SU869845A2 - Low-frequency acoustic-field generator - Google Patents

Description

I

The invention relates to the field of technical physics, namely, to devices for exciting high-power acoustic fields — low and low frequencies — and is intended to study the influence of acoustic fields of any type (traveling waves, standings and their combinations) on various objects, as well as for calibration of wide dynamic range microphones both in terms of pressure and the free field method.

According to the main auth. No. 776654 is known a generator of low-frequency acoustic fields in a limited volume, containing a chamber, a piston, guided by the chamber walls, a piston displacement drive, and amplitude and piston displacement adjustment elements. The generator is equipped with a tube connected to the chamber, two additional pistons rigidly connected with another and spaced apart

The joint between the chamber and the tube, the walls of which are guides for additional pistons, and an additional element for adjusting the amplitude and phase of movement of additional pistons, is installed between one of them and the drive.

To generate, for example, a traveling-wave field, the ratio of the amplitude of the acoustic pressure created by moving a single piston to the amplitude of the oscillatory velocity created by moving two

15 interconnected pistons equal to the pC-impedance of free space (p is the density of the medium, C is the speed of sound in the medium. Phase shift between the pressure waves, 1st and oscillatory

Claims (1)

20 speed set using the same elements equal to zero, i.e. the minimum (maximum 4) acoustic pressure is reached simultaneously 3 with a minimum (maximum oscillatory velocity. A disadvantage of the described device is that the oscillatory velocity in the working volume of the chamber is also created when a single piston is moved, and the ito phase this additional oscillatory velocity is offset by 90 the oscillatory velocity created by the movement of the double pistons, i.e., it reaches a maximum value equal to (- the frequency. The amplitude of the oscillations of the piston creating an acoustic pressure at the time when the acoustic pressure in the working volume of the chamber is zero. Thus, the specified characteristics of the acoustic field are made sufficiently large and there is an additional disturbing effect on the room Mbiii in the chamber to be tested. The aim of the invention is to improve the accuracy of the parameters of the generated acoustic fields by compensating for the phase-shifted vibrational velocity. This is achieved by placing the third additional piston in the chambers of the proposed device, which is located coaxially with the first piston, spatially separated with it and connected through the additional displacement adjustment element of the third additional piston with the actuator. The adjustment elements of the movements of the first and third additional pistons are configured with the possibility of in-phase and oppositely directed movement of these pistons relative to their average position. The drawing shows a schematic diagram of the proposed generator. The generator contains a chamber with rigid sleeves, which are guides for piston 2, connected to chamber 1 with pipe 3, in which two spatially separated pistons 4 and 5 rigidly connected to each other are placed. piston 6. Pistons 2 and 4-6 form the working volume of the chamber. The pistons 2, 4-6 through the rods 7-9 and the corresponding displacement adjustment elements 10-12 are associated with a common drive consisting, for example, of the engine 13, the gear 14 and the rocker mechanisms 15-17. Elements 10-12 adjustment re-. Pistons 3-6 for example consist of faceplates 18-20, mounted on the output axes of the gearbox 14, and fingers, respectively 21-23, mounted on the faceplates with the possibility of radial and azimuthal movements relative to the axes of the respective faceplates. The elements 10 and 11 for adjusting the movements of the pistons 2 and 4.5 are configured in such a way that there is a phase shift in the mutual position of the piston 2 and the twin pistons 4.5 relative to their average position. The third additional adjustment element 2, the displacement of the third additional piston 6 and the displacement adjustment element 10 of the piston 2 are configured to provide the in-phase and oppositely directed movement of the previous one, 2 and 6 relative to their average position. The device works as follows. When the engine 13 is turned on, torque is transmitted through the gearbox 14 to the faceplates 18-20 of the piston displacement adjustment elements 10-12 2..4-6. The fingers 21-23 cause the mechanisms 15-17 to reciprocate and the pistons 3.4-6 connected thereto through the rods 7-9. The oscillatory speed in chamber 1 is created by the in-phase movement of pistons 4 and 5, and the acoustic pressure is due to the in-phase and oppositely directed movement of pistons 2 and 6, which changes the working volume of chamber 1 and compensates for the phase-shifted component 90 each of pistons 2 and 6 separately. The amplitudes of the piston extensions 2, 4-6 are determined and adjusted, for example, by the distance of the respective fingers 21-23 from the axes of rotation of the faceplates 18-20. The phase shift required for each type of acoustic field generated between the oscillatory velocity and the acoustic pressure, i.e. in the mutual position of the pistons 2 (similarly b) and 4.5, is achieved, for example, by installing fingers 21 (similarly 23) and 32 with an initial angular shift relative to each other around the circumference of the corresponding faceplates 18 (similarly 20) and 19. This eliminates the disturbing influence oscillation velocity shifted in phase by 90 components and thereby increase the accuracy of the parameters of the acoustic fields generated by the device, which makes it possible to obtain more reliable data when studying the effects of powerful low and infrared frequencies s acoustic fields at different objects, as well as during the acoustic measurement Formula invention Generator low frequency acoustic fields in a bounded volume for SU, No. 776654, which is different from the fact that, in order to increase the ACCURACY of the parameters of the generated fields by compensating for the phase-shifted vibrational velocity component, a third additional piston is inserted in the chamber, which is located coaxially with the first piston through the additional element of adjusting the movement of the third additional piston with a drive, while the elements of adjusting the movements of the first and third additional elements are configured with the possibility of in-phase and oppositely The direction movement with respect to said porschney .ih middle position. Sources of information taken into account in the examination 1. USSR author's certificate W 776654, cl. B 06 B 1/18, 05.10.78 WITH