SU1338900A1 - Pneumatic classifier - Google Patents

Abstract

This invention relates to the pneumatic classification of bulk solids in the upstream air flow. used for separation of material with a particle size of not more than 10 mm into two products on the boundary grain of 500-50 microns in the chemical, mining and other areas of the industry. The purpose of the invention is to improve the classification efficiency by increasing the concentration of the material to be divided in the zone of optimal speeds of the pneumatic flow. The classifier includes a cone-shaped air cylinder 1 with a pipe (II) 2 for air supply, ii 3 raw material supply, II 4 for large product release and P 5 for small product output. A cascade of inclined pouring shelves 6 e (L

Description

with longitudinal edges inclined down to their longitudinal axis. Shelves 6 may have a trapezoidal or concave-oval shape. In the separation as a result of the half-through flow regime of the daouch phase flow, a significant part of the material belongs to the walls of the mine, from where the shelves 6 return to

one

The invention relates to the pneumatic classification of various bulk products into a rising air flow and can be used to separate materials of no more than 10 mm in size into two products with a boundary grain of 500-50 microns in chemical, mining and other industries

The purpose of the invention is to improve the efficiency of classification by increasing the concentration of the divided

material in the zone of optimal speeds of the pneumatic flow

FIG. the proposed classifier 9 is presented; Fig, 2 - section in Fig.1 | FIGS. 3 and 4 are embodiments of the transferring; shelves.

The classifier consists of a cone-shaped pneumatic shaft 1 with 2--5 nozzles fixed on it, respectively, for supplying air and the starting material and for leaving large and small products. Inside the chamber, on its opposite inner surfaces, a cascade of inclined pouring shelves 6, located in the DjaxMaTHOM order, is installed. To improve the classification efficiency, the installation of chippers 7 is reduced. The pouring shelves 6 are made with longitudinal edges inclined down to their longitudinal axes and may have a trapezoidal shape (fig. 3) or a concave-oval (phi): 4) shape.

Classifier works as follows.

The source material is loaded into the classifier through nozzle 3, air is supplied through nozzle 2. The process of material separation begins. As a result of the semi-bleed mode

air flow rod. A part of the material that does not fall on the shelves 6 is retracted from the walls by bump stops in the direction of the axis of the shelves 6. Moving from the shelf to the shelf, the material is fractionated. The large product is lowered and removed through P 4, and the small product is raised and removed through P 5. -4 sludge.

a two-phase flow of flow a significant part of the material belongs to the walls of the mine, from where they return to.

the rod (optimal zone) of the air flow through the pouring shelves 6, and the material moving down along the walls that are not provided with shelves is discharged from these walls when

assistance chippers 7 in the direction of the axis of pouring shelves. From the shelves all the material is poured into the active sweeping zone.

Thus, moving from the shelf

to the shelf, the material is fractionated. The coarse product is lowered and removed through the pipe 4, and the shallow product rises and is removed through the pipe 5.

The implementation of shelves with longitudinal edges inclined to their longitudinal AIS allows an increase in the concentration of the material to be separated in the zone of optimum speeds of the pneumatic flow.

and thereby increases the efficiency of classification.

Comparative testing is carried out on a model unit with smooth shelves (known construction) and

trapezoidal shelves (pre-designed construction). Quartz sand with a fraction of less than 50 microns of 60% is used as the starting material. The separation is carried out on the boundary size of 50 viKM.

The following results were obtained: on a known apparatus, the separation efficiency Ee is 65% with a consumption concentration | U of 2.2 kg / m, on the proposed classifier, ee 70% with fU 2.3 kg / m.

Thus, the proposed classifier allows an increase in the efficiency of material separation by 5% compared to the known one.

Claims (1)

5 claims Pneumatic classifier, including a pneumatic shaft with a cascade of inclined pouring shelves, located 10 on its opposite inner surfaces, the supply pipe of the material being divided, characterized in that, in order to increase the classification efficiency by increasing the concentration of the material being divided in the zone of optimal air flow speeds, the longitudinal edges of each pouring shelf are inclined to its longitudinal axis. . Zpyura speeds air flow 1 Di8i) “Enhancement of Material” 6. transfer axis Fig.Z Fy Editor O. Yurkovets Compiled by Y.Provotorov Tehred L. Oliynyk Proofreader A.T. Order 4162 / 6Tirage 538 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4