DE1175454C2 - ABSORPTION SILENCER - Google Patents

Description

The invention relates to an absorption silencer with chambers * on the walls of the canal exposed to interference, z. B. fan shaft, attached and filled with damping material and their partition walls perpendicular to the channel direction aligned and which are provided with openings in the direction of the center of the duct.

It is known to reduce noise in ducts by means of sound-absorbing linings.

In practice it is mostly desirable to install silencers that operate on a wide frequency band are effective, e.g. B. in building acoustics a maximum of between 100 and 3200 Hz or z. B, with certain Fan types between 200 and 800 Hz.

One can achieve high attenuation values by means of the known consistency methods, be it through resonance dampers alone or by coupling the resonance and absorption damping principle on one or a discrete number of narrow frequency bands. However, there is a risk of small actually existing frequency deviations of the background noises already being in a range of low attenuation, since such dampers have relatively large edge steepnesses in their frequency profile of the attenuation measure. Even if the actual background noise should remain constant over a longer period of time, temperature differences of the noise-bearing gas can become noticeable because of the associated wavelength changes to the effect that the effect decreases noticeably, as in the case of a frequency change. In addition, in many cases one would like to avoid frequency analysis of the noise as much as possible in practice and is then content with an approximate indication of the maximum interference frequency band. It is therefore so nielit to achieve just depends on _s bine large average damping, but to achieve a continuous possible uniform attenuation curve over the specified frequency range. Porous sound-absorbing material with only one flow resistance, as is the case with a homogeneous packing, can only be absorbed in a certain frequency range, e.g. B. the lower frequencies, designed for the greatest possible damping effect. The invention aims to improve the sound attenuation of chamber dampers. According to the invention, the chamber walls consist of porous damping material, which has a different flow resistance than the filling material of the chamber.

The absorption silencer is thus made of a simple heterogeneous instead of homogeneous packing porous absorbents with two types of flow resistances built up one behind the other alternate in such a way that their contact surfaces are perpendicular to the direction of flow of the interfering sound-bearing Gas.

ίο This is a muffler with little structural design and volume-wise effort and with ready-made technology and simple manufacturing possibility created. Compared to previously known constructions, it has a more uniform broadband and high damping effect, the z. B. the range from the low to the higher frequencies continuously includes.

The ratio of the packing densities of the porous sound absorbing materials from z. B. Fiberglass is about 1: 2. In the case of two frequency bands that are further apart, this relationship can also change change to about 1: 3 or 1: 4.

Both the contact surfaces of the packs as Their surfaces forming the duct wall are also acoustically transparent. Through the proposed geometric structure, the contact surfaces of the flow resistances are roughly in the plane of the spreading Wellenfröriteri, provided you have this in a more or less rough approximation than just above

considered. As a result, the largest possible surface and thus an effective surface area for the higher frequency band is achieved; provided the spacing of the layered packs is not made too great; on the other hand, there must be enough volume for the sound absorbing material of the lower frequencies, ie the distance between the denser packings must not be too small.
The basic structure of an absorption silencer according to the invention is shown in the figure in a longitudinal section. The channel cross-section with the width b is assumed here to be approximately rectangular and, as is known, to be designed to be narrow. One side of the duct wall is delimited by the sound absorption system according to the invention, which is closed off from the outside with solid walls.

The more dense, porous sound- absorbing material S ₂ can be made from pre-pressed porous commercially available instead of loose glass wadding like the material from S ₁

$ ö Sehalischluckpiätzefi with a vain thickness d of 3 cm or more and a density of, for example, 100 kg / m ³ , which can easily be cut to any size and assembled. The between the porous sound-absorbing plates

brought looser packing S ₁ experiences by the rough surface of a certain stop _s is otherwise difficult whereby a time occurring caking or coincidence of _S1.
The distance c between two denser packs J ₂ is generally approximately equal to the pack depth a.

The full damping effect already begins at lower frequencies, the wavelengths of which are the fifth to sixth part of the packing depth α . The high attenuation extends up to a frequency range which is limited by the beam formation effective for each type of attenuator and which is dependent on the channel width b.

1 sheet of drawings

Claims (1)

Claim: Absorption silencers with chambers that are exposed to noise on the walls of the Channel, e.g. B. fan shaft attached and filled with damping material and their partitions aligned perpendicular to the direction of the canal and those with openings in the direction of the center of the canal are provided, characterized in that the chamber walls are made of porous dampening material exist, which has a different flow resistance than the filling material of the chamber.