SU1557280A1 - Low-frequency sound absorber - Google Patents

Abstract

The invention relates to noise abatement in production and can be used in industrial premises to reduce noise in the low frequency region. The purpose of the invention is to increase the acoustic efficiency in the low frequency range. For this, in a low-frequency sound absorber consisting of a cavity 1 in the form of a hollow parallelepiped, in the outer walls 2 of which holes are made with mouths 3 and diffraction perforated screens 4, and the internal volume is divided into resonator chambers of different volumes with horizontal solid and vertical walls with non-coaxial perforations 5 fixed by means of horizontal 6 and vertical 7 springs, in all external walls 2 two holes are made and one is additionally made in the top wall, partitions 5 h CREPLA with a gap equal to the diameter of the perforations, and the diffraction screens 4 are displaced relative to each other. The sound absorber attaches to the ceiling of the room using hangers and absorbs sounds in a wide low-frequency band despite its small dimensions. 1 hp f-ly, 3 ill.

Description

pg .tff-., pj t The invention relates to the control of noise at work and can be used in industrial premises to reduce noise at low frequencies.

The purpose of the invention is to increase the acoustic efficiency in the low frequency range.

FIG. 1 shows a low frequency sound absorber, a general view; in fig. 2 shows section A-A in FIG. one; in fig. 3 - mount the diffraction screens to the mouth of the hole.

The sound absorber is a resonator 1 in the form of a hollow parallelepiped, in the outer walls of which 2 holes are made with mouths 3 and diffractive perforations. screen 4 on elastic suspensions. The internal volume of the resonator 1 is divided into resonator chambers of different volumes of continuous horizontal and vertical with non-axial perforation partitions 5, fixed with horizontal 6 and vertical 7 springs with the formation of gaps equal to the diameter of the perforations. The holes in the outer walls 2 are made in the amount of two, and one hole is additionally made in the upper wall, and the centers of symmetry of the diffraction screens 4 are offset from each other. The elastic suspension of the shields 4 to the throats 3 is carried out with a bolt or stud 85 on which springs Y and shields 4 are alternately mounted. Washers 10 are mounted between springs 9 and shields 4, and at the end an adjusting nut 11. The sound absorber is attached to the ceiling of the production room on the suspensions . Due to the small size of the sound absorber compared to the length of the sound wave at the frequency of the main resonance, the fall of the sound wave occurs almost simultaneously on all its surfaces, including on the plates of the diffraction screens 4, to drive them. In this case, sound absorption occurs due to wave diffraction on screens 4 and its curvature in perforations. This leads to a change in the magnitude of the input impedance of the resonator and, consequently, to a shift

resonant frequency to lower frequencies.

In the sound absorber system you can

to provide an additional decrease in the resonance frequency by the approach of perforated screens to a certain distance from one another. With a small depth of the gap between the screens, an additional increase in the inertia of the system is observed, at which its impedance exceeds by 2 ™ 3 times the total impedance of the same system, obtained with the usual screens impedances.

The additional inertia of the perforated multilayer panel, due to the influence of the near field of the adjacent layers, appears

0 is stronger, the larger the radius of the holes, the end correction for them and the smaller the perforation coefficient and the layer thickness. The depth of the gaps between the screens for the two-layer design of the

5 was equal to 0.5 and 1.0 cm and 1.5 cm from the outer wall of the resonator.

With the same dimensions of the resonator chambers, their sound absorption is summed up and the Sound Absorber is selective in a narrow frequency band. With different dimensions of the resonator chambers, additional resonances arise in the frequency response of the sound absorber.

they are hers.

If the axes of the holes of adjacent partitions are shifted one relative to another, then the total inertial impet given system is equal to the sum of the impedances

separate partitions. With the coaxial arrangement of the holes it does not take place.

The frequency dependence of sound absorption is acute resonance.

characteristic. When damping vibrations by introducing elastic couplings, effective sound absorption occurs over a wider frequency band.

To effectively resonator

He designed sound waves in the frequency range of 20 Hz; the coefficient of oscillation energy loss in its constituent elements should be 0.1-0.15.

In this sound absorber, acoustic losses also occur when the adjoining air mass is moving, with non-axial arrangement of screens and interference

waves entering the resonator from the front and rear sides, as a result of which part of the sound energy is lost

By changing the gaps between screens 4 and throat 3, as well as the distances between partitions 5 (volumes of resonator chambers), it is possible to shift the frequency response of sound absorption to lower frequencies, including the infrasound region.

The use of the proposed sound absorber makes it possible to shift the resonance characteristic towards low frequencies without changing the dimensions of the resonator.

Claims (2)

1. Low-frequency sound absorber containing a resonator in the form a hollow parallelepiped with inlets in the end and lower outer walls, provided with a throat | MI with diffraction perforated screens on elastic hangers, and horizontal solid and vertical non-axial perforations of the partition mounted with a gap relative to the walls and the horizontal partition and separating the internal volume of the cavity resonator chambers of different volumes, characterized by the fact that, in order to increase the acoustic efficiency in the low-frequency range, the resonator is made with -inflammatory apertures with their neck portion and diffraction screens, three of which are located in the upper 0 wall and two in each side, and the inlet holes in the end and bottom walls - two in each, and the partitions are installed with a gap equal to the diameter of perforations 5 holes. 2. The sound absorber of claim 1, wherein the centers of symmetry of the diffraction screens are offset from each other. Phie.1 / / Compiled by A. Maslov Editor N. Gorvat Tehred M. Didyk Order 704 Circulation 597 VNIIPI State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR 113035, Moscow, Zh-35, Raushsk nab. 4/5 fig.Z Proofer t.Malets Subscription