SU775741A1 - Device for selective reception of acoustic energy - Google Patents

Description

The invention relates to acoustic devices, namely, control devices for measuring the acoustic characteristics of structures. A device for directional sound reception is known in which a measuring microphone is placed at the focus of a parabolic reflector flj. Due to this arrangement of the microphone, the device acquires maximum sensitivity in the direction of the axis of the paraboloid. Being directed to a source emitting a sound, this device receives mainly a useful signal, has attenuated the signals of other sources of noise (interference). In order to carry out precise yields in the presence of a large number of knockout sound sources or reflections in a closed volume environment, the degree of attenuation of the mixing signals provided to them is insufficient. It is also known a device for selective reception of sound energy, containing a microphone placed in a sound-insulating box with a receiving window, framed on a perimeter vibro-insulating pad, and sound-absorbing material {2j. In the known device, the signal under study is fed to the microphone through the receiving window, with which it is pressed against the vibrating surface under study during measurement. A disadvantage of this device is the lack of selectivity and its dependence on frequency. This is due to the fact that the interference signals penetrate into the box in the form of airborne noise through its walls, as well as in the form of vibration transmitted to the walls of the box through the flange from the vibrating surface under study. In addition, this comparatively narrow window receives energy from the useful signal from a small plc dad, expanding the cone box on the way to the microphone

scattering, and the lining of the walls of the box with a sound-absorbing material contributes to a solid attenuation.

No, the invention is the insertion of the -lyBCTefficiency and selectivity of the device and the improvement of its frequency response.

The set case is achieved by the fact that the soundproofing box is made in the form of an ellipsoite of rotation, the center of the main window coincides with one of the foci of the ellipsoid of rotation, and the microphone and sound-absorbing material are located near its focus.

The drawing shows the proposed device in the section .:

The measuring condenser microphone 1 is installed in an elliptical soundproof box 2. The microphone attachment unit 3 is mounted in the cover 4 and immersed in the thickness of the sound-absorbing material 5. The elastic rubber ring gasket 6, framed in the perimeter of the acoustic window, vibro-isolates the device from vibrations, and it is vibrated. The plane of the sound-receiving window and the front surface of the sound-absorbing material are parallel to one another and pass through the foci 7 and 8 alley psoid, the end parts symmetrically of the compartment from it. The microfix attachment unit is designed in such a way that allows ussirovat microphone at a certain point on the axis of the device and quickly remove it. The body of the soundproofing box 2 is made of a material with a high, soundproofing ability and a low coefficient of absorption. Sound vibrations entering the soundproofing box at different (from 0 to angles relative to its longitudinal axis are reflected from the inside side surfaces so that at the location of the microphone position the end of the acoustic energy of the measured radiation ends. Sound absorbing material 5 is placed outside the region between the foci and is designed to eliminate unwanted resonance phenomena inside the soundproof box. To work with the device follow. The microphone is connected to the kit of equipment for static measurements and

The whole path is calibrated, so the microphone is installed in the sound-insulating box, the last np iKHMaeT with to the vibrating surface under study. Its radiation,;, passage through the sound-receiving window, is perceived by the microphone and then recorded and anaedged by known methods.

The proposed device allows selective reception of a sound signal under conditions of intense interference, when extraneous radiation is equal to or even exceeds the useful signal by 1 O-15 dB. In known devices of similar purpose: exceeding interference over a useful signal eliminates the possibility of performing measurements.

Claims (2)

The invention can find application of P measurements by sound-guiding aptitude of fencing on vessels, in rail transport, in aviation, in industrial and civil construction. The effect of the use of the invention is to reduce the labor intensity and improve the quality of measurements in the development of measures to combat acoustic noise. The claims of the device for selective reception of sound energy, containing a fflkophone, placed in a soundproof box with a receiving window, rimmed around the perimeter with a vibration insulation pad, and sound absorbing material, so as to increase the selectivity device and improve its frequency response, the soundproofing box is designed as an ellipsoid of rotation, the center of the receiving window coincides with one of the foci of the ellipsoid of rotation, and the microphone and sound absorbing material are located in connection of its other focus., sources of information into account when prinztgye examination I Rimsky-Korsakov AV Electroacoustics, M., bond, 1973, pp ion. 2. USSR author's certificate No. 539386, cl. H O4 C 29/00, 28,02.75 (rototype).