CS210397B1 - Acoustically radiant for liquids - Google Patents

Abstract

The invention relates to an acoustic radiator suitable for a fluid environment. The invention solves the transformation of the amplitude of the longitudinal oscillations of the transducer into a larger amplitude of the deflection of the bending-radial oscillations. The essence of the invention lies in the fact that the waveguide shell is provided with a membrane, which can also be in the shape of a tube. To increase the effect, the membrane is convex. The invention can be used, for example, for acoustic drying, coagulation and spraying of liquids.

Description

1 210397

BACKGROUND OF THE INVENTION The present invention relates to an acoustic fluid radiator.

The previously known mechanical vibrator is based on the magnetism of the trickle-bed equipped with end plates connected with bent springs, in the center of which the tools are clamped with the necessary processing of the rock. When the magnetostrictive transducer is oscillating, the bent springs align and compress, causing them to flex. There is an increase in the deflection of the springs in the wheel-sea direction towards the axis and in the direction of the transverse oscillations of the transducer, which is transferred to the tools placed in the spring center. Such robust vibrators of about 10 meters are designed for mining and geological mining.

Another known solution uses a semi-wave mechanical concentrator with an inner cavity at the expanding end to transform longitudinal oscillations into a bend radial. On this principle, several cavity constructions are solved. The first mentioned solution of mechanical vibrator is that it is not suitable for the fluid environment. The disadvantage of the second solution is that it has a radial oscillation deflection.

The aforementioned drawbacks are solved by a technical problem solved by an acoustic emitter for thermocouples according to the invention, the principle of which is that the waveguide shell is provided with at least one flat membrane, the upper and lower ends of the diaphragm being fixedly connected to the ends of the waveguide.

It is also an object of the invention that, in the case of a cylindrical waveguide, the membrane is in the form of a tube. It is also within the scope of the invention that the membrane is convex on the waveguide. It is also an object of the invention that a reflector surrounding the waveguide is disposed above the waveguide connection with the concentrator.

According to the invention, the acoustic emitter transforms the amplitude of the longitudinal oscillations of the waveguide into a larger amplitude of the deflection of the bend-line oscillations on a large flat membrane, thereby achieving greater acoustic radiated power to the liquid medium.

In the accompanying drawings, two exemplary embodiments of an acoustic radiator of the invention are shown, wherein Fig. 1 shows an acoustic radiator in front view with a waveguide of a rectangular section, Fig. 2 is a sectional view taken along line AA of Fig. 1; with a waveguide circular cross section with a reflector and in FIG.

The acoustic radiator for the fluid consists of an acoustic transducer to which the concentrator 2 is fixed. The concentrator 2 is rigidly provided with a waveguide 3. The waveguide 3 may be a rectangular cross-section / fig. 1, 2 /, or a circular cross-section / FIG. 3, 4. The jacket of the waveguide J3 is provided with a membrane +.

The waveguide 3 of the cross-sectional cross-section is provided with a membrane 4 on both larger surfaces in the sheet webs. The ends of the membrane 4 are fixedly attached to the ends of the waveguide 3. The circular waveguide 3 is provided with a tube 4 membrane. A reflector 15 surrounding the waveguide 3 is located above the connection of the waveguide 3 and the concentrator 2 without contact.

The acoustic transducer 2 through the concentrator 2 excels the standing waves in the waveguide 3 by long oscillations, which causes the diaphragm 6 to be stretched and compressed. waveguide 3_.

The reflector 5 directs the bending-radial radiation of the acoustic energy in the wave-water direction 3.

The acoustic emitter according to the invention is suitable, for example, for acoustic drying, coagulation, spraying of liquids and elsewhere.

Claims (4)

210397 2 SUBJECT OF THE INVENTION An acoustic fluid radiator comprising an acoustic transducer to which a concentrator provided with a waveguide in the form of a flange or cylinder is connected, characterized in that the waveguide (3) is provided with at least one flat membrane (4) of which the upper and lower arms are rigidly connected to the waveguide (3). 2. Cylindrical acoustic radiation according to claim 1, characterized in that the tube (4) is a tube dye. 3. Acoustic radiation according to claim 1, characterized in that the membrane (4) is convex on the waveguide (3). 4. An acoustic radiator according to claim 1, characterized in that a reflector (5) surrounding the waveguide (3) is disposed without contact over the waveguide connection (3) and the concentrator (2). 2 sheets of drawings • Severografia, n. P