DE3643480A1 - SOUND ABSORBING WALL OR CEILING COVERING - Google Patents

Description

The invention relates generically to a sound-absorbing wall or ceiling covering with a porous sound-absorbing layer and a sound-permeable cover. - Sound-absorbing wall or ceiling cladding are used wherever reverberation is required to improve audibility or to reduce noise. The porous sound absorption layer of the sound absorbing wall or ceiling cladding is often glued directly onto the soundproof surface. However, the porous sound absorption layer should preferably be laid on a slatted frame and an air cushion of a few centimeters should be provided between the reverberant surface and the sound-absorbing wall or ceiling cladding, since such a measure improves absorption at low frequencies.

Porous sound absorption layers generally have a soft, mechanical, easily vulnerable and optically unappealing surface. The treatment of the porous surface with paints is disadvantageous, since such treatment leads to a considerable impairment of the absorption capacity of the sound absorption layer. It is also known that freely stretched films with a low basis weight have sufficient sound permeability and do not have a lasting effect on the absorption capacity of a sound-absorbing wall or ceiling covering. The freely stretched film acts as a membrane. It must not be hindered or dampened by contact with other materials in the membrane vibrations generated by the impacting sound. The weight per unit area of such a membrane should not exceed 30 g / m ² . As the basis weight increases, the degree of sound absorption of the wall or ceiling cladding deteriorates considerably at medium and high frequencies. If the weight per unit area of the film exceeds 50 g / m ² , the shielding effect of the film is so great that considerable and in some cases also complete loss of the sound absorption effect occurs in the entire listening frequency range. The low mechanical resistance speed of thin foils, the sensitivity in the technical processing and esp. The need that the film must be stretched freely swinging in front of the sound-absorbing cladding are so great disadvantages that the practical application is almost excluded. In the case of the sound-absorbing wall or ceiling cladding known from practice, the porous sound-absorbing layer is therefore protected by a perforated cover. The known perforated covers are made of sheet metal. Wood fiber hardboard or perforated plasterboard. In the higher frequency range, a reduction in the sound absorption of the wall or ceiling cladding occurs due to these covers. It is also increasingly seen as a disadvantage that the architectural design options are severely limited both by the inevitably resulting joint divisions and by the hole pattern of the cover plates. Esp. disturb flicker when viewing the rows of holes.

The invention has for its object a sound absorbing Specify wall or ceiling cladding that is unaffected an archi of the sound absorption capacity of the porous sound absorption layer tectonic interior design without disturbing constraints.

To achieve this object, the invention teaches that the cover is an air-permeable porous wallpaper sheet with a basis weight of preferably more than 50 g / m ² , the wallpaper sheet having a flow resistance of 10 to 1500 Ns / m ³ , and that between the sound absorption layer and a spacer is arranged on the wallpaper web. - The wallpaper sheet is glued to the spacer with usual adhesives. The spacer carries the adhesive on its upper side. It has two important functions. On the one hand, it acts as an adhesion promoter and, on the other hand, prevents an air and sound-impermeable adhesive layer from forming between the wallpaper web and the surface of the porous sound-absorbing layer. In conjunction with the gap defined by the spacer, wallpaper strips with a high basis weight can surprisingly be used, which are naturally characterized by good mechanical wind resistance. The weight per unit area of these wallpaper strips can easily be 500 g / m ² without impairing the sound-absorbing effect of the wall or ceiling covering. According to the invention, the wallpaper webs are porous and air-permeable. However, they have a considerable flow resistance and offer sufficient protection for the porous sound absorption layer against dust and moisture. It is also surprising that the effectiveness of the wall or ceiling cladding is not impaired by the fact that the wallpaper webs are glued to the spacer, the adhesive parts being a short distance of a few millimeters from one another.

The spacer can be designed in different ways. One embodiment provides that the spacer is a wide-meshed fabric. The adhesive can be applied to the fabric in a known manner, for example by rolling. The mesh size and the fabric thickness is set up so that excess adhesive does not block the porous surfaces of the sound absorbing layer and the wallpaper web and does not make it impermeable to air. On the other hand, the geometry must be set up so that the wallpaper web lies evenly on the surface. The suitable geometry depends on the material of the wallpaper sheet. A mesh size of at least 1 mm and a fabric thickness of 0.8 mm have proven to be expedient. Another execution of the invention is characterized in that the spacer is designed as a grid or perforated sheet, and that the grid or perforated sheet has openings, the free cross section of which is 10 mm ² each. The grid or perforated web can be formed as a flat Ma material web or as a corrugated material web. The material is advantageously cardboard or plastic. Further configurations of the spacer are possible within the scope of the invention. For example, the spacer can consist of strip-shaped or strip-shaped material. Furthermore, it is within the scope of the invention that the lattice or perforated web or the strip or lei-shaped material has a self-adhesive surface or becomes adhesive by brushing with water. Esp. then, if the wallpaper web is made of a very thin material, the invention recommends arranging a web of corrugated material, preferably a web of corrugated cardboard, provided with openings on the underside of the web of webbing, which in turn rests on the spacer. In a further embodiment, the invention teaches that a flat material web with holes is arranged on the side of the web of corrugated material that is facing away from the wallpaper web and has openings. Surprisingly, the passage openings of the corrugated material and the perforation of the flat material web can be set up so that additional resonance effects are generated, at whose natural frequencies increased sound absorption occurs. The result is a very advantageous arrangement, both from a sound-technical point of view and in terms of strength.

