SU1688917A1 - Air-pressure mill - Google Patents

Abstract

The invention relates to a jet grinding technique and can be used in the mining, chemical, construction and other industries. The aim of the invention is to increase the grinding efficiency of the material. For this purpose, in the grinding chamber there is an obstacle in the form of a rotating solid disc 4, which is installed between the discharge chambers of the accelerating tubes 2. The linear velocity at the site of its interaction with the material torch is equal to the velocity of the stream of particles of material. This ensures optimal grinding of the material. 1 hp ff, 2 ill.

Description

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The invention relates to a jet grinding technique and can be used in the mining, chemical, 1 construction and other industries.

The aim of the invention is to increase the grinding efficiency of the material.

FIG. 1 shows a jet mill, a longitudinal section; in fig. 2 - a disk, a section.

The jet mill includes a grinding chamber 1 with oppositely and coaxially mounted accelerating tubes 2. A discharge nozzle 3 is connected to the grinding chamber 1. Inside the grinding chamber there is an obstacle in the form of a rotating disk 4, which is fixed on the axis and provided with a drive 5, for example an electric motor. The disk 4 is installed between the discharge ends of the accelerating tubes perpendicular to the direction of flow of the material to be ground. Since the axes of two perpendicularly directed flows

the material is the same, then the disk 4 and its axis do not experience bending forces from the impacts of high-speed jets of material, which increases the reliability of the mill.

To increase the grinding efficiency, the working surfaces of the disk 4 can be provided with annular projections 6, which are arranged concentrically relative to each other. The protrusions 6 in cross section have a triangular shape. When a crushed material plume interacts with a disk 4 provided with protrusions 6, additional shear stresses appear in each particle of material (in the direction of inclination of the disk surface and in the direction of its rotation).

The mill works as follows.

The source material is fed by the flow of energy carrier through the accelerating tubes 2 into the grinding chamber 1, where two jets of the source material interact with the rotating disk 4, thereby grinding the material. Ground Maso

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The material is discharged through the discharge port 3. The destruction of each particle of material proceeds as follows. At the moment of impact interaction with the surface of the disk 4 of the particles of material, compressive forces appear in them, at the same time (due to the rotation of the disk 4) tangential or shear forces act on the particle. The optimal mode of destruction, in terms of the minimum energy consumption for destruction and the effectiveness of the process of destruction, is the mode when the compressive and shear forces are equal or close to each other. If the velocity of the particles of the material emitted from the accelerating tubes 2 is significantly higher than the speed of rotation of the disk 4, then the destruction is mainly due to compressive forces, which reduces the effectiveness of the destruction. If the linear speed of rotation of the surface of the disk 4 at the point of interaction with the material jets is significantly higher than the speed of particles emitted from the accelerating tubes 2, then the effect of extraction of particles, i.e. particles are pressed with insufficient force to the rotating surface, which reduces the efficiency of grinding the material,

in addition, it increases the specific energy consumption for grinding material. Therefore, the linear velocity of the rotating disk in the region of interaction with the torch of the comminuted material is equal to the velocity of the jet of the comminuted material.

The mill can be used in mining enterprises for the enrichment of mineral raw materials, in the cement industry for grinding clinker, in order to obtain high-quality cement.

Claims (2)

1.Struine mill, including a ground chamber with opposite and coaxially installed expansion pipes, between which a flat obstacle is located perpendicular to them, which is so that, in order to increase the grinding efficiency of the material, the obstacle is made in the form of a rotating drive disk, and the axes of the accelerating pipes are shifted to the periphery of the disk. 2. Mill according to claim 1, characterized in that the working surfaces of the disk are made with annular concentrically disposed protrusions. Compressed air P-5ata Okatsh bozdukh P-5ata FLOW mater / ala FIG. 2