RU1811645C - Towed seismoacoustic antenna - Google Patents

Abstract

Usage: seismic exploration. SUMMARY OF THE INVENTION: the device comprises an antenna body with a rectangular cross-section, inside of which are placed supporting elements and cylindrical piezoelectric transducers. The diameter of the piezoelectric transducers: exceeds their height, and the planes of the cross-sections are parallel to the outer opposite surfaces of a larger area of the antenna body. At the ends of each piezoelectric transducers, inserted rigid covers are installed through the inserted elastic gaskets, rigidly fastened to each other by internal surfaces and with supporting elements on the outer surfaces . 3 ill.

Description

The invention relates to acoustic instrumentation and is intended for seismic exploration in water areas.

The purpose of the invention / is to increase sensitivity while reducing vibrational interference and reducing dimensions.

The towed seismoacoustic antenna comprises piezocylinders 1, to the ends of which rigid covers are attached through elastic gaskets 3. Hard covers 2 are rigidly fastened together by a sleeve 4, Hard covers 2 are fastened to the bearing elements of the antenna 5, which are used as two flat trds. Moreover, the supporting elements - flat cables 5 do not touch the surface of the piezocylinder 1. With the help of the mounting wires 6, the piezocylin - is electrically connected. firewood 1, The circuit of piezocylinder 1 in the line does not differ from the prototype. The piezoelectric cylinder 1 is placed in the body of the antenna 7 formed by the sound-transverse compound so that the planes of the cross sections of the piezoelectric transducer 1 are parallel to the outer opposite surfaces of a larger area of the body of the antenna 7 having a rectangular cross section. Compared with the prototype, an almost twofold increase in the diameter of the cylindrical piezoelectric transducer is achieved, respectively. An increase in sensitivity to the useful signal with a decrease in dimensions for frequencies whose wavelength significantly exceeds the size of the acoustic sensor, its orientation does not affect the efficiency of receiving the useful signal.

Vibration noise is transmitted through the bearing elements 5 of the antenna 7. The influence of the most dangerous longitudinal vibrations transmitted through the hard covers 2 will lead to in-phase displacement of the piezocylinder shell 1 to the side

act force. In this case, due to the action of the resistance forces from the compound and the inertial inertial mass of the piezocylinder, one half of the piezocylinder will be compressed, and the other will be stretched. When in-phase electric inclusion, the resulting signal, as is known, in this case will be close to zero. Since vibration compensation is achieved on a single piezoelectric cylinder, the problem of the technological variation of the parameters characteristic of the prototype is completely eliminated, and thereby reducing vibration sensitivity is easily ensured. more will reduce vibration sensitivity. The towed seismic acoustic antenna device is shown in the figures of FIG. 1 a, fig. 16,

The invention is illustrated by the following example: the piezocylinder 1 has a size of 030,026 x 18 mm. The body of the antenna 7 with a cross section of 50x30 mm is made of the PDI - ZAK compound. Hard covers 2 and sleeve 4 are made of caprolon, Plo0

5

0

5

Sky cable 5 is made of fiberglass. The sensitivity of one sensor (piezocylinder 1) to sound pressure is 150 µV / Pa at an electric capacitance of 30 nF. The operating frequency range is limited from above to 5-10 kHz.

Claims (1)

SUMMARY OF THE INVENTION A towed seismoacoustic antenna comprising an antenna body, within which are supported elements and cylindrical piezoelectric transducers, which, in order to increase sensitivity while reducing vibration interference and reducing dimensions, the cross section of the antenna body is made rectangular, the diameter of the piezoelectric transducer - callers exceeds their height, and the planes of cross sections are parallel to the outer opposite surfaces of a larger area of the antenna body, at the end / of each cylinder th piezoconverter introduced through elastic gaskets mounted imposed rigid lid rigidly fastened to each other and inner surfaces with bearing elements on the outer surfaces, Fig.Z