DE8802977U1 - Box-shaped airborne sound absorption element - Google Patents

Description

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Patent Attorney Di^t.Phyi. Dr. jfer.toat: Wolfgang Kempe

Accident »l »as» Representative» 4m fm «£uroplteeA§i» Vatentanrt European Patent Attorney

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H. March 1988 Sun 1

Günter Schölzl ühlbacherstr. l8ü

7000 Stuttgart 6l

Box -shaped airborne sound absorption element

The invention is based on a box-shaped airborne sound absorption element according to the preamble of claim 1.

Such airborne sound absorption elements serve to dampen airborne sound waves that hit the absorber over a wide frequency range. Therefore, such elements can be used successfully wherever it is important to reduce noise or sounds both indoors and outdoors, in ventilation ducts, machines, vehicles or the like. Furthermore, the absorber is ideal for regulating the reverberation time in rooms due to its frequency selectivity.

For airborne sound insulation, depending on the requirements for the damping spectrum, the absorber thickness, the mechanical stability or the fire behaviour

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etc. different airborne sound absorbers are used. A distinction is made between porous absorbers, plate absorbers, Helmholtz resonators, cassette absorbers, etc. A porous absorber made of cotton, foam or glass wool has the comparative advantage that it absorbs the incoming sound over a broad band, but has the disadvantage that it absorbs and stores liquids or odors. In addition, it is often heavy and does not have much inherent rigidity. Hi". Resonance absorbers in the form of a Helmholtz resonator arrangement or a plate absorber do not have these disadvantages if they are made of thin foils, but their absorption spectrum is often not broad enough.

The present invention is therefore based on the task of designing an airborne sound absorber in such a way that, on the one hand, a broadband absorption spectrum, as is typical for a porous absorber, is achieved, and, on the other hand, that no liquid absorption or odor storage takes place in the absorber element. The airborne sound absorber should also be light and have a high level of inherent rigidity.

This object is achieved according to the invention by the characterizing features of claim 1. The result is a perforated plate absorber combined with a cassette absorber. By using a cassette absorber, very good airborne sound absorption is achieved at high frequencies, and by using a perforated plate absorber, medium and low frequency ranges are dampened.

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The invention is described and explained in more detail below using exemplary embodiments shown in the drawing.

Show it:

Figure 1 shows a vertical section through an absorber sensor; and

Figure 2 shows the absorber element according to Figure 1 in a top view.

A deep-drawn film part 3 together with a circumferential bead-shaped groove M forms the chamber of the perforated plate absorber 5. It is firmly connected to a covering fleece 1 on its upper side and to a covering film 2 on its underside.

The resonator halo of the perforated plate absorber 5 is formed by the openings 6 in the chamber floor of the cassetted absorber 7.

The cassette absorber 7 is formed, as usual, by chambers that are located directly next to one another and are open on one side. The flow resistance of the covering fleece 1 that closes off the chambers is between 100 and 1500 Ns/π ³ according to DtN 52 213 "static determination of flow resistance". The covering fleece 1 is aligned towards the incident sound. The chamber dimensions and in particular the chamber depths of the individual chambers depend on the position of the high-frequency absorption maximum. They are, for example, in the order of 50 x 50 x 15 mm.

The perforated plate absorber 5 is spatially located from the direction of sound incidence under the cassette

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H. March 1988 SO 1

Absorber 7 is arranged. Its combing volume is formed by the fact that several individual chambers of the cassetted absorber are enclosed by the bead-shaped groove b . The depth of the groove is greater than the chamber depth of the individual chambers, its height is in the order of 20 - 50 mm. The size of the

depends on the resonance frequency of the perforated plate absorber 5.

The cassette absorber 7 and the perforated plate absorber 5 are connected to one another via the openings 6. The size of an opening 6 is significantly smaller than the length or width of an individual chamber. The shape of the opening 6 can be round or slot-shaped and/or have a funnel shape. It is important that not all chambers have to have such an opening 6. Depending on the damping task, it is sufficient for only individual chambers to be provided with openings 6. In addition, individual chambers can also have several openings 6. The parameters mentioned, such as hole diameter, hole depth, hole shape, number of holes, etc., determine the resonance frequency and the resonance quality of the perforated plate absorber.

The acoustic effectiveness of the cassette absorber 7 is impaired by the openings 6 in the floors of the individual chambers. To dampen the sound of the absorber plate, the openings can be covered with a fleece.

Claims (2)

&bull; a a·· · « &diams; ·· »a '· * * * J &iacgr; * &iacgr; J &iacgr;&iacgr;&Iacgr;. Mara 1988 So 1 Sahutz claims 1. Box-shaped airborne sound absorption element made of a flat, air-permeable cover fleece facing the incident airborne sound, the flow resistance of which lies between 100 and 1500 Ns/nr according to DTN 52 213, and a film molding firmly connected to the cover fleece with grid-shaped, cup-shaped depressions of preferably different depths with a bead-shaped groove enclosing several depressions each, the depth of which is greater than the depth of the depressions, and an airtight flat cover film which flatly spans the grooves of the film molding on the back and is firmly connected to the grooves, characterized in that the bottom surfaces of at least some of the depressions have one or more circular and/or slot-shaped and/or funnel-shaped openings (6). 2. Airborne sound absorption element according to claim 1, characterized in that the openings (6) are additionally covered with an air-permeable fleece whose flow resistance is between 100 and 1500 Ns/nr according to DIN 52 213.