DE1868072U - SOUND-SOUND DISK. - Google Patents

Description

Utility model registration V 12 398 / 37b Gm Vereinigte Eaustoffwerke Bodenwerder GmbH

Sound absorbing plate

The innovation relates to a perforated and / or slotted sound absorbing panel, in particular a plasterboard.

It is known to use perforated or slotted plates with backfills made of porous fiber material, e.g. B. mineral fiber to use. In such combinations, only the fiber material is used for sound absorption, while the perforated plate is only used as a cover layer. This applies in cases where perforated or slotted panels with a perforated or slotted area proportion of around 15 to 20 % are used. In the case of a lower percentage of perforations or slits, in addition to the pure sound absorption in the fiber material, the sound absorption of the so-called Helmholtz resonator is also used. The Helmholtz resonator is formed by a hole or a slot with the air space behind it. The extent of the sound absorption, ie the degree of sound absorption of the Helmholtz resonator, also known as the hole resonator, depends on the damping of the resonator. This damping is taken over by the fiber layer with the usual arrangements, consisting of perforated or slotted plates with backfilling made of fiber material. The fiber material is used to dampen the hole or

Slot resonator is particularly effective when it is as close as possible to the plate. The strongest damping results when introducing the fiber material into the hole or "into the slot itself"

The use of fibrous material behind perforated or slotted panels and the backfilling of such panels Using sound-absorbing material at all has several downsides. First of all, the use of porous sound-absorbing material, in particular the use of common mineral fibers, Unhygienic, especially if, in the case of ventilation ceilings, through the holes or slits in the ceiling at the same time the supply air is blown in, protective measures to prevent the entrainment of fiber particles, e.g. the wrapping of the Fibers in thin film, or the air channels leading through to individual perforated surfaces, are due to the higher material costs expensive. These protective measures, such as backfilling with sound-absorbing material, also make it more difficult the assembly of the perforated or slotted plates, which makes the execution of sound-absorbing panels expensive. In addition comes that when using deposited sound-absorbing material prefabrication of ready-to-use sound baffle panels at the factory is difficult or definitely possible leads to complex box constructions.

The purpose of the inflation is to reduce the disadvantages described in To get rid of and to create a sound absorbing plate that has a good sound absorption without the mentioned complex measures are required.

The object of the innovation is a perforated and / or slotted sound-absorbing panel, in particular plasterboard, with a perforated or slot area between about 0.5 and 20 fo, in which the hole diameter or the slot widths are at most 5 mm, preferably 2 mm.

With the proposed dimensions of the holes or slots, there is strong damping of the hole resonators by the friction of the air on the walls of the holes or slots, so that the plates are backfilled with Sound absorbing material unnecessary.

As tests have shown, this results in just as high degrees of sound absorption as when backfilling perforated panels with the usual larger holes with sound absorbing material. With the new panel, the perforated area must be selected so that hole resonators are created whose resonance area is in the audible range. If lower frequencies are to be absorbed particularly strongly, smaller proportions of the perforated area must be selected; larger perforated areas are required for strong attenuation of the high frequencies. With perforated areas between 0.5 and 20 % , all pitches in the listening area can be absorbed with the usual mounting distances from ceilings or ceilings.

A particularly high level of sound absorption results when According to further inflation, the inner walls of the holes or sowing strands are rough, because this increases the friction in the hole or Slot is increased.

The highest degree of sound absorption occurs with especially small holes and slots on the order of 1/10 millimeter. Since making such small holes in solid Material that is technologically difficult becomes newer, in accordance with the requirements a plasterboard is perforated in such a way that one of the cardboard supports is provided with holes or slits, the diameter of which or slot width is smaller than the diameter or the slot width in the plaster of paris core and the second cardboard overlay and is preferably at most 1 mm »

The same good acoustic effect can also be achieved through conical holes or slots.

If a particularly high level of sound absorption is only sought in lower frequencies, then again according to the innovation Plasterboard are used, with the perforation or slitting only in the one layer of cardboard and the plaster core is arranged so that the holes or seams are closed by the other cardboard sheet. A layer like the one in the cardboard box represents, namely causes a vapor deposition of the hole resonator in the low tone range,

The proposed plates can be used for a very broadband absorption in the audible area, if they according to v / pus ! Firing have perforated areas of different sizes. According to this embodiment, the hole or Portion of the slot area varies in size across the entire panel surface. The innovation suggests in further training that the Sound absorbing plate is partially unperforated or not slotted.

