SU1489847A1 - Vortex-type hydrodynamic oscillation emittter - Google Patents

Abstract

The invention relates to acoustic engineering and can be used to intensify the processes of emulsification and mixing. The purpose of the invention is to expand the range of use by increasing the frequency range of the generated oscillations. The emitter includes a housing, two coaxial cylindrical vortex chambers. The tangential channels are made in the walls of the chamber of a larger diameter, and the other chamber is made in a piston connected by a spring with a housing. The flow of the working medium flows through the tangential channels, is twisted in cylindrical chambers, and oscillations of two frequencies are generated, on which oscillations generated by the movement of the piston are superimposed. 3 hp ff, 2 ill.

Description

The invention relates to acoustic engineering and can be used to intensify the processes of emulsification, dispersing, mixing, dissolving in the chemical, food, machine-building, oil refining industries.

The purpose of the invention is to expand the range of use by increasing the frequency range of the generated oscillations.

FIG. 1 shows a vortex hydrodynamic emitter of oscillations, a longitudinal section; on. FIG. 2 - the same cross section.

The hydrodynamic vortex oscillator includes a housing 1, a vortex cylindrical chamber 2 with tangential channels 3, a piston 4 in which a cylindrical chamber 5 with a diameter smaller than the diameter of the cylindrical chamber 2, and a conical chamber 6, are formed with a piston. Spring 7 may have a non-linear characteristic.

The tangential channels are made both for entering the working medium clockwise and counterclockwise, and gravity at the apex of the conical chamber 6 is selected in the range of 70-142 °.

The hydrodynamic vortex emitter of the cohort works as follows.

The pressurized fluid enters through the tangential channels 3 and part of the flow (60-80%) twists in a clockwise direction, and some in the opposite direction. During the interaction of these flows, pulsations are generated with a frequency different from the main one determined by the diameter of the cylindrical chamber. Next, the swirling flow enters the cylindrical chamber 5 and oscillations are added to the oscillations generated in chambers 2 and 6, oscillators; more frequency generated in chamber 5 having a small diameter compared to the diameter of chamber 2. The oscillations are superimposed on these oscillations associated with the change in volume of chamber 2 due to the periodic movement of piston 4, which affect the amplitude

CX)

with

00

tude-frequency characteristic of a vortex hydrodynamic oscillator of oscillations. This characteristic can be changed using different springs and different pistons.

Thus, the spectrum of the emitted oscillations expands due to both low frequencies and high frequencies. This allows the range of use of the radiator to be extended, since different applications may require different vibration frequencies and different spectral widths of the generated oscillations.

Claims (4)

1. Vortex hydrodynamic oscillation emitter containing a body and two coaxially communicating, cylindrical chambers of different diameters, in the side walls of a cylindrical chamber of larger diameter there is a tangential channel for entering the working medium, characterized in that it is placed in a cylindrical a chamber of larger diameter with the possibility of longitudinal movement by a spring connecting it to the body by a spring, a cylindrical chamber of smaller diameter is made in the piston, additional tangential channels are made in the side walls of the cylindrical chamber of larger diameter, and the inner surfaces of the cylindrical chambers smoothly match their wives. . 2. The oscillation emitter according to claim 1, characterized in that the spring has a non-linear characteristic. 3. The oscillation emitter of claim 1, characterized by TQM. That the piston has a chamber with a conical side surface with an angle of 70-142 ° at the apex facing the cylindrical chamber of smaller diameter. 4. The emitter of vibrations according to claim 1, characterized in that 60-80% of the tangential The 0 channels are intended to enter the working medium in a cylindrical chamber of a larger diameter in a clockwise direction, and the rest are against. five FIG. g