieve

The extrinsic component located at the apex of the conic part is effective in maintaining the process (fractional .. the composition of the products taken through device 10) and reduce aerodynamic drag.

Claims (1)

Invention Formula 25 its housing, pipe 4 for the withdrawal of the fine fraction. The lower parts of bodies 1 and 2 are made in the form of a set of rings 5 with diameters decreasing in the direction of the dust-gas flow. The rings 5 of the inner core 2 are provided with covers 20 6 and are arranged to move along the axis of the classifier with the formation of the gap 7 and are fixed on the bars 8 by means of a threaded pair. At the inlet of the flow, each ring 5 is evenly spaced around the perimeter of the twisting blades 9. For the selection of intermediate products, special tools 10 are made, located under the twisting blades. Classifier works as follows. The original dust and gas flow is fed through the nozzle 3 into the space between the housings 1 and 2 and is twisted by the blades 9, getting into the first space between the rings 5 as the material moves. Here, under the action of centrifugal forces, large particles are released, which are removed flow with a minimum concentration of particles is taken through the gap 7 between the cover 6 of the lower Classifier of powdered materials, including coaxially installed outer and inner cylindrical cases, the cylindrical parts of which are made in the form of a set of rings, covers located on the rings of the inner case, twisting blades placed between the rings of the outer and inner cases, feed nozzle located in the apex of the conical part of the outer casing; ezhutochnyh products located under swirl vanes, characterized in that, in order to increase the quality of the classification by reducing the aerodynamic drag and the control of the separation process, the inner shell ring mounted with clearance relative to the lid in the course of the following 35 the inner ring 5 and the base of the top-40 movement of the original, mixture of the ring and with the outside. The amount of bleed air, and, consequently, its flow, which determines the possibility of independent movement along the axis of the classifier. the twisting intensity in the next stage is regulated by changing the size of the gap 7. Thus, the most rational conditions of the process are chosen, based on the fractional composition of the obtained product. At the same time, the aerodynamic drag of the device as a whole is reduced. The process of separation of the next stage proceeds in the same way as in the first, but with a different consumption of dust-air mixture. Adjusting the gas flow to the next stage is also done by changing the gap 7. Therefore, by controlling the flow in each stage of separation, it is possible to achieve - effective process management (fractional composition of products taken through at A classifier for powdered materials, including coaxially mounted outer and inner cylindrical cases, the cylindrical parts of which are made as a set of rings, covers located on the rings of the inner case, twisting blades placed between the rings of the outer and inner cases, the supply pipe of the initial mixture, located in the apex of the conical part of the outer case; a nozzle for withdrawal of the fine fraction, located in the lower part of the inner case; weft products located under the twisting vanes, characterized in that, in order to improve the quality of the classification by reducing the aerodynamic drag and controlling the separation process, the inner body rings are installed with a gap relative to the cover next in the course movements of the original mixture of the ring and with the possibility of independent movement along the axis of the classifier.