SU156787A1 - HYDRODYNAMIC ULTRASONIC CONVERTER - Google Patents

Description

The known hydrodynamic ultrasonic transducers, designed to emulsify two non-immiscible liquids and containing a core with an axial channel through which one of the liquids is fed into the mixing chamber, and a high pressure chamber into which the second fluid is injected, have low productivity, especially in those cases when liquids are supplied at a pressure not exceeding 5-6 atm.

Improving the efficiency of the proposed converter is achieved by connecting the high-pressure chamber with the axial channel through tangential drilling, installing a diaphragm between the high-pressure chamber and the mixing chamber and placing a resonator in the mixing chamber, made in the form of a section of a round tube.

The design of the Converter shown in the drawing.

In the core / there is an axial channel 2, but to which one of the displaced liquids is supplied, for example an oil. This fluid is supplied through a conduit not shown in the drawing which is connected to the core.

/ cap nut 3. The core} is located in the high pressure chamber 4, for which the lock nut 5 serves as a reliable connection to the core. The high pressure chamber is connected to a reservoir (not shown) containing the second liquid, Gtiimer water, with the aid of a plug 6. Water chamber 4 is supplied at a pressure of 5-6 atm. The high pressure chamber 4 is connected to the axial channel 2 by means of tappential drillings 7. Membrane 8 separates the high pressure chamber from the mixing chamber 5. A resonator 10 is placed in the mixing chamber.

the thin-walled tube, the position of the topopi in chamber i is fixed by a lock nut. An adjustment screw 12 is inserted inside the resonator to adjust the resonant chamber. The position of the screw 12 is fixed by the lock nut 13. To remove the finished emulsion from the mixing chamber, the holes 14 serve.

The converter operates as follows.

The water from the high-pressure chamber 4 flows through the tangential drilling 7 into the channel 2, where the jets intersect and mutually repeatedly twist and twist along the dilated surface of the channel 2, mixing with the oil flowing through this channel. At the same time in the core / is the excitation of elastic vibrations of high frequencies. As a result of the small-radius swirling of a small radius, centrifugal forces arise, pressing the mixture to channel 2 steaks. At the exit from channel 2 into the mixing chamber, the stream forms a cone, in FiepuiHHbi of which a rarefaction occurs, which contributes to its appearance in the flow of powerful non-periodic oscillations. To isolate frequency with a frequency from the spectrum, the resonator 10 is tuned by screw 12. The effect of emulsion is enhanced by ultrasonic cavitation, the occurrence of which is facilitated as a result of suction over caia 2, except for oil, and a certain amount of air. 4 Subject of the Inventions Hydrodynamic ultrasonic transducer for emulsifying two immiscible liquids, containing a core with an axial channel, but which is supplied with one of the liquids to the high pressure chamber surrounding the core, connected to the reservoir, filled with a second liquid, the mixing chamber, characterized by In order to increase the efficiency of the converter, the high-pressure chamber is connected to the axial channel by tangential drilling, between the high-pressure chamber and the mixer. The diaphragm is set by a measuring gauge, and in the mixing chamber there is a resonator, which is a thin-walled tube section.

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