DE3334331A1 - Sound-absorbing wall covering - Google Patents

Abstract

The sound-absorbing wall covering consists of a printable material laminated onto a carrier layer of regenerated cellulose. The printable material is a conventional paper wall covering, a printed fibre nonwoven fabric or a glass-clear or colour-printed plastics film. The composite of paper wall covering and regenerated cellulose is embossed after laminating and compressed to a third of its original volume. <IMAGE>

Description

Sound absorbing wallpaper

The invention relates to a sound-absorbing wallpaper made from a composite two layers, one of which consists of a printable material and is laminated onto the other layer.

From DE-OS 27 58 041 a sound-absorbing component is made at least two stacked plastic foils for the lining known from interiors. At least one of the foils has raster-like juxtaposed Wells in the shape of a cup, the bottom surfaces of which become lossy in the event of sound incidence Vibrations are excited. The top edges of the wells are common covered by a further, also vibratable flat film, which the Air volumes contained in the individual planar depressions are airtight concludes. The bottom area of the individual component and / or the depth of the individual Cup-shaped depressions can be designed differently from one another. In a modification of the component, two foils can also be arranged with the same, cup-shaped Wells so nested that they are together with the cup-shaped Wells concluding flat film a multilayer structure with completed Form air cushions.

From the European patent application 46 559 a resonator sound absorption element is known that from a dimensionally stable one that is open at least at one end There is a hollow body, in the cavity of which it is divided into partial cavities Extends resonator sheet. It is also possible to have one at both ends to arrange open hollow body resonator sheets that cover the open ends and fiber-free with an open-pore structure made of perforated plastic films Films based on cellulose hydrate or made of plates made of polymer fibrids.

In the prior art, an insulating material is also known that uses dispersion adhesives how a wallpaper can be processed. This is a network made of a special fleece and a fine-cell latex foam, whereby the thickness of the Composite is about 5 mm. This insulation material has favorable stretching and bending properties, so that static and working cracks up to 7 mm are bridged with it permit. The insulation properties also extend to the sound insulation, since reverberation times and noise levels are reduced. The degree of sound absorption of this well-known insulation material is 0.09 in the frequency range of 500 Hz. A disadvantage of this known insulation material is the thickness of 5mm required to achieve good sound insulation. This thickness results in a larger storage and transport volume as well.

a time-consuming laying of the insulation material. The latex fabric as The carrier material of the insulation impairs the breathability of the masonry, so that a deterioration in the indoor climate cannot be ruled out is. After being glued to the masonry, the insulation material can be wallpapered, plastered, covered with tiles or painted with paint. When using this insulation material Two work steps are thus required in a room before the room is finished Appearance.

The object of the invention is to create a sound-absorbing wallpaper, which has such a thickness that it can easily be used as a conventional paper-backing wallpaper can be laid and a storage and storage space comparable to paper wallpaper Owns transport volume.

This object is achieved according to the invention in that the one layer from a known paper wallpaper and the other layer from regenerated, planar porous cellulose.

In an embodiment of the invention, one layer is a printed one Fiber fleece that is laminated onto the layer of regenerated cellulose. In In a further embodiment, the laminated layer is a plastic film with a thickness of less than 20 µm.

The layer of regenerated cellulose has a before lamination Thickness of about 3 mm. The composite of printable material and the layer made of regenerated cellulose is used during the lamination process embossed and pressed to a thickness less than or equal to 1.2 mm. This thickness is during during storage and transport and only during the processing of the Wallpaper swells the regenerated cellulose to its original state through moisture absorption Thickness of about 3 mm.

With the invention, the advantages of good sound absorption achieved, furthermore an impairment of the indoor climate avoided, which is due to the Property of regenerated cellulose is to absorb moisture, to store and release again, a thermal insulation achieved and also a bridging of wall cracks a few millimeters wide through the porous cellulose material enables.

The invention is explained in more detail below with reference to the drawings.

1 shows a perspective illustration of an embodiment the wallpaper, with paper wallpaper laminated onto regenerated cellulose, FIG. 2 a perspective view of an embodiment of the wallpaper, consisting of a printed plastic film and regenerated cellulose and Fig. 3 absorption curves of three test samples of the wallpaper according to the invention.

The sound-absorbing wallpaper shown in perspective in FIG consists of a composite 1 of two layers, one of which consists of one layer printable material, such as a paper wallpaper 2 and the carrier layer made of regenerated, planar porous cellulose 3 (cellulose hydrate), on the the paper wallpaper 2 is laminated.

