RU2019130243A - METHOD FOR RESEARCHING THE ACOUSTIC CHARACTERISTICS OF THE OBJECT IN THE REVERBING CAMERA - Google Patents

Claims (5)

A method for studying the acoustic characteristics of objects in a reverberation chamber, consisting in the fact that a noise radiation source is installed on the floor of a reverberation chamber, which is a room with a volume of 60 to 1000 m ³ with non-parallel, internal fences, the surface of which is a sound reflector, the sound power level L _p , dB, of the noise radiation source under test is determined from the results of measurements of the average sound pressure level L _cp on the measuring surface, with acoustic microphones installed along its contour, which is taken as the hemisphere area S, m ² , i.e. S = 2 πr ² , according to the formula:

where L _cp is the average sound pressure level in the chamber; A is the equivalent sound absorption area of the chamber, determined by the formula:

moreover, the equivalent area of sound absorption of the chamber is determined experimentally, by measuring the reverberation time T _{p of the} room, i.e. the time during which the sound pressure level in the room decreases by 60 dB after the cessation of the noise radiation source, while: V is the volume of the room, m ³ ; A ₀ = 1m ² characterized in that the noise radiation source is lined with a sound-absorbing element containing a smooth and perforated surface, between which there is a layer of sound-absorbing material of complex shape, which is an alternation of solid sections and hollow sections, and the hollow sections are formed by prismatic surfaces having in section, the shape of a parallelogram, the inner surfaces of which have a toothed structure, and the tops of the teeth are facing inward of the prismatic surfaces, and the edges of the prismatic surfaces are fixed respectively on smooth and perforated surfaces, while resonance elements are located in the cavities formed by smooth and perforated surfaces with prismatic surfaces, made according to form in the form of spherical shells, the inner surface of which is connected by resonant inserts that perform the functions of the throats of the "Helmholtz" resonators with the space between the solid sections of the layer h a sound-absorbing material of complex shape and surfaces: smooth and perforated, while inside the hollow sections, the inner surfaces of which have a toothed structure, there are additional resonant elements made in the form of spherical shells, the inner surface of which is connected by resonant inserts with cavities located between the perforated surface and solid sections of the sound-absorbing element.