AT406697B - MULTILAYER LIGHTWEIGHT PLATE - Google Patents

Description

AT 406 697 B

The invention relates: to a multilayer lightweight building board with a fibrous layer and a one- or both-sided cover layer made of bound, preferably mineral-bound wood wool.

Such lightweight panels are known. They are often used as components for thermal and acoustic insulation.

When it comes to noise protection measures, a distinction must be made between airborne sound absorption on the one hand and structure-borne noise insulation on the other. The degree of sound absorption of the multilayer lightweight building board mentioned at the outset is not sufficient to be used in the context of noise protection measures, which primarily relate to airborne sound absorption.

The object of the invention is therefore to improve the degree of sound absorption of such lightweight building boards in order to be able to use them primarily for noise protection structures.

This is achieved according to the invention in that the connection between the fibrous layer and at least one of the outer layers takes place by means of a partial adhesive bond which allows the vibration of the air particles through the separating surface of the outer layer and the fibrous layer, the partial adhesive being carried out on the one hand by the binder of the outer layer, which preferably consists of a mineral binder and an adhesive additive, and on the other hand by applying an adhesive to partial areas of the connecting surface of the top layer and / or fiber layer. Partial bonding means that the adhesive is not applied to the connecting surface of the fibrous layer and / or top layer continuously over the entire connecting surface, but only on partial areas of the connecting surface.

This measure allows the sound waves to penetrate better into the fibrous layer, in which they are braked by " brakes " of the vibrating air particles are highly absorbed, with (to a lesser extent) the upstream cover layer and possibly the rear cover layer also contributing to sound absorption.

It has surprisingly been found that despite the merely partial bonding according to the invention, sufficient bond strength is maintained between the cover layer consisting of bonded wood wool and fiber layer, the mineral bond in the cover layer also contributing to the bond strength, which at the time the cover layer and Fibrous layer should preferably not yet be cured. Due to the " roughness " the connecting surfaces of the cover layer and the fiber layer does not cause complete bonding, but in turn only a partial or selective bond, so that the effect according to the invention of the vibration of air particles through the separation surface of the cover layer and fiber layer is retained. The additional measure according to the invention of applying an adhesive to partial areas of the connecting surface serves to achieve good bond strength between the cover layer and the fiber layer. Favorable ratios of the degree of absorption and bond strength are achieved if the adhesive is applied to about 30% to 70%, preferably to about 50%, of the connecting surface of the fiber layer and the top layer. For the bond strength, a good connection at the edges of the panels is particularly important. It is therefore advantageous if the adhesive is applied in the form of strips, which preferably extend continuously over a plate dimension, or if the partial bonding takes place at least on two mutually parallel edges, preferably the longitudinal edges of the connecting surface between the fiber layer and the cover layer. Furthermore, it is advantageous for the sound-absorbing effect if the adhesive is applied to the relevant partial areas of the connecting surface not as a coherent adhesive film, but in a dot structure, which is e.g. can be achieved by spraying the adhesive. As an adhesive e.g. Water glass or dispersion glue can be used.

The cover layer is preferably a lightweight wood wool board in accordance with ÖNORM B 6021 or DIN 1101, in which the wood wool is minerally bound. Instead, a cover layer can also be used, in which the wood wool is replaced by an organic binder, e.g. Synthetic resin, is bound. The fibrous layer may preferably be made from mineral fibers, e.g. Rock wool, but also consist of plastic fibers or natural fibers. The fibers of the fibrous layer are bound by only a relatively small proportion of binder, so that the second

AT 406 697 B

Fibrous layer has an open-pore, air-permeable structure. The fibrous layer can optionally also be layered in itself or combined with other open-pore material.

In the case of multilayer lightweight building boards of the type mentioned at the outset, it has become known (DE-OS 33 15 901) to arrange a vapor barrier between the top layer and the fibrous layer, but this prevents exactly what is sought according to the invention, namely an air permeability between the top layer and the fibrous layer. Layer.

In the case of a known sound-insulating, flat component (AT-PS 386 441), a gluing in places only, preferably point-by-point, is proposed, but this measure expressly serves to insulate the transmission of structure-borne noise, while - as stated in the introduction - the effect of the object of the invention based on airborne sound absorption. The component shown and described in AT-PS 386 441 would not be suitable for airborne sound absorption, because neither this component has an air-permeable cover layer nor an air-permeable core layer, and the connection between the cover layer and core layer is not air-permeable, despite the only point-by-point bonding.

Another known wall component with thermal insulation (DE-OS 28 14 631) is concerned with structure-borne noise insulation. The surface layers of this wall component are not airborne sound absorbing, but airborne sound reflecting, and the foam glass plates underneath also have no airborne sound absorbing effect, since foamed glass has closed cells and a smooth surface. Apart from that, the feature of partial bonding is missing.

In a known lightweight wall (DE-OS 23 44 333) there is a cement-bound lightweight board between two asbestos cement boards. In this case too, the cover layers, namely the asbestos cement layer, are firm and reflective of airborne sound, that is to say not absorbing airborne sound. The cement-bound lightweight construction board, which is designed as a core layer, does have airborne sound-absorbing properties, but these properties do not come into play because of the solid, sound-reflecting outer layers. In addition, there is also no partial gluing between the top layer and core layer.

The invention is explained in more detail below with the aid of exemplary embodiments.

1-3 show various examples of cross sections of a multilayer lightweight building board according to the invention. Fig. 4 shows a plan view of the connecting surface of the fibrous layer. 5 shows a sound absorption diagram of a multilayer lightweight building board according to the invention.

