SU1193244A1 - Resonance-type infrasound absorber - Google Patents

Abstract

The invention relates to the field of acoustics, mainly building acoustics, and can be used to reduce the level of noise in industrial premises for various purposes in the low frequency bands. The aim of the invention is to increase sound absorption in the low frequency region. To achieve the goal, a rigid screen located in front of the front wall of the absorber or inside the resonant cavity opposite the opening in the front wall and, overlapping it, is mounted on elastic supports. The screen can make plane-parallel movements in the direction of the hole. The supports are made of elastic sound-absorbing material with a through porosity of at least 50%. Supports can be made in the form of depreciation (L congestion with a concentrated elasticity. 2 h.Po f-lno 3 silt

Description

The invention relates to the field of acoustics, mainly building acoustics, and can be used to reduce the levels of noise in industrial premises. in the range of low and infrasonic frequencies.

The aim of the invention is to increase the sound absorption in the low frequency region.

Figure 1 shows a resonant absorber with a rigid screen located inside the air cavity of the absorber parallel to the front wall; FIG. 2 shows a resonant absorber with a rigid screen that is also externally parallel to the front wall on the springs; in fig. 3; o: o resonant absorber, top view. The infrasound absorber comprises a housing 1 with an air cavity 2,

4 4 which is connected to the ambient air through the opening 3, and. hard screen 4, overlapping hole 3 mounted on supports 5.

The supports 5 can be made both from an elastic sound-absorbing material and in the form of steel springs 6, and the screen 4 is located at a distance of 1, determined by the ratio of 0.01h, 2h,

Claims (1)

where h is the depth of the air cavity of the resonant absorber. ; .4 in an infrasound resonant absorber, supports can be made of an elastic sound-absorbing material with a short cut. No more than 50% of the hue rate or in the form of shock absorbers with concentrated HoPi elasticity,; The device works as follows, I When a sound wave is incident on a resonator due to diffraction of the wave on screen 4, the attached mass of hole 3 increases. . A further decrease in the frequency of the resonator is due to the fact that the screen having a certain mass and mounted on elastic supports is involved in the oscillatory motion caused by the incident sound wave. In case the screen is mounted on a continuous layer of elastic sound-absorbing material, the resonant frequency further decreases and expansion of the resonant characteristics of the absorber, since the layer of sound-absorbing material with a through porosity of at least 50% transmits., a sound wave, additionally changing the values active and reactive component of the input impedance of the device. The formula of claim 1 is an infrasound resonant absorber, comprising a housing with an air cavity connected to the environment through an opening in the face wall, and a rigid screen intersecting the opening, characterized in that, in order to increase sound absorption in the low frequency region, the screen is set to elastic supports with the possibility of its plane-parallel movement in the directions of the hole, 2, Absorber according to claim 1, characterized in that the supports are made of sound-absorbing material with through porosity. 3, Absorber according to p, of tl and chchushchy. This is because the supports are made in the form of shock absorbers with concentrated elasticity. FIG. .2 Fi.d