DE1852216U - STRUCTURE, e.g. BUILDING PLATE. - Google Patents

Description

Structure, e.g. B. Building board It is known to be porous and therefore sound-absorbing Structure made from a mixture of open-pored vermiculite combined with a self-hardening binders with high adhesive strength (mostly plastic binders) for the pores of the vermiculite is not completely closed off. The ones in the pores of one of those things manufactured structure, z. B. a plate or a block located Air, is excited to sound vibrations when sound hits, which leads to sound absorption, d. H. Conversion of the kinetic sound energy into heat due to the friction of the vibrating Air particles leads to the pore walls.

Due to the very low resistance of the hand, easy Depressible vermiculite, structures made of these materials are rarely usable, provided not special. ,, very kpstspielige binders are taken.

It is also known to produce a sound absorber from non-porous material by arranging perforations in the structure. It is also tightly new, made of materials such as wood fibers although porous, it has a high acoustic resistance and have a low level of sound absorption, to provide panels with cutouts or millings on the sound side. in order to increase the sound absorption rate of such structures.

The invention has set itself the task of producing a structure that differs in its shape and in its acoustic mode of action from the known structures and at the same time a larger number of tasks as a sound absorbing plate, decorative body, fire-resistant and fire-retardant cladding body, as a thermal insulation board and as a cladding sheet to prevent condensation can meet.

The invention relates to a sound-absorbing structural structure from a mixture of granular mineral Substances and binders and consists in the fact that the structure consists of a mixture of single-grain or in graded grain composition, a heaped porosity and thus blown through Having a structure. artificial z. B. expanded perlite or perlite-like Mineral is made in conjunction with binders. The perlite or perlite-like Mineral must have a density of 60-200 kg / m ".

The advantages achieved by the invention are in manufacture a light and yet stable and porous one that cannot be pressed in by hand Building to see. The volume weight of structures made from otherwise customary granular Additives such as pumice or sand with densities between 600 and 1600 kg / m 'lies so tall,. that the use for z. B. suspended ceiling structures without additional Supportive measures are ruled out from the static point of view alone.

In the production of structures according to the invention with fire-retardant and fire-resistant properties through the addition of, for example, mineral Binders such as B. cement, gypsum "magnesite, anhydrite or the like. In a mixing ratio 1: 1 to 1: 6 only results in a density of approx. 300 to 600 kg / m3.

This makes the production of z. B. ceiling panels from the building structure according to the invention possible without heavy load-bearing or support structures required are.

For certain acoustic cases, a building made of a multi-layered, no more continuous homogeneous structure proved "in which the individual layers different graded perlite grains of z. B. 8-2 mm and 2-4 mm.

Furthermore, it is useful that the structure z. B. the acoustic panel according to the invention on the surface facing the incident sound completely flat is formed without depressions or elevations, but also on the incident Sound-facing surface holes and groove-like depressions with one behind has closed air layer lying.

This shape and design of the porous plate is not only a porous sound absorption from the visible side into the panel material penetrate sound (due to the permeability of the plate) reached but also by suitably designing the depressions on the back surface of the plate achieved a resonator effect in the sense of the Helmholtz resonator effect to the a surprisingly high sound absorption in the resonance range of the caused by the shape of the structure of the resonator system. In the The air located in the recesses, like holes in the plate, represents the vibrating air Mass, while the required spring action by the connection to the Air cushion located in depressions is generated. The one immediately below the Holes in the material layer of the structure according to the invention made of haufwerksporigem Perlite material acts as a damping agent and as a flow brake and carries contributes to a significant increase in sound absorption.

A further enhancement of the resonator effect is achieved by the structures on their rear surface facing away from the incident sound get a thick smear (e.g. plaster of paris) between the wells or the panel material on the rear surface has a lower porosity.

The plate material located below the depressions ensures thereby the fire-retardant and fire-resistant properties of the non-flammable Plate cannot be canceled by the perforations either.

In summary, the essential advantages of the inventive Multipurpose building to determine the following physical properties: High sound absorption due to the porous sound absorption of the haufwerksporia plate material.

Particularly high sound absorption due to the resonator effect in the resonance range of the resulting plate resonator. (The resonance range is generally at customary arrangements in the middle or low audio frequency range.) Total incombustibility and fire protection for the components behind.

High thermal protection for heated rooms.

Protection of the components and fixtures behind the panels against Water vapor condensation.

Effect of the plate as a so-called condensate buffer "i.e. the plate absorbs the resulting condensation and releases the moisture after the Rapid condensation process through porous moisture transport to the surface back to the surrounding air.

Fibers can be added or added to increase the strength of the board a reinforcement made of wire, jute fiber webs or the like can be inserted.

Externally, the sound-absorbing multi-purpose structure described here differs from the known acoustic cladding panels in that that there is no perforated or slit view surface, but rather has a uniform surface structure due to its structure and thus gives the architect design options that could not be achieved with the previous acoustic structures.

The plate surface can be treated in any color or with a porous fabric, such as fiberglass tiles, textile fabrics or plastic sheeting without the advantageous properties of the plate being adversely affected.

The invention is described below with the aid of only one exemplary embodiment illustrative drawing explained; it show: the structure exists from a plate 1, which is made from a mineral binder and single-grain perlite is. The bottom 2 of the plate faces the incident sound is formed flat, while it has 3 recesses on its rear surface has in the form of holes 4. There is a plaster coating up to the edge of the holes 4 5 arranged. The continuous layer is labeled 6 on the plate. Above the plate is an air space 7 which is delimited by the ceiling 8. Protection claims :

Claims (9)

Protection claims fi 7 11-7 "2 4-- / f. , - "i2 1.Sound-absorbing structure from a heap Plant-pore mixture of binders and granular mineral aggregates, characterized in that these are made from artificially expanded perlite or perlite-like minerals with a cellular-pore structure in a single-grain or graded grain composition. 2. Structure according to claim l, characterized in that. that he is a has a multilayer structure. in which the individual layers are graded differently Perlite grains and different mixing ratios. 3. Structure according to claims 1 and 2 ,. marked thereby that he has holes or groove-like holes on the surface facing away from the sound Has depressions. 4. Structure according to claim 3e, characterized in that it is in the area its wells is made of non-porous materials. 5. Building structure according to claims 3 and 4p, characterized in that that it has a dense smear on its indented surface having, each of which extends to the edge of the indentations. 6. Structure according to claims 1 to 5, characterized in that organic or inorganic fibers are added. 7. Structure according to claims 1 to 6, characterized in that he wears armor. 8. Structure according to claims 1 to 7, characterized in that that the surface is colored or has a porous layer. 9. Building structure according to claims 1 to 8e, characterized in that that a back lining with sound absorbing materials is arranged.