SU1724368A1 - Jet-type mill - Google Patents

Abstract

The invention relates to devices for grinding lumpy and bulk materials and can be used for crushing building materials, in the chemical industry, in the production of various powders, suspensions and drugs. The goal is to increase the grinding efficiency by creating shock waves in the grinding chamber. The shock waves are created by the reciprocating piston 5, the upper dead point 6 of which is located above the inlet 4 of the loading tube 3, and the lower dead point between the inlet opening of the loading tube and the grinding chamber. 1 il.

Description

The invention relates to devices for grinding lumpy and bulk materials and can be used for crushing building materials, in the chemical industry, in the production of various powders, suspensions and drugs.

The purpose of the invention is to increase the grinding efficiency by creating shock waves in the grinding chamber.

The drawing is a diagram of the mill.

The jet mill contains a grinding chamber 1, an accelerating pipe 2 for supplying energy carrier, made in the form of a Laval nozzle, a loading pipe 3 having an inlet 4 for supplying the material to be ground. The loading pipe 3 is provided with a piston 5 for pressing the material, the upper dead point b of the piston 5 is located above the inlet 4, and the lower dead point is between the inlet opening of the loading pipe and the grinding chamber.

Jet mill works as follows.

The material is poured through the loading pipe 3 and, due to the reciprocating movement of the gas-liquid mixture flowing from the Laval nozzle 2, enters the conical part 7 of the pipe. The plug created by the piston enters the flow path of the pipe, the grinding chamber and the conical taper 7 and is moved by the gas-liquid flow. During the passage of the plug through the narrowing part of the conical channel, it is pressed in, and entering the expanding part creates an exhaust effect, as a result of which the shock waves generated in the Lawal nozzle are amplified and, reflecting from the plug, return against the flow course, the granular material is crushed fed through the loading opening.

being blocked at this moment by the piston. With the further movement of the piston, the material is again compacted and a plug is formed, moving by the flow to the outlet. After its exhaust, there is a reverse flow of shock waves, crushing bulk material, which has entered the grinding chamber (grinding) but not yet compacted by a piston, which at this moment blocks the charging opening.

Shock waves are continuously generated when a gas-liquid mixture emanates from a Laval nozzle.

Calculations show that to achieve a supersonic velocity in a gas-liquid mixture with a volumetric gas content of 50% in the narrow part of the nozzle, it is sufficient to have a speed of up to 20-25 m / s. On the other hand, due to the presence of the Lawal nozzle, when the mixture is pressurized, corresponding to the threshold of the shock wave, a mixture of water and air (with a gas content of 5 0.5), continuous shock waves are generated. These waves, combined with the pressure of the piston, help push the material into the grinding chamber and crush it.

Claims (1)

The invention of the jet mill containing a grinding chamber, an accelerating pipe for supplying energy carrier, made in the form of a Laval nozzle, a loading pipe having an inlet for feeding the material to be crushed differs from the fact that in order to increase the grinding efficiency by creating shock waves in the grinding chamber, the loading pipe is equipped with a piston for pressing the material, with the upper dead point of the piston located above the inlet of the loading pipe, and the lower dead point between the inlet opening of the loading tube and grinding chamber,