SU794779A1 - Electroacoustic piezoceramic transducer - Google Patents

Description

connected through an adhesive layer applied through an anti-adhesive: an anti-adhesive was applied to one of the glued surfaces, and an adhesive was applied to the other surface. All irregularities between the nlasts are filled with glue, which ensures the required acoustic contact between the oscillation system and the solidity of the oscillating system.

Using the proposed technical solution, the connection between the two metal plates is made detachable.

A metal arm band 2, worn over through a rubber electrical insulating interlayer on the outer surface of the cylindrical active element, provides for the required compressive stress in the piezoelectric elements, guaranteeing the mechanical strength of the active element of the converter at the nominal dynamic loads.

The introduction of metallic plastics 7 into the transducer actuating element | m) induces the mechanical strength at random dynamic unloading of the nrn saving of the electroacoustic parameters of the transducer after the display is unloaded.

The design of a rod electroacoustic converter contains a rod actnvny element, glued together from a set of bad elements 1, (see Fig. 2), made in the form of washers; but the ends of the piezoceramic rod are metal-bonded metal plates 3 and 4 radiating and backing, respectively. The non-transducer is achieved by tightening the central reinforcing pin 5. The compressive reinforcing nanograms in the piezoceramic elements are created by the regulated tightening of the reinforcing nut 6. where the highest dynamic stresses occur during operation. In accordance with the proposal, each of the metal plates 7 in this inverter, as well as in the cylindrical one, is percolated to the neighboring element, and connected to the plates by means of an adhesive is applied with anti-adhesive.

In a cylindrical transducer, there must be at least two pairs of metal plates that ensure the separation of the cylinder in case of overload.

For this purpose, in a rod converter it is sufficient to install metal plates in one place — where maximum mechanical stresses arise.

In the nominal mode, when the dynamic stresses arising from the converter operation do not overload the reinforcement stresses created in the active element, the junction between the metal plastics introduced into the oscillatory system is compressed by the elements, which ensures the solidity required for the converter.

The Converter operates as follows. Under the action of an alternating electrical voltage applied to it

he tends to make mechanical vibrations. In the event of a random dynamic overload, the total deformation of the active element does not seem to be the deformation created during reinforcement.

This will lead to the opening of the junction between the plates 7, thereby unloading the active element and eliminating the possibility of the occurrence of destructive mechanical stresses in it. Converter

 the overload moment is inoperative, since its mechanical oscillatory system at this time turns out to be broken.

After the removal of the unloading under the influence of reinforcing forces, the joint between the plates 7 is closed and the converter again becomes operable.

At the moment of termination of the overload action, the joint is closed, accompanied by the collision of metal plates 7. The presence of metal plates 7 at the impact site with a rigid adhesive layer prevents fragile piezoelectric elements from mechanical destruction.

Claims (2)

1. Glorman I. A. Piezoceramics, “Energie, M., 1967, p. 105-155. 2. “Hydroacoustics for 20 years,“ Shipbuilding. G., 1975, p. 156-157 (nrotioty).