To cover all common types of wallpaper can be sided. It is within the scope of the invention to make sheets of air-permeable material material, for example nonwovens with a calendered surface. However, preference is given to wallpaper strips of conventional design, So paper wallpapers, textile wallpapers, embossed wallpapers based on art fabric materials or metal wallpapers, used, which air from home are impermeable. In the event that the wallpaper strips from one air-impermeable material, the invention teaches that the Wallpaper web has needle-fine air passage openings. Number and Geometry are chosen so that the Strö invention resistance. Invention surprisingly act wallpaper strips with needle-fine air passage openings not as sound reflectors, such as B. rigid cover plates or paint paintings. The air passage openings can be without impairment  the sound absorption are kept so small that they are not optically stand out. The shape of the air passage openings is arbitrary. They can be slit-shaped. After preferred execution Form of the invention, the air passage openings are hole-shaped designed and have a hole diameter of 0.2 to 2 mm. Taking into account the flow to be set according to the invention resistance, the perforation will have a perforated area share of about Have 0.5 to 4%. The distance between each center th of the air openings should be 1 to 4 mm.

As a porous sound absorption layer, all common sound insulation materials can be used. This includes both soft fiber mats made of inorganic materials as well as pressed, binder-containing Fiberboard, for example wood fiberboard. Preferably the porous sound absorption layer, however, as a soft fiber mat, in particular Glass or mineral wool, trained. In the other case that a bin Pressed fiberboard containing detergent is to be used, emp the invention fails that the porous sound absorption layer soundproof has sorbing recesses, preferably as blind holes or grooves are formed.

An essential advantage of the invention is the free shape possibility of sound-absorbing wall or ceiling cladding dung, and that with respect to the surface, in particular because of the un visible covering of joints and compensation of other un flatness or roughness, as well as in relation to the materials as well Colors and shapes of the soundproof cover. There is also still the possibility of pulling an unsightly a complete wallpaper Renovation of the room in question by usual repeating perform. Because they can be used as a sound-permeable cover Wallpaper strips are prefabricated in the factory, the reproducibility  Very high sound absorption. The application of the fiction moderate wallpaper strips on the porous sound absorption layer is fast and possible cleanly. A special processing technique with special Know-how is not required. All work can be done by one hand workers in the "drywall construction" division.

The sound-absorbing wall or ceiling covering according to the invention dung is further characterized in that the sound permeable Coverage not contactless over the porous sound absorption layer must be tensioned, but that it should rather be with the sub reason can be firmly connected without the disability the free vibration possibility of the wallpaper sheet at the glue points or the sound absorber through damping contact with the surface overall effect of the wall or ceiling cladding is pregnant.

In the following, the invention is based on only one embodiment Example illustrating the drawing explained in more detail. It shows gene in a schematic representation

Fig. 1 shows the basic structure of the inventive subject matter,

Fig. 2 to 5 further embodiments of the invention.

