SU118693A1 - Jet mill for fine grinding of materials - Google Patents

Description

Jet mills are known for fine grinding of materials by the collision of their particles in opposing streams directed into the grinding chamber oppositely arranged by ejectors using a classifier and dust precipitators.

In such mills, the particles of the material moving at high speed in the accelerating tubes of the ejectors, due to the friction of the walls of the tubes, cause their rapid wear, as a result of which it becomes necessary to manufacture such tubes from high-strength materials such as hard alloys. In addition, wear products often contaminate the material to be ground, which in some cases entails the need for subsequent cleaning.

The present invention aims to partially eliminate the noted disadvantages. This is achieved by the fact that the energy supply to the mixing chambers of the ejectors is carried out by the nozzles located in tangential directions to the chamber walls, which causes the screw carrier to move along the walls of the accelerating tubes and create a vacuum along their longitudinal axis.

This causes an accelerated movement of the material to be ground along the longitudinal axes of the tubes in a vortex flow.

The drawing shows a part of the scheme of the jet mill in a vertical section.

The mill uses a vortex ejector 1, which differs from a conventional flow ejector in that the energy source (compressed air, steam, etc.) is introduced into the mixing chamber 2 via the nozzle 3, directed tangentially to the chamber surface. The gas entering the chamber, expanding and rotating at a considerable speed, forms a vortex flow in the accelerating tube, along the internal axis of which a vacuum arises and is maintained. As a result of this, through the cartridge 4, the material being ground is sucked into the chamber, which moves with

the acceleration along the axis of the vortex flow without touching the walls of the mixing chamber and the sleeves 5.

Supply of energy to the ejectors so that the vortex flows generated in them rotate in opposite directions, two vortex flows rotating in opposite directions are formed in the settling chamber 6. The particles of the material being crushed move oppositely to each other with doubled relative velocity and are crushed.

The crushed material is removed from the chamber 6 by a stream of additional gas (air, steam) sucked through the nozzle 7 and through the nozzle 8 enters the classifier and then into the dust precipitators (not shown).

Subject invention

Jet mill for fine grinding of materials by colliding their particles in opposite flows directed into the grinding chamber by oppositely installed ejectors using a classifier and dust precipitators, in order to reduce the wear of ejector elements and reduce the degree of contamination of materials with wear products , the energy carrier is supplied to the mixing chambers of the ejectors through the branch pipes located in the tangential directions to the chamber walls, which informs the energy carrier of the screw The motion along the walls of the accelerating tubes and, forming a vacuum along their longitudinal axes, causes an accelerated motion along them in the vortex flow of the material to be ground.

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