SU871350A1 - Device for checking electroacoustical converters - Google Patents

Description

The invention relates to the field of acoustics, in particular, devices for calibrating transducers, and is intended to test the parameters of electroacoustic transducers under high hydrostatic pressure. Device for testing electroacoustic transducers with hydrostatic pressure, containing a small chamber filled with water or oil, is known in the inner cavity of which an electro-acoustic transducer C is installed using a gland seal. The disadvantage of these devices is that the dynamic range of B1X hydrostatic pressures is very limited and is atm. It is also known a device for testing electroacoustic transducers at high hydrostatic pressures, containing a sealed Kewiepy filled with dielectric fluid (castor oil), inside which the test transducer is installed, in one of the chamber lids: bushing insulators are inserted, allowing the output cable from Converter directly in the internal cavity of the chamber. Due to the fact that the sensitive elements of the transducers are brought into direct contact with the dielectric fluid filling the internal volume of the chamber, it is impossible to check the waterproofing of the transducers in such devices, which is the main parameter characterizing the tightness of their design 2. The closest in technical essence to The proposed technical solution is a device for. Tests of electroacoustic transducers at high hydrostatic pressures, containing a sealed connection chamber with stuffing seals filled with water or castor oil, for leading the cable from the electroacoustic transducers installed in the inner cage. A disadvantage of the known device is that when the inner cavity of the chamber is filled with water, the cable is withdrawn from the inner cavity with the help of bushing insulators, when the transducer's sensitive element directly contacts the transducer.

an electrically conductive liquid filling the cavity cannot be used, and the use of stuffing seals for this purpose leads to a significant reduction in the dynamic range of hydrostatic pressures, since such devices ensure reliable operation at pressures not exceeding 100-150 atm.

In addition, when filling the inner cavity of the chamber with dielectric fluid, it is impossible to test the transducers for tightness, and the transducer design must be compatible in size, shape and means of introducing an electrical signal into the inner cavity of the chamber.

The aim of the invention is to expand the dynamic range of the generated hydrostatic pressures during the testing of electroacoustic transducers.

The goal is achieved by the fact that the device containing a sealed, filled with water, Kcuviepy is connected with a gland seal for outputting the cable of the transducer under test, is equipped with an additional sealed chamber filled with a dielectric fluid with two lids in one of which are insulators The air is injected, while a chamber filled with water is placed inside an additional sealed chamber, and a metal sylph is installed in its wall.

The drawing shows the proposed device.

The device consists of a thin-walled pressurized cylindrical water-filled caerule- made of metal, in the upper part of the chamber in the lid 2 a test converter 4 with cable 5 is installed in the lid 2 and the bellows 6 is fixed in the lower part of the chamber. sealed chamber 7 in the upper part of which (the cover 8 is installed (pressed in) the bushing insulators 9, to which the cable 5 leads from the Transducer under test 4 are connected. A cavity 10 between in the enclosures of chambers 1 and 7, it is filled with a dielectric fluid, having a coefficient of bulk elasticity close to water, nap5) and measures castor oil. The internal cavity 10 is connected by means of a channel 11 and a tube 12 to a hydraulic pump. In order to remove air bubbles (pumping the chamber) from the inner cavity 10 of the chamber 7, in its upper part there is an opening 13 with a hermetic plug (not shown in the drawings. The proposed device works as follows.

Before carrying out measurements, hydrostatic pressure is injected into the internal cavity 10, filled with castor oil, chamber 7 from hydraulic pump 12, which is transferred to the internal cavity of chamber 1 by means of 5 bellows. Due to the all-round compression, the sealing of cable 3 is used to remove cable 5 from inside In it, the cavity of chamber 1 is not disturbed. The cable 5 of the converter 4 is removed from the internal cavity 10 of the chamber 7 for connection to the measuring equipment by means of bushing insulators, such as a candle, which are pressed in the top cover 2 of the camera 7 to which cable 5 is connected from the internal cavity 4 from converter 4, and on the outer side - measuring equipment.

0 The proposed device can be used not only for testing electroacoustic transducers for tightness and durability, it can also be simultaneously used to determine the sensitivity of the tested transducers by absolute and relative methods at high hydrostatic pressures, fe this case

Q filled with water contains a compensating converter and seals for cable leads from converters operating in receive and emission mode.

. The device of this design makes it possible to expand the dynamic range of the generated hydrostatic pressures up to 1000 atm. allows to test the parameters of any constructions of measuring transducers in the aquatic environment at high hydrostatic pressures, which significantly reduces material costs as compared to tests in natural conditions.

Claims (3)

1. Ananeva A.A. Ceramic ui willows sound. Ah USSR, Moscow, 1963, t. 41-43. 2. Berezii V.A. The effect of the depth of immersion on the parameters of food. Acoustic Inst. Report, 1975, 3.Bobber P.P. g droakustteskme measurement. Moscow, World, 1974, with. 54-5S (prototype) / U ff