SU1247486A1 - Double-chamber resonance-type noise absorber - Google Patents

Description

The invention relates to acoustic devices designed to combat industrial noise, mainly to create integrated acoustic devices for ventilators of ventilation ducts and in vibratory workshops of construction plants.

The aim of the invention is to increase the acoustic efficiency, reduce the resonant frequency, expand the working frequency band.

The drawing shows a two-chamber resonant absorber with a partition, a general view in section.

The resonant absorber 1 is bounded by rigid walls 2 and is connected to the surrounding air by means of holes 3 in the front wall 4 and the partition 5, provided with a perimeter gasket with sound-permeable material with a pliable base 6. The gasket is glued along the perimeter to the partition 5, which is installed so that divides the volume of the resonator into two comparable volumes, abuts against the side walls of the resonator without a gap.

The dual-chamber resonant absorber works in the following way.

The resonant frequency of the device is determined by the following expression:

I, VS / V (1+ E. + g1,) where c is the speed of sound;

S is the hole area; V is the cavity volume;

P is the thickness of the front panel; L, D1a - amendments to the shape of the hole.

Changes in S, V, 1, and hole shapes affect the magnitude of the resonant frequency fp. The width of the resonance characteristic is determined by the quality factor of the system. The higher the quality factor of the system, the narrower the width of the resonance characteristic. In order to degrade the quality factor and reduce the resonant frequency, without changing the values included in the formula, moving plugs are inserted into the resonator holes, or additional screens are installed in front of or behind the hole, which shifts the resonance characteristic to lower sound frequencies and some expansion of the operating band. frequencies.

A partition mounted on a thin layer of a sound-permeable material with a pliable base takes part in an oscillatory motion near the equilibrium position. A baffle with a hole has a certain mass and is installed on a sound-permeable material with a pliable base, characterized by a certain modulus of elasticity, loss factor and porosity, contributes to the change in the natural frequencies of the device and significantly deteriorates the quality factor of the system.

The use of the present invention in comparison with the known devices provides for obtaining high absorption coefficients at low frequencies with simultaneous expansion of the operating frequency band.

The proposed device is characterized by high acoustic efficiency.

Claims (3)

1. A TWO-CHAMBER RESONANT ABSORBER, comprising rigid walls and an internal partition and connected to the surrounding air through openings in the front wall and the partition, characterized in that, in order to increase acoustic efficiency, reduce the resonant frequency and expand the working frequency band, the partition is provided with a gasket from a soundproof material with a flexible base fixed along the perimeter of the partition with an emphasis on the side walls of the resonant absorber and with the possibility of oscillation near the position balance. 2. The absorber according to π. 1, characterized in that the thickness of the front wall and the diameter of the hole in it is not less than the corresponding dimensions of the thickness of the partition and the diameter of the hole in it. 3 4 SU <„, 1247486