SU1671362A1 - Acoustic radiator - Google Patents

Abstract

Invention m. Used in acoustic emitters to generate waves into the process medium. The purpose of the invention is to intensify the process when processing mixtures of components. The stator is made in the form of two fixed disks 3, 4, dividing the housing into mixing chambers 12 and pulsating 15. The rotor 8 is mounted between the disks 3, 4. The holes 9 of the rotor 8 are aligned with the holes 5, 6 of the disks 3, 4. The inlet the pipe 18 is connected to the chamber 12, the discharge pipe 22 is connected to the camera 15. A perforated partition 19 is installed between the camera 12 and the pipe 18 18. There are annular grooves 16 on the inner surface of the camera 15.

Description

The invention relates to acoustic wave generators in a processable medium and can be used in physicochemical and other processes in various sectors of the national economy.

The drawing shows the design of the radiator.

The purpose of the invention is to intensify the process when processing mixtures of components.

The acoustic emitter comprises a housing consisting of an upper 1 and lower 2 parts, a stator consisting of two disks 3, 4 with coaxial through holes 5, 6. The disks 3, 4 of the stator are separated by a size ring 7, inside of which is placed with the possibility of free rotation flat rotor 8 with openings 9 coaxial with openings 5, 6. The rotor 8 is mounted axially movable on shaft 10. A screw of screw pump 11 is mounted on the maintenance shaft. The inner surfaces of the housing part 1 and the disk 3 form the mixing chamber 12. End of shaft

10 is located in a bearing assembly 13, which is protected by a cap 14. On the inner surface of the lower part 2 of the housing, which together with the disk 4 forms a pulsation chamber 15, and on the outer curvilinear surface of the cap 14 there are annular grooves 16. 17,

In the upper part 1 of the housing, at the point of connection of the supply pipe 18, a perforated partition 19 is installed for pre-treatment of the components. The nozzles 20, 21 serve to feed the components to be processed into the chamber 12. The outlet nozzle 22 is connected to the chamber 15.

The emitter works as follows.

The rotor 8 is driven by a drive. Components previously mixed in chamber 12 are pushed through holes 5 in the stator disk 3, where the formed streams are interrupted by a rotating rotor 8. Pulsating streams

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complete their formation by passing through the holes 6 of the stator disk 4 The size ring 7 stably maintains the minimum gap between the rotor and the disks 3 4 of the stator.

As a result of the periodic blocking of the stator holes 5, sound is emitted into the chamber 15, where acoustic mixing of the components to be processed takes place. Moreover, the number of components may be different. Excited oscillations, reflecting from the surfaces of the grooves 16, 17, create additional oscillations, which contribute to the intensification of mixing.

Both liquid and gaseous components can be supplied through pipe 18 and the gas is dissipated and the liquid splits when passing through the openings of the partition wall 19. For example, to obtain persistent foams, suspensions or emulsions, the first stage is the acoustic treatment of the mixture, and saturation of the mixture with gas bubbles For a high-performance process, it is recommended to install two devices in series, each of which must perform a certain

stage.

Claims (1)

The invention of the acoustic emitter, comprising a housing with inlet and outlet nozzles, a stator made in the form of two not movable disks, dividing the housing into a mixing chamber and a pulsation chamber, a rotor mounted between the stator disks, the rotor holes being coaxial with the aperture The stator discs, the supply nozzle is connected to the mixing chamber and the outlet - to the pulsation chamber, characterized in that, in order to intensify the technological process when processing mixtures of components. a perforated partition is installed between the mixing chamber and the inlet pipe, and annular grooves are made on the inner surface of the pulsation chamber sh