SU356698A1 - ALL-UNION I! UTEHlr: 0-lLX ;; K "Bs ^? S - Google Patents

Description

The present invention relates to equipment intended for acoustic measurements in the field of infrasonic frequencies and can be used to determine the effect of high-intensity exploration on a living organism.

Investigating microphones in the low-frequency range of microphones containing a measuring chamber and a torshnevuyu system are cumbersome, require complex equipment and give an effective amount of overpressure.

The aim of the invention is to increase the overpressure in the measuring chamber.

This is achieved by the fact that in the n-offered device the reverse side of the piston system is enclosed in a bushy resonator with an adjustable setting.

The drawing shows the proposed device. Cross-section.

The rectangular piston-tube chamber / is tightly connected to the cylindrical open tube 2. Inside the chamber at the transverse thickening, also without air leaks, fastens an electrodynamic diffuser with a diffuser used as an oscillating piston. Walls and piston transitions are tightly sealed to eliminate cracks. Length

/ and the diameter d of the cylindrical tube 2 can be varied by means of dense telescopic joints.

In the more sophisticated models of the device, it is possible to change (in particular, with the help of sylphs) the volumes Vi - the resonance compartment of the nistonphone, 1/2 - the main compartment of the piOphone.

Offered a device at frequencies at which the linear dimensions of the chamber and the tube are much Shorter than the wavelength, works as follows. When moving the diffuser of the loudspeaker, excited by the generator of electrical oscillations, the air volumes of the pistonphone compartments are deformed. Moreover, at some frequencies, when the elastic air resistance in the compartments is greater than the inertial air resistance in the pipe, the overpressure in the main compartment of the pistonphone depends on the elasticity of the air in this compartment and is determined from the usual adiabatic state law. In the "resonant compartment," in the date case, the air is deformed a little, because its reaction is large, and it has a free exit to the outside.

the mobile system of the loudspeaker will increase and at a well-defined frequency their sum will become a slave to the elastic resistance of the suspension of the movable loudspeaker system. The elastic air resistance of the 3 compartments and the stonphone, in this case, does not have a shunting effect on the inertial air resistance in the pipe, since it is sufficiently large in the tribute-frequency. At the same time, the elastic resistance of the suspension of the loudspeaker is much less. This determines the resonance frequency, which, under all conditions, will certainly be Less than the natural resonance frequencies of the acoustic resonator and the loudspeaker.

Thus, by selecting the determined acoustic and mechanical parameters of this system, it is possible to obtain sufficiently low sound and infrasonic resonance frequencies with relatively small dimensions of the chistonfon chambers and pipe. Adjustment of this resonance, in a particular case, can be easily accomplished by resizing the pipe.

In addition to the frequency change in such a device, the overpressure in the piston-chamber compartments also changes substantially.

Insulating the inside of the diffuser with a closed volume eliminates the disturbing acoustic coupling between vibrations inside the main compartment and the external environment from the outlet of the pipe throughout the frequency range of the test signal.

Subject invention

A device for calibrating microphones in the infra-ezvuk range containing a measuring chamber and a norn-type system, characterized in that, in order to increase the value of the overpressure in the measuring chamber, the reverse side of the piston system is enclosed in an acoustic resonator with adjustable tuning.