SU64038A1 - Method for air classification of materials by size - Google Patents

Description

The drawbacks of the sieve and hydronic classification as applied to the classification of fine powder materials for abrasive and other industries have served as an impetus for the development and improvement of air classification methods. In particular, installations have been proposed for air classification of materials by size in a laminar horizontal flow.

Based on this principle, the method according to the present invention of the invention has the peculiarity that a temperature gradient is created in the height of the classification channel.

In combination with previously known methods of applying rectifying grids at the air inlet and outlet from the channel and entering the particles into the classification zone at a speed equal to the speed of the air stream transporting them, this temperature gradient creates an increase in flow stability and equalization of its velocity throughout the channel cross section. .

Classifier devices,

intended for work on

This method is explained in a schematic drawing.

The powdery or granular material to be classified is introduced into the upper zone of the horizontal classification channel 1 in the form of a dusty suspension or ® pacnbivieHHOM as a thin veil from the baffle walls of the feeder G. A uniform flow of clean air flows through the classification channel 1, which picks up particles of material and carries them along the channel. Large particles fall at the beginning of the channel, then smaller ones fall out and, finally, the smallest particles fall at the end of the channel. At the bottom of the tensioning channel, the steel is a rather large mesh 2, and under -Heii there are 4 metal bunkers 3 fitted with paddles for receiving the classified product.

For heating the air with a temperature gradient along the height of the channel, water plate heaters or electric air heaters 7 can be used, calculated in such a way that the upper zone itself is heated to the highest temperature (80-100) and the lower one remains cold. With such a layered airflow structure, each overlying air layer has a density decreasing with height and cannot descend into a denser and colder layer of underlying air. The walls of the channel are coated on the outside with a thermal insulating layer to reduce heat transfer. For the same purpose, heating of the channel flow with special heating elements may be used in some cases. When entering the channel, the particles of the material receive a small pulse in order to acquire a horizontal speed equal to the speed of the air flow generated by the fan 9, which is carried out with a jet of air heated by the second fan 9, 3 feedstock and flowing out of the slit-like nozzle heated in the heater 8 located below the bottom (third) breaker wall of the feeder 6.

Additionally, straightening grids 5 are used to equalize air velocities.

To adjust the operating mode and to control the constancy of this mode, the throttle valves 10, the diaphragm 11 and Homer 12 are used.

Tested at the laboratory, and then at the half-plant installation, this method gave positive results.

 the invention

The method of air classification of materials according to coarseness in a laminar air flow, is distinguished by the fact that in order to effect laminar air movement, a temperature gradient is created over the height of the classification channel.