The layer 3 made of regenerated cellulose has prior to the lamination process a thickness of about 3 mm. After lamination with the standard paper wallpaper 2, the composite 1 is embossed, the regenerated cellulose 3 to a thickness is pressed less than or equal to 1.2 mm. In Fig. 1, an embossing pattern 4 is schematically indicated. The cellulose is regenerated through the lamination and pressing process 3 compressed to about a third of its original volume, with also on the back of the cellulose 3 depressions and elevations or the embossed pattern 4 arise.

In Fig. 2 is a perspective view of another embodiment of the sound-absorbing Wallpaper depicted.

This embodiment also consists of regenerated cellulose 3, which serves as a carrier layer, and instead of the paper wallpaper 2 is a plastic film 5 or a printed fiber fleece 6 connected to the carrier layer. In the case of one Plastic film 5 can be printed in color or can be water-clear.

The density of the composite is up to 105 g / dm3 and the coefficient of thermal insulation is 0.083 m2K / W.

The wallpaper according to the invention can be in roller conveyors with a width Manufactured up to a maximum of 1260 mm with a roll length of 25 and 50 linear meters will. The weight per unit area is around 250 g / m2.

Another embodiment, which is not shown in the drawing, consists of a non-laminated layer of regenerated cellulose, which is plain-colored or can be provided with a decor. The thickness of this embodiment of the wallpaper is then about 3 mm.

The wallpaper can be easily and cleanly cut, punched, glued, sew, staple and nail. In addition to the low weight and storage volume, this results in further advantages are dimensional stability, printability and easy assembly and the high level of sound absorption even at low frequencies. Suitable uses are wall and ceiling cladding in cassette form, machine encapsulation, structure of partition walls and ceiling suspensions. In cassette form, the wallpaper can be converted into a preformed cassette inserted or in a separate cassette in several Layers to be folded. Furthermore, the wallpaper can be used as a frame cassette in one Frames can be stretched, nailed to a slatted frame or with other sound-absorbing end Materials are combined into a corresponding component.

Fig. 3 shows the absorption curves of three test samples of the wallpaper, by plotting the sound absorption level as a function of the sound frequency can be obtained. The samples were in an impedance tube according to DIN 52215 at acoustically hard Degree examined for airborne sound absorption. The curves I and II act it is the absorption curves of patterns in which a paper wallpaper 2 on a layer support made of regenerated cellulose 3 is laminated and the composite then embossed and compressed to about a third of its original volume became. Curve III applies to the same pattern with which curve II was recorded was, with the only difference that the pattern swelled as a result of moisture was post-treated before the measuring process. The post-treated pattern is clear recognize better absorption properties than the untreated sample. As As the absorption curves show, the airborne sound absorption is at one frequency f of 2 kHz about 30%, which is a value for a material with a thickness of only a maximum of 3 mm in the swollen state after laying on a reverberant Wall is surprisingly high. Blank page

Claims (7)

Claims 1 Sound-absorbing wallpaper made from a composite of two Layers, one of which consists of a printable material and is laminated onto the other layer, characterized in that the one layer (2) from a known paper wallpaper and the other layer (3) from regenerated planar porous cellulose consists. 2. Sound-absorbing wallpaper according to claim 1, characterized in that that the one layer is a printed nonwoven fabric (6) which is made on the layer regenerated cellulose is laminated. 3. Sound-absorbing wallpaper according to claim 1, characterized in that that the laminated layer is a plastic film (5) with a thickness smaller than 20 m. 4. Sound-absorbing wallpaper according to claims 1 to 3, characterized characterized in that the layer (3) made of regenerated cellulose prior to lamination has a thickness of about 3 mm. 5. Sound-absorbing wallpaper according to claim 4, characterized in that that the composite of printable material and the layer (3) of regenerated Cellulose embossed during the lamination process and reduced to a thickness less than or equal 1.2 mm is pressed. 6. Sound-absorbing wallpaper according to one of claims 1 to 5, characterized characterized in that the density of the composite is up to 105 g / dm3 and its thermal insulation coefficient 0.083 m2K / W. 7. Sound-absorbing wallpaper according to claim 6, characterized in that that the composite has an airborne sound absorption of 30% at a frequency of 2 kHz owns.