- 5th

In the lallen, in which a differently large proportion of the slot area No holes or slots are provided over the entire plate surface or in some cases at all, this is unnecessary otherwise required and customary mix of different types of panels, because the proposed plate combines the properties necessary for broadband absorption in itself. The surface parts of the plate with or without holes or slits are used for absorption in the lower tone range, and the surface parts with stronger, i.e. more frequent perforations or slits are used for absorption in higher tone ranges »

In the drawing are embodiments of the fire for example shown.

Show it:

S ¹ Ig, 1 the perforated sound absorbing plate in section,

2 shows a perforated plasterboard in section,

FIG. 3 shows an embodiment that is modified from FIG. 1 on average,

FIGS. 4 and 5 modified embodiments compared to FIG. 2,

6 shows a perforated or slotted sound absorbing plate in view of the broadside and

FIG. 7 shows an embodiment modified compared to FIG. 6,

The plate 1 according to FIG. 1 is provided with holes 2, the diameter of which is at most 5 mm, preferably 2 mm. That the same applies to the holes or slots provided in the plates according to FIGS. 2 to 7, the specified

Dimensions of seat strands refer to their width »

According to lig. 2 is a plasterboard 1 'perforated. The plate 1 'consists of the plaster core 3 and the two cardboard covers 4 and 5. The plasterboard 1' is perforated in such a way that the cardboard layer 5 is provided with holes 2 ¹ , the diameter of which is smaller than the diameter of the holes 2 in the plaster core 3 and in the second cardboard layer 4 is.

In the case of the plate 1 according to FIG. 3, the holes 2 ″ are shown in FIG the one side of the plate to the other designed to widen conically.

Of course, the plates according to FIG. 1 and 3 also consist of plasterboard.

In the plasterboard 1 'according to FIG. 4, the holes 2 are only provided in the plaster core 3 and in the lower cardboard layer 5 in the drawing, while the upper cardboard layer 4 is unperforated.

The embodiment according to FIG. 5 is modified from that according to FIG. 2 in such a way that the upper cardboard layer 4 is unperforated, while the perforations 2 ¹ in the lower cardboard layer 5 have a smaller diameter than the perforations 2 in the plaster core 3.

FIGS. 6 and 7 show the distribution of the perforated area portion over the entire plate area. In the embodiment According to FIG. 6, the perforations or slots 2, 2 ', 2 "are in the area R of the edges of the plate 1 or 1 'closer, d. H. more often

arranged than in the area M of the plate center. In the embodiment according to FIG. 7, see only in the edge areas E perforations or slots 2, 2 ', 2 ", while the area of the plate center M is unperforated or not slotted.

Claims (7)

Protection claims 1. Perforated and / or slotted sound-absorbing panel, in particular plasterboard, with a perforated or »slot area proportion preferably between 0.5 % and 20 %, characterized in that the hole diameter or the slot widths are at most 5 mm, gate preferably 2 mm. 2. Sound absorbing plate according to claim 1, characterized in that that the perforated or "slit walls are rough" 3. Sound absorbing plate according to claims 1 and 2, characterized in that the holes (2, 2 ', 2 ") or slots are designed to widen conically from one side of the plate to the other, 4. Sound absorbing plate according to claims 1 to 3 »thereby characterized in that the perforated or slotted area portion is different over the entire plate area, 5. Sound absorbing plate according to claim 4, characterized in that that the plate (1, 1, 1 ') is partially unperforated or not slotted is. 6. Sound absorbing plate in the form of a plasterboard according to claims 1 to 5? characterized in that the one cardboard layer (5) is provided with holes (2 ¹ ) or slots, the diameter or slot width of which is smaller than the diameter or the slot width in the plaster core (3) and the other cardboard layer (4) and is preferably at most 1 mm. - 9 7. Sound absorbing panel in the form of a plasterboard according to claims 1 to 6, characterized in that a cardboard layer is unperforated. The patent attorney