SU847522A1 - Acoustic transducer - Google Patents

Description

(54) ACOUSTIC CONVERTER

one

The invention relates to instrument engineering and can be used in hydroacoustic measurements for emitting acoustic oscillations in a wide frequency range.

An underwater acoustic transducer is known, comprising a cylindrical piezoceramic shell placed in an oil-filled rubber case, the inside of which is filled with water to compensate for hydrostatic pressure.

The closest to the present invention is an acoustic transducer containing a circular cylindrical piezoelectric element G2 filled with liquid.

The disadvantage of these devices is the relatively narrow band emitted by the frequency converter.

The purpose of the invention is to expand the band of working frequencies emitted by the converter.

This goal is achieved due to the fact that the acoustic transducer containing a liquid-filled annular cylindrical piezoelectric element is provided with a membrane. mechanically separated from the annular piezoelement located inside the latter perpendicular to its longitudinal axis and fixed in the piezo element by means of a flexible coupling.

The drawing shows the proposed Converter section.

The converter consists of an annular cylindrical piezoelectric element 1 connected by metallized surfaces with a shielded cable 2 and rfc BemeHHoro using a rubber ring 3 on a metal frame 4 of holder 5. In the internal cavity of the piezoelectric element

15, the membrane 6, is mechanically developed from it by means of, for example, a flexible ring or layer 7, vulcanized to the outer coating 8, sealing the piezo element.

20

The Converter operates as follows.

When electrical voltage is applied, the cylindrical piezoelectric element 1 begins to make radial oscillations, due to which oscillations of the liquid column inside it are excited. The membrane 6, located inside the piezoelectric element 1, damps the volume resonance and provides the optimal connection with

thirty

radial resonance of the piezoelectric element. Ngshichie membrane located inside the piezoelement 1, helps damping the resonance of the liquid column enclosed in it. In addition, the membrane divides the internal cavity into two volumes, usually not equal to each other and resonating at their own higher frequencies located in the frequency interval between the resonance frequency of the total liquid column and the radial resonance of the cylinder. The damping effect of the membrane on these resonances is more pronounced, since they are smaller in amplitude than the main volume resonance.

The use of the invention allows to expand the hollow radiated operating frequencies up to, 5 octaves, to reduce the electrical impedance of the radiator by increasing the height of the piezoelectric element, to increase the resistance of the radiation by increasing the active surface of the cylindrical

piezoelectric element and simplify the adjustment of the radiation characteristics while maintaining the size of the piezoelectric element.

Claims (2)

1. The patent of the USA 3706967, cl. 340-10, published. 1972. 2. Pbdvodnaya acoustics. Ed. L.M. Brekhovsky. World, 1970, with. 52-55 (prototype). /