SU807073A1 - Pressure gradient pick-up - Google Patents

Description

The invention relates to underwater acoustics and can be used in fish searching devices, marine seismic instruments, oceanographic drills for chains determining the direction to the source of acoustic waves. Pressure gradient receivers are known using round beamel plastins as a mechanical lating system l. A disadvantage of this device is that circular piezoplates are fixed around the entire perimeter in an annular inertial mass. Such a fixing of piezoplates makes them stiff, which leads to low sensitivity. The closest in technology to the present invention is a pressure gradient receiver containing an active bimorph plate, inertial masses attached to its two opposite faces 2. The disadvantage of this device is the presence of parasitic oscillations of one inertial mass relative to another, i.e. . cantilever oscillations that distort the frequency characteristics of the receiver. The purpose of the invention is to expand the linear portion of the amplitude-frequency characteristic and increase the sensitivity of the receiver at low frequencies. This goal is achieved by the fact that the premnik is equipped with strips connecting inertial masses between them, having a stiffness greater than the flexural rigidity of the bimorph plate, in the direction normal to its plane. FIG. 1 shows the design of the receiver; FIG. 2 - its frequency response. The pressure gradient receiver contains a bimorph plate 1 attached to its two opposite faces inertial masses 2, which are interconnected by strips 3 having

stixx; t, greater flexural rigidity, b morphoy of plastidna, in the direction normal to its plane.

The device works as follows.

The incident sound wave, acting on the plane of the active bimorph plate 1, causes axisymmetric oscillations in it with respect to inertial masses 2.

The hard coupling of inertial masses 2 using the plaque 3 excludes possible cantilever vibrations of bimorph plate 1 caused by displacements of one mass relative to another.

The positive effect is achieved by the fact that the non-uniformity caused by the oscillations of the first phase of the heath (see pos. 4, fig. 2) decreases, the linear portion of the amplitude-frequency response of the receiver is extended towards the frequencies, which leads to an increase in its operating frequency range compared to the amplitude-frequency response izvesnogo device (see pos, 5 Fig. 2).

The use of this technical solution eliminates the need

the use of corrective circuits or the need to develop a number of pressure gradient receivers covering the required range of operating frequencies.

Claims (2)

1. Pateit France No. 2.263.656 Cl. H 04 R 1/44, 1969. 2. USSR author's certificate N9 46644O, cl. H 04 I 17 / OO, 1972 (prototype).