SU1727920A1 - Aerator of aerosols - Google Patents

Abstract

Use: for the preparation of aerosols, as well as aeration of air-powder mixtures. SUMMARY OF THE INVENTION: The aerosol aerator comprises a housing 1 with an inlet 2 and an outlet 3 with nozzles, a splitting body of rotation 4 with a shaft 5, a vibrator 6. The shaft of a crushing body of rotation is placed inside the vibrator, the aerator is equipped with a sieve 7 with radial vanes 8 and two fans 9 and 10. The fan 10 communicates with the return channel of the particles 11, and the sieve 7 is located on the body of the vibrator 6 in its upper part. The crushing body of rotation 4 is equipped with a movable ring 12, and the radial blades 8 of the sieve 7 are mounted on the shaft of the crushing rotation body, directly at its base. 5 il.

Description

The invention relates to cooking devices, aerosols, and also aeration of air-powder mixtures and can be widely used in agriculture and in powder metallurgy.

The purpose of the invention is to improve the uniformity of grinding and increase reliability.

FIG. 1 shows an aerator, a longitudinal section; in fig. 2 - the same, the embodiment; in fig. 3 shows section A-A in FIG. one; in fig. 4 shows a section BB in FIG. 2; in fig. 5 - radial blades located directly at the base of the crushing cone.

The aerosol aerator comprises a housing 1 with an inlet 2 and an outlet 3 with nozzles, a crushing body 4 of rotation with a shaft 5, a vibrator 6. A shaft of a crushing body of rotation is placed inside the vibrator. The aerator is equipped with a sieve 7 with radial vanes 8 and two fans 9 and 10. The fan 9 is installed on the body of the vibrator in its middle part, and the fan 10 in its lower part. The bottom fan 10 communicates with the return channel of the particles 11 for regrinding, and the sieve 7 is located on the upper body of the vibrator 6, while the crushing body A of rotation is equipped with a movable ring 12, and the radial vanes 8 of the sieve 7 are mounted on the shaft of the crushing unit. body 4 rotation. In order to improve the scattering of particles on the screen, a reverse cone 13 can be provided at the bottom of the ring 12. The lower fan 10 is located in an autonomous chamber 14 connected by the atmosphere 15 or with a source of compressed gas and channel 16c to return the particles 11 to regrind. By means of windows 17, air or gas from channel 11 has access to the cavity of the sieve 7 and to the radial vanes 8. The end of the inlet 2 is closed with a cover 18 or a slide gate. In the upper part of the housing, windows 19 are provided for returning particles to regrind. Screw ribs 20 for lifting material may be provided in duct 11, and helical ribs 21 for guiding the material during loading may be provided in nipple 2. The outlet nozzle 3 communicates with the fan chamber 9 by means of the aperture 22. When processing solid powder materials, it is advisable to place the rotational crushing body on the shaft 23 of the auxiliary drive sealed in the lid with the seal 24.

In the inlet pipe cover the material and close the lid. When the vibrator 6 rotates, a centrifugal force is created,

providing vibrational-rotational motion of the crushing body 4 of rotation, and with it the rings 12. Aerosols are ground by the body of rotation 4 and the ring 12

and spread on the sieve 7. The particles of the crushed material are picked up by the radial blades 8 directly at its base, creating a stream of air and aerosol particles in the radial direction in the sieve area, with the blades scatter the particles along the sieve 7 and with the oscillatory-rotational movement of the sieve small particles are sieved. At the same time, particles of material that fell on the sieve,

are balanced by the action of the blades 8 and the blades of the fan 9, located respectively above and below the sieve, which eliminates sticking of large particles in the cells of the sieve and provides access to the small particles.

Larger particles that do not pass through the sieve, when the lid is closed with a lid, are guided by the fan 10 through the windows 17, the channel 11 and the windows 19 for regrinding. For light combustible materials, it is advisable to use a fan 10 for operation in neutral gases.

Performing an aerator equipped with a sieve allows more uniform grinding to be achieved by separating small and large particles and sending large particles for re-grinding.

Performing the blades over the sieve and the fan under the coil balances the particles,

trapped on the sieve and eliminates sticking

large particles above the sieve, and therefore

increases the reliability of the machine.

Performing a particle return channel on

re-grinding increases reliability by reprocessing the material and thereby improves the uniformity of grinding.

Run bottom fan

ensures reliable rotation of the crushing body of rotation when solid particles enter between the wall of the housing and the ring and virtually eliminate the jamming of the grinding body of rotation,

What is achieved by supplying air or gas to the radial blades located above the sieve, and the operation of these blades as an air turbine, this increases the reliability of the device. Performance

The return channel of coarse particles for re-grinding by screw improves the lifting conditions of the material by feeding the material along the helix, and also improves the cooling conditions of the crusher body and keeps dimensions

the annular slots between the casing and the crushing body of rotation are unchanged, and therefore, reduces the size of the processed material.

Making the fan blades located under the sieve allows more aerosols to be pumped more evenly due to a more uniform flow of material through the sieve and, consequently, increases the reliability of the machine.

Economic efficiency when operating on easily flammable aerosols is achieved by increasing the productivity by about two times as compared with the prototype with more uniform grinding of aerosols in the medium of neutral gases and increasing the rotational speeds of the crushing body of rotation.

Claims (1)

The formula for obtaining an aerosol aerator, comprising a housing with inlet and outlet nozzles, a rotational crushing body with a shaft, a vibrator, a vibrator drive, the rotational crushing body shaft being placed inside the vibrator, characterized in that, in order to improve grinding uniformity and reliability operation, the aerator is equipped with a sieve with radial vanes and two fans, one of which is mounted on the vibrator case in its middle part, and the other in the lower part of the case, with the lower fan connected to the particle return channel, and the sieve is located on the vibrator case in its upper part, while the crushing body of rotation is equipped with a movable ring, and the radial blades of the sieve are mounted on the shaft of the crushing body of rotation directly at its base. Fig.Z Fig.b