The invention relates to a sound absorbing wall or ceiling clothing. The basic structure includes a porous sound absorption layer 1 as well as a cover, and arranged between the sound-absorbing layer 1 and the wallpaper sheet 2 spacer 3 consists of a air-permeable porous wallpaper roll. 2 The wallpaper web 2 has a basis weight of more than 50 g / m ² . In the execution example, the sound absorbing wall or ceiling cladding is directly attached to the hard surface 4 . However, it is also within the scope of the invention to arrange the sound-absorbing wall or ceiling cladding on a slatted frame at a distance from the reverberant surface. The wallpaper web 2 has needle-fine air passage openings 5 , which are hole-shaped with a diameter of 0.2 to 2 mm. The flow resistance of the wallpaper web 2 is in the range from 10 to 1500 Ns / m ³ . In the dargestell th in Fig. 1 embodiment, the spacer is 3 s mm as wide-meshed woven fabric 6 with a mesh size of at least 1 and a fabric thickness d of 0.8 mm is formed. The wallpaper sheet 2 is adhered to the Ab spacers 3, wherein the spacer 3 carrying the adhesive on the upper side. The spacer 3 acts as an adhesion promoter and prevents a sound and air-impermeable adhesive layer from forming between the porous surfaces of the sound-absorbing layer 1 and the wallpaper web 2 . In the embodiments shown in FIGS . 2 and 4, the spacer 3 consists of a grid-shaped material web, that is to say a grid or perforated web 7 . It has openings 8 , the free cross section of which is at least 10 mm ² . In the exemplary embodiment, the breakthroughs 8 may be formed drama and the grid or perforated sheet 7 may be made of cardboard or plastic. It is within the scope of the invention that the spacer 3 has a self-adhesive surface or becomes adhesive by brushing with water. All common types of wallpaper can be used as wallpaper web 2 . For example, paper wallpapers, textile wallpapers with a rear paper coating, embossed wallpapers based on plastic materials or metal foils are suitable. For wallpaper webs 2 , which consist of a very thin material, the arrangement of a web 10 provided with passage openings 9 made of corrugated material 8 on the underside of the wallpaper web 2 according to FIG. 3 is recommended. A web 10 of corrugated cardboard is preferably inserted. The web 10 in turn lies on the spacer 3 . It is understood that the passage openings 9 of the web 10 are made of corrugated material so that the web 10 forms only a small flow resistance. It should not exceed 10 to 500 Ns / m ³ . In the embodiment according to FIG. 4, a flat material web 12 provided with bores 11 is arranged on the web 10 of corrugated material provided with passage openings 9 on the side facing away from the wallpaper web 2 . The passage openings 9 in the corrugated web 10 and the bores 11 of the flat material web 12 are set up so that additional resonance effects are generated, at the natural frequencies of which increased sound absorption occurs. The result is an embodiment of the invention which is very advantageous in terms of strength and sound technology.

In the embodiments of the invention shown in FIGS . 1 to 4, the porous sound-absorbing layer 1 is a soft fiber mat, in particular made of glass or mineral wool with a mechanically easy surface. FIG. 5 shows, in contrast, an embodiment of the invention in which the porous sound absorption layer 1 as a binding medium containing, pressed fiber board 13 is formed. The pressed fiber board 13 may be a wood fiber board or a pressed board made of glass or mineral wool. To improve sound absorption, the pressed fiberboard 13 has a plurality of sound-absorbing recesses 14 , which may be designed as blind holes in the exemplary embodiment. Similar results are also obtained with groove-shaped recesses.

Claims (11)

1. Sound-absorbing wall or ceiling covering with porous sound-absorbing layer and sound-permeable cover, characterized in that the cover is an air-permeable porous wallpaper web ( 2 ) with a weight per unit area of preferably more than 50 g / m ² , the wallpaper web ( 2 ) having a flow resistance of 10 to 1500 Ns / m ³ , and that between the sound absorption layer ( 1 ) and the wallpaper web ( 2 ), a spacer ( 3 ) is net angeord. 2. Object according to claim 1, characterized in that the spacer from ( 3 ) is a wide-mesh fabric. 3. Object according to claim 2, characterized in that the Ge weave ( 6 ) has a mesh size ( s ) of at least 1 mm and a Ge weave thickness ( d ) of 0.8 mm. 4. An article according to claim 1, characterized in that the spacer is designed as a grid or perforated sheet ( 7 ), and that the grid or perforated sheet ( 7 ) has openings ( 8 ), the free cross section of which is at least 10 mm ² . 5. Object according to one of claims 1 to 4, characterized in that on the underside of the wallpaper web ( 2 ) with a passage openings ( 9 ) provided web ( 10 ) made of corrugated material, preferably as a web of corrugated cardboard is arranged, which in turn rests on the spacer ( 3 ). 6. An object according to claim 5, characterized in that on the side of the web ( 10 ) facing away from the wallpaper web ( 2 ) there is a flat web of material ( 12 ) provided with bores ( 11 ). 7. Object according to one of claims 1 to 6, characterized in that the wallpaper web ( 2 ) has needle-fine air passage openings ( 5 ). 8. Object according to claim 7, characterized in that the air passage openings ( 5 ) are hole-shaped with a hole diameter of 0.2 to 2 mm. 9. Object according to claim 7, characterized in that the air passage openings ( 5 ) are slot-shaped. 10. Object according to one of claims 1 to 9, characterized in that the porous sound absorption layer ( 1 ) is formed as a soft fiber mat, in particular made of glass or mineral wool. 11. Object according to one of claims 1 to 9, characterized in that the porous sound-absorbing layer ( 1 ) is a binder ent containing pressed fiberboard ( 13 ) and sound-absorbing recesses ( 14 ), which are preferably formed as blind holes or grooves .