SU1646591A1 - Apparatus for fluidized-bed coating of particles - Google Patents

Abstract

The invention relates to a fluidized bed coating technique and improves productivity. The device contains a vertical housing 1, inside which perforated sectors (PS) are mounted and a spraying device 4. PS are rigidly fixed on rotary radial axes x 6 connected by a rotary ring 8. In the upper part of housing 1 a fan 2 is installed. Sensor 3 The flow is installed in the nozzle 14 for air outlet and connected via the converter 11 to the pneumatic cylinder, which provides rotation of the ring 8 and at the same time the PS inclination to an angle of up to 60 ° C from their initial horizontal position. In such an apparatus, by varying the angle of inclination of the PS during the coating process, the living section of the air flow is increased, which ensures the creation of a stable suspended layer of particles with an increase in the weight of the suspended layer of particles. 3 ml.

Description

The invention relates to techniques for coating particles in a fluidized bed and can be used in the application of protective coatings to particles used in electrography.

The purpose of the invention is to increase the productivity of the apparatus.

Haha. 1 shows an apparatus, a longitudinal section: in FIG. 2, a section A-A in FIG. 1: in FIG. 3, view B is in FIG. 2.

The apparatus comprises a vertically mounted hollow body 1, in the upper part of which a fan 2 and a sensor 3 of the air flow pressure are placed; in the middle part there is a sawing device 4, and in the lower part, guide vanes in the form of perforated sectors 5. The latter are rigidly fixed to the rotary radial axes 6 installed in the body of the housing 1 with the help of tightening brackets 7 and connected by a rotary ring 8 connected to the mechanism of rotation of the sectors 5 made in the form of a pneumatic cylinder 9 connected through a pneumatic valve 10 and an electric transducer 11 with a pressure sensor 3 made in the form of a tube. The pneumatic cylinder 9 is connected with one of the rotary axes 6 by means of a lever, 12. A filter 13 is provided for air purification. An air pressure sensor 3 is installed in the nozzle 14 for air outlet.

The device operates as follows.

Coated particles are loaded into the hollow body 1 by any of the known methods on the perforated sectors 5 located in a horizontal position. Turn on the fan 2, which draws air from the housing 1, which creates a suspended layer of particles. The pressure of the air flow in the apparatus is fixed by a sensor 3 (tuned to a predetermined value).

In the process of coating, the weight of the suspended layer increases, which leads to a decrease in air pressure, and the sensor 3 gives a signal through an electric transducer 11 and a pneumatic valve 10, which opens the air supply to the pneumatic cylinder 9, which rotates the lever 12 and the associated rotary ring 8. The latter lowers perforated sectors 5 at an angle (from 0 to 5 60 °), which provides an increase in pressure to the initial value to create a stable amount of suspended layer during operation by increasing the living section for air passage Nogo stream 10 between the sectors.

After the application process is completed, fan 2 is turned off and the treated powder is poured into a receiving container (not shown). The rotary sectors are brought to the initial (horizontal) position 15.

Thus, compared with the prototype. the proposed device allows to reduce the resistance to air flow by 20 - 30% due to the function 20 of the gas distribution grill perforated sectors, which also improves the swirl of the air flow. At the same time, the angle of inclination of the perforated sectors (live section for the passage of air flow) is provided, which allows creating a stable suspended layer and, thereby, increasing the productivity of the apparatus by 50%.

Claims (1)

Claim The apparatus for coating particles in a fluidized bed, comprising a vertical housing with nozzles for input and output of air flow, a spray device installed in the housing and guide vanes mounted on the rotary ring by means of rotary radial axes connected to the rotation mechanism, distinguishes I mean that, in order to increase the performance of the apparatus, it is equipped with a pressure sensor installed in the nozzle for air flow output and connected with the ring rotation mechanism, and guides The loops are made in the form of perforated sectors. Aa View 6 | ί (Riga. 2