The multilayer lightweight building board according to Fig. 1 consists of a fibrous layer 1, e.g. made of rock wool, which has a cover layer 2 of bonded, e.g. has cement-bound wood wool. The fiber orientation in the fiber layer 1 can be perpendicular to the plate surface. However, other fiber orientations are also possible. The connection between the fibrous layer 1 and the cover layers 2 takes place according to the invention by partial gluing, the adhesive application 3 being carried out, for example, in the form of a strip. 1 is sound-absorbing on two sides and also provided on both sides with a resistant surface, so that such a plate is suitable both for cladding a wall or ceiling and even as a partition.

2 differs from that of FIG. 1 in that a cover layer 2 made of bonded wood wool is applied to the fiber layer 1 only on one side, but in this case too, a partial bond between the fiber layer 1 and top layer 2 takes place. The adhesive application 3 can in turn, e.g. be applied in strip form. This lightweight board is also sound-absorbing on both sides, but because it only has a resistant surface, especially suitable for cladding ceilings and walls, less than a free-standing component.

3 consists of the fibrous layer 1, which on one side with a cover layer 2 made of bound wood wool, on the other side with a solid, closed, optionally load-bearing cover layer 2 ', e.g. made of wood, metal, mineral building material. However, in the exemplary embodiment according to FIG. 3, partial bonding with the aid of partial adhesive 3 takes place only with one of the two cover layers 2

Claims (6)

AT 406 697 B order 3, while the other cover layer 2 'is connected by an adhesive application 4, which extends over the entire connecting surface. This multilayer lightweight construction board is essentially sound-absorbing on one side, since the solid, closed, optionally load-bearing cover layer 2 'and the continuous adhesive application 4 as " sound screen " acts, which can be particularly advantageous in those cases in which not only sound absorption to improve the room acoustics is desired, but also sound insulation compared to an adjacent room, although it should be noted that multi-layer lightweight boards according to Fig. 1 and 2 have a sound-absorbing effect. A multilayer lightweight board according to Fig. 3 is suitable e.g. as a room partition, but in a special way also as a noise barrier in the traffic area. It has already been mentioned that the adhesive application 4 is preferably carried out in strip form, which is also illustrated by FIG. 4. FIG. 4 shows a plan view of the connecting surface of the fibrous layer I before it is connected to the cover layer. Adhesive, for example water glass, in the form of strips 3 is applied, preferably sprayed, to the connecting surface, two edge strips and one central strip being provided in each case. Such an adhesive application in strip form is particularly advantageous because when the plate is separated, e.g. according to the separating surface 5, the same adhesive surface ratios are retained in both separate plate parts. For the bond strength between the fibrous layer 1 and the cover layers 2, it is particularly important that the adhesive application 3 also along the edge zones of the. If it is also expedient to apply the adhesive application in strip form, a differently designed partial adhesive application can instead be used take place, any surface pattern are possible. Sound absorption measurements were carried out on a multilayer lightweight building board with a cross-sectional structure according to FIG. 1 and an adhesive application according to FIG. 4. In the test panel, the fibrous layer 1 was a rock wool panel with a fiber orientation perpendicular to the panel surface and a thickness of approx. 5.5 cm, the two cover layers 2 consisted of a cement-bonded wood wool lightweight panel, each 1 cm thick. The adhesive application (in the strips) extended over approx. 50% of the connection area. With this multilayer lightweight building board, sound absorption values according to FIG. 5 could be determined. The characteristic value Δ LAi0iStr according to the ÖAL guidelines No. 23/1983 was 9 dB, which means that the plate in question is " highly absorbent " is classified. Since the maximum sound absorption is around 500 Hz, that is to say in the relatively low frequency range, the multilayer lightweight construction board according to the invention is particularly suitable for noise barriers in road traffic, for example for noise protection cladding of traffic areas (tunnels, street galleries). Claims: 1. Multi-layer lightweight building board with a fibrous layer and a one- or both-sided cover layer made of bound, preferably mineral-bound wood wool, characterized in that the connection between the fiber layer (1) and at least one of the cover layers (2) by a Vibration of the air particles takes place through the parting of the top layer (2) and the fibrous layer (1), the partial bonding taking place on the one hand by the binder of the top layer (2), which preferably consists of a mineral binder and an adhesive additive, and on the other hand by applying an adhesive (3) to partial areas of the connecting surface of the top layer (2) and / or fiber layer (1). 2. Multi-layer lightweight building board according to claim 1, characterized in that the adhesive application (3) extends to about 30% to 70%, preferably to about 50% of the connecting surface of the fibrous layer (1) and cover layer (2). 3. Multi-layer lightweight building board according to claim 1 or 2, characterized in that the adhesive application (3) has the shape of strips, which preferably extend continuously over a plate dimension. 4 AT 406 697 B 4. Multi-layer lightweight building board according to one of claims 1 to 3, characterized in that the adhesive application is formed at least on two mutually parallel edges, preferably the longitudinal edges of the connecting surface between the fibrous layer (1) and the cover layer (2). 5. Multi-layer lightweight board according to one of claims 1 to 4, characterized by the use of water glass as an adhesive. 6. Multi-layer lightweight building board according to one of claims 1 to 5, characterized in that the fibrous layer (1) on one side via partial bonding (3) a cover layer (2) made of bonded wood wool and on the other side, preferably via a continuous adhesive layer (4), has a solid, closed, optionally load-bearing cover layer (2 '). Including 2 sheets of drawings 5