SU1440561A1 - Pneumatic gravity classifier - Google Patents

Abstract

The invention relates to the pneumatic classification of bulk materials, can be used in the chemical, mining and other industries and makes it possible to improve the quality of the classification. The device includes a housing 1 consisting of separation columns (K) 2 of a zigzag shape, a sloping perforated bottom 3, a nozzle (P) 4 for supplying air, P 5 for supplying raw material, P 6 for selecting the finished product, P 12 for selecting large fractions, H 14 to remove dusty gas. Above K 2, leveling louvers 7 are installed, made of a set of core elements 8 with plates 9 and installation springs. Each element 8 is installed with the possibility of rotation around its own axis. Above the louvers 7 there is a separation space 13. The feed material fed through P 5 is fluidized on bottom 3. The suction flow passes through K 2, freeing from the main mass of large particles, which are output in P 6. The rest of the material passes from air in the gaps between the elements 8. The latter align the velocity profile in space 13, with the dust-like fraction being carried out at point 14. The rational separation mode is self-regulated by rotating the plates 9. 3 Il. (L

Description

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The invention relates to the pneumatic classification of bulk materials and can be used in the chemical, mining and other industries.

The purpose of the invention is to improve the quality of classification.

FIG. 1 shows a classifier, a general view; in fig. 2 shows section A-A in FIG. one; in fig. 3 shows a section BB in FIG. 2

The device includes a housing 1 made of separate separation columns 2 of a zigzag shape, a sloping perforated bottom 3, under which is located the air inlet 4, the inlet 5 for feeding the raw material and the inlet 6 for selecting the finished product. In the upper part of the columns 2, leveling louvers 7 are installed, made of a set of separate rod elements 8 mounted for rotation around its own axis. The elements 8 are provided with rotary plates 9 and installation springs 10. The installation of the rotary plates 9 in a predetermined position is carried out by a knob 11, the angle of rotation of which is tared in accordance with the gas flow rate in the columns 2, the pressure force of which is balanced by the adjusting spring 10. Above the leveling louver 7 a nozzle 12 for collecting the coarse fraction and a separation space 13. The dusty gas is removed through the nozzle 14.

The device works as follows.

By turning the knob 11 it is established, in accordance with the operating speed of the gas flow in the separation columns 2, polo / - /;

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rod elements 8. Air is supplied at a predetermined flow rate through the pipe 4. The raw material supplied through the pipe 5 is fluidized on the bottom 3. The ascending two-phase flow passes through the separation columns 2, where it is freed from the main mass of large particles. The remainder of the material passes along with the air in the gaps between elements 8, which align the velocity profile in the separation space 13. This and the fact that the cross section of the separation space 13 increases upwards results in the release of a dust-like fraction from the material flow that moves to the nozzle 12 and is output from the device. The dust-laden gas escapes through the nozzle 14. The rational separation mode of operation is self-regulated by rotating the plates 9, ensuring high separation quality.

Claims (1)

Formula of invention A gravitational pneumatic classifier, comprising a casing consisting of separation columns, a perforated bottom, inlet pipes for air and  bulk material, nozzles for unloading selected products, characterized in that, in order to improve the quality of classification, the classifier is equipped with spring-loaded leveling louvers made from a set of rod elements with rotary plates, and leveling louvers are located above the separation columns. Each core element is installed with the possibility of rotation around its own axis. -ff at