SU908426A1 - Inertial pneumatic classifier - Google Patents

Description

(54) INERTIAL PNEUMATIC CLASSIFIER

one

The invention relates to the pneumatic classification of polydisperse materials under the action of inertial and centrifugal forces and is intended for the separation of material by size in the range from 60 microns to several microns, and can be used in various industries, in particular in the chemical, radio electronic, etc.

Known pneumatic classification; torus, which includes a classification chamber with pouring devices, loading and unloading devices 1.

The disadvantage of this device is low classification efficiency.

The closest in technical essence and the achieved result to the proposed is an inertial classifier, including a bunker, coaxial chambers, a cyclone, a fan and a bunker of a large fraction 2.

The disadvantage of the device is the poor quality of the classification.

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

The goal is achieved by the fact that the separator is provided with screw guides, located between the inner surface of the outer chamber and the outer surface of the inner chamber, and the output end of the outer chamber is designed as a socket with an opening angle of 15-20 °.

FIG. 1 shows the device, a general view; in fig. 2 is a diagram of the connection 10 of the device with a cyclone, fan, compressor.

The classifier contains a hopper 1, the outer chamber 2, the output end of which is made in the form of a bell 3. Inner

5, the chamber 4 is adapted to move relative to the exterior. Screw guides 5 are installed between the inner surface of the outer chamber 2 and the outer surface of the inner chamber 4 for twisting the two-phase flow. Feeder 6 is designed to supply the source material to the external component 4 of the classifier, and the cyclone 7 to capture the small product.

The device works as follows.

The source material is fed by the feeder 6 into the outer chamber 2 of the classifier, picked up by the air flow coming from the compressor, twisted by screw guides and falls into the classification chamber.

The classifying flow created by the fan captures small particles concentrated at the outer walls of the inner chamber 4, changes their direction by 180 °, and carries them into the cyclone 7, where they are captured. A large product falls into the hopper 1. Screw guides impart a rotational movement to the dust-gas flow. Under the action of the resulting centrifugal forces, radial separation of material by size occurs. Large particles with a large mass are thrown to the inner walls of the outer chamber, while small particles are concentrated near the outer surface of the inner chamber.

In the classification zone, located directly behind the edge of the inner chamber, there is an abrupt change in the direction of translational motion of the carrier medium to the opposite one and its removal through the inner channel. Moreover, as a result of forces in the wall friction and inertia forces, non-simultaneous rotation of the layers located at different distances from the central axis of the apparatus occurs.

The layers that pass in the immediate vicinity of the intake opening, i.e., the moving chamber along the outer surface of the inner chamber, are captured first, while the more distant layers have time to pass some distance along the inertia along the axis of the apparatus. The peripheral layers, carrying large particles of material, are just later unfolded and directed into the central channel. This airflow structure favors the process of inertial separation of material by size.

However, individual large particles may be trapped in a stream of air into a small product. To eliminate this phenomenon, the output end of the external chamber is designed as a socket. Such a design allows additional stratification of the dust and gas flow directly

in the classification zone, remove large particles from the area of possible capture by air flow and thereby improve the quality of separation.

The flare angle is selected at an optimum value of 15-20 °.

With smaller values of the angle, delamination does not take place sufficiently intensively and the separation quality improvement due to the indicated structural element is insignificant. At an opening angle of more than 30 °, as a result of a sharp expansion of the jet in the classification zone, large-scale eddies are formed which impede the delamination process and thereby impair the quality of separation.

The use of an inertial pneumatic classifier improves the quality of classifications.

Claims (2)

Invention Formula An inertial pneumatic classifier comprising a bunker, two coaxial chambers, a cyclone, a fan and a coarse fraction bunker, characterized in that, in order to improve the quality of classification, the separator is provided with screw guides located between the inner surface of the outer chamber and the outer surface of the inner chamber, and the output end of the outer chamber is designed as a bell with an opening angle of 15-20 °. Sources of information taken into account in the examination, USSR Author's Certificate No. 580016, cl. On 07 May 4/08, 1975. 2. Patent of France No. 2033798, cl. At 07 At 7/00, published 1970 (prototype). CSJ