RU2018113966A - STAND FOR ACOUSTIC TESTS OF NOISE-ABSORBING PANELS - Google Patents

Claims (11)

1. A stand for acoustic testing of sound-absorbing panels, containing a test chamber, the walls of which are lined with the studied sound-absorbing cladding in the form of sound-absorbing panels, while the noise source is located on a floating floor, under which a vibration-damping panel is installed, which is designed to eliminate interference when testing sound-absorbing panels, and the points measurements when the noise source is fixed on the measurement surface S, m ^2, which is a spherical surface surrounding the source of w ma, the sound pressure level L _p is determined from measurements of the average sound pressure level L _cp at the measurement surface S, m ^2, which adopted a hemisphere area:

where S = 2πr ² ; r is the distance from the center of the source to the measurement points; S ₀ = 1 m ² and the corrected sound power level L _pA :

where L _Acp is the average sound level on the measuring surface, characterized in that the amount of decrease in sound pressure level ΔL in the reflected sound field of the sample of the combined noise-absorbing cladding with resonant elements is calculated by the formula:

where L is the sound pressure level at the design point before the acoustic treatment of the room, dB; L _region - sound pressure level at the design point after acoustic treatment of the room, dB, V - constant of the room before its acoustic treatment, m ² ; B ₁ - the constant of the room after its acoustic treatment, m ² , which is determined by the formula:

where A ₁ = α (S _total -S _region ) is the equivalent area of sound absorption by surfaces not occupied by sound-absorbing lining; α = B / (B + S _total ) - the average coefficient of sound absorption in the room before its acoustic processing; α ₁ - the average coefficient of sound absorption of a room treated with a combined sound-absorbing cladding with resonant elements

ΔA is the value of the total additional absorption introduced by the design of the sound-absorbing cladding or piece sound absorbers, determined by the formula ΔA = α _region S _region + A _pc n where α _reg - the reverberation coefficient of sound absorption of the structure of the combined sound-absorbing cladding; S _region - the area of this structure, m ² ; And _pcs - the equivalent sound absorption area of one piece absorber, m ² ; n is the number of piece sound absorbers in the room. 2. A stand for acoustic testing of sound-absorbing panels according to claim 1, characterized in that the sound-absorbing cladding panel contains smooth and perforated surfaces, between which a combined sound-absorbing layer of complex shape is placed, which is an alternation of solid sections and hollow sections, the frame of which is made of hard sound-absorbing material, hollow sections are formed by prismatic surfaces having a parallelogram shape in cross section parallel to the drawing plane, internal the surfaces of which have a toothed structure, with the tops of the teeth facing the inside of the prismatic surfaces, and the ribs of the prismatic surfaces mounted respectively on a smooth and perforated surfaces, and the cavities formed by smooth and perforated surfaces between which there is a combined sound-absorbing layer of complex shape, filled with soft sound-absorbing material, and hollow cavity cavities formed by prismatic surfaces are filled with foamed polymer, for example olietilenom or polypropylene, wherein the hollow cavity portions formed prismatic surfaces with openings connected resonance cavities, formed apertured and smooth surfaces, between which a layer of sound-absorbing composite of complex shape. 3. The stand for acoustic testing of sound-absorbing panels according to claim 1, characterized in that the sound-absorbing cladding panel is made with an additional resonant element located inside solid sections and made in the form of a rigid parallelepiped with resonant inserts connecting it to the cavities formed by smooth and perforated facing surfaces.