DE202011110346U1 - building board - Google Patents

Abstract

Building board of a base plate constructed primarily of gypsum and an essentially consisting of clay top layer containing vegetable fibers, characterized in that the base plate is treated with white glue to improve the adhesion of the cover layer.

Description

The present invention relates to a building board of a base plate constructed primarily of gypsum and a covering layer consisting essentially of clay, which may contain vegetable fibers.

In modern construction technology, the use of drywall systems has become widely accepted. In this case, walls and other parts of buildings made of building boards, which are applied to a corresponding substructure, such as stud walls. Typical building boards for the manufacture of drywall constructions consist of gypsum, gypsum plaster boards and gypsum fiber boards being used as plasterboard.

Furthermore, it is known that the use of natural building materials, such as loam, it is possible to achieve significant improvements in the field of building physics and building biology. Due to the special properties of suitable clay building materials against moisture (sorption and desorption behavior) an extraordinary improvement of the indoor climate is achieved. The base material is generally completely free of harmful or hazardous chemicals and also particularly advantageous in the other building physical properties. Thus, a clay layer with a favorable structure achieves excellent fire resistance properties.

From the AT 011.090 U a fiber board is known in which a clay layer is applied to a wood-based panel.

Another known solution is in the AT 010.861 U shown, in which a support plate is proposed, which is designed as plasterboard and on which a plaster layer of fiberglass is applied.

The advantage of such a solution is that the flexural strength and tensile strength of the drywall panel is primarily given by the baseplate of gypsum material, so that no reinforcement and no chemical stabilization additives are required for the clay layer. In the finished structure, the clay layer is directed towards the interior of the room and can provide its excellent sorption and desorption properties in an advantageous manner for improving the indoor climate. In case of fire, the incombustible and unlike gypsum fire-resistant clay plaster delays by the release of water of crystallization the effect of heat on the support plate, whereby the fire resistance of the composite panel is significantly increased.

The mechanical strength of the clay layer is increased by the addition of biogenic plant fibers, such as bast fibers, hemp, flax, kenaf or nettle fibers. Furthermore, this addition also improves the workability of the surface. These fibers may be dry-mechanically or wet-microbially-mechanically processed and have a length of 5 mm to 15 mm. The proportion of fibers should be above 0.1 percent by weight of the clay layer and the consistency of the building material mixture should be between the consistency ranges K3 and K5 according to ÖNORM B4200 (Part 10, Section 3.8). In detail, the questions of fiber addition in the EP 0 903 328 B discussed.

A disadvantage of the building material panels described above is the fact that in the formulation of the clay layer consideration must be taken that a sufficiently stable connection of the clay layer is given to the base plate to represent a robust component.

From the EP 2 039 842 A For example, a precast element is known in which a layer of clay is applied to a support element, which may be designed, for example, as a plasterboard. Without special additional measures, the use of such a precast element is problematic. In particular, as a drywall such a system is not very suitable.

In the DE 199 50 356 A discloses a multi-layer device containing a clay layer. The problem of bonding the clay layer to the substrate is solved by a special surface design, such as profiling or the provision of dovetail joints. Such a connection is very complex and not very suitable for mass production.

An alternative solution is in the DE 20 2008 014 162 U1 described in which the connection of a clay layer on a base plate for the production of a dry device is achieved by using a chemical stabilized clay is used. This means that it is no longer a natural product free of chemicals and no longer complies with the building biology requirements of the nature plus directive and is not a clay building material as a chemically stabilized product in accordance with the rules of the Dachverband Lehm. In addition, the recycling of such building boards is no longer possible in the hassle-free manner, as with the use of pure clay plaster.

From the DE 101 04 737 A1 Furthermore, a building board is known, which consists of two outer layers, which are formed as mineral fiber plates, between which cover layers, a core layer is inserted, which is substantially as Paper honeycomb is formed. As an alternative to the paper honeycomb, the core layer can also be formed as chipboard.

The bonding of the core layer with the mineral fiber boards takes place in particular via an adhesive layer, which consists of a full-surface white glue application. About the connection of mineral fiber board with paper on the one hand and with fibreboard on the other hand by white glue addition, this document does not contain usable for the skilled person disclosure.

Object of the present invention is to avoid these disadvantages and to provide a structural panel that meets all building physics and building biology requirements and at the same time is robust and sustainable.

According to the invention, these objects are achieved in that the base layer is treated with white glue, for example, in order to improve the adhesion of the top layer. White glue is a wood glue made on polyvinyl acetate base. As a typical product Synturit ^® Synthesa can be used in the invention. Surprisingly, it has been found that white glue is an ideal adhesion promoter between the base plate and the clay layer. This is not a common plaster primer such as Beto-contact ^® Knauf. No rough usual plaster base is produced, which needs a setting time, but the thinly applied glue layer glues the sand and fiber particles in the drying process with the base plate. The connection is so strong that in case of violent destruction in the inventive design always breaks the clay layer itself before it separates from the base plate. According to an advantageous aspect of the present invention, the surface of the base plate is smooth even after the application of white glue.

Biofiber clay, by virtue of its composition (sands, silts, clay minerals, vegetable fibers, no chemical additives), in contrast to e.g. to conventional lime cement plasters or some stabilized clay plasters as an approximately pH neutral mixture not chemically with the glue used. As a result, the glue in this case can easily be cured in a thin contact zone at about the same time as the Biofaserlehmputz during the drying process.

This compound is much more homogeneous and manufacturing more efficient than a conventional mechanical connection of plaster base and clay plaster, which is based on the coating of a primer on a support plate.

For the purposes of the invention, white glue is understood to mean not only polyvinyl acetate-based glues, but also alternative gluing glues, such as casein glues. Such casein glues can be prepared as pure natural products, but must be freshly prepared if necessary. The setting time is also longer than with adhesives based on polyvinyl acetate.

Particularly advantageous fibers have been found that are obtained from Typha. Typha are caterpillars within the order of sweetgrass-like. When using these plant fibers, particularly advantageous properties of the clay layer have been found.

The present invention is also particularly suitable for plasterboard panels provided with milled grooves for receiving heating or cooling registers. In the case of the coating according to the invention, the otherwise required trowelling is eliminated, since the clay layer fills the remaining cavities in an advantageous manner. In this way Biofaserlehmplatten can be displayed with heating or cooling function.

In the manufacture of a building board, in which a mainly consisting of plaster base plate is applied a substantially consisting of clay topcoat, an adhesive layer of white glue or other suitable glue is applied to the base plate before applying the cover layer. The white glue may be applied in a thin layer, preferably in an amount between 80 g / m ² and 180 g / m ² .

Particularly preferably, the clay layer is applied directly wet in wet on a thin layer of glue. The particular advantage is that for the plaster adhesion to the support plate not a conventional primer must be made as an independent layer of material, which then hardened in the dry state a mechanical bonding for clay plaster, but that the application of white glue and topcoat practically in one operation is possible.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• AT 011090 U [0004]
• AT 010861 U [0005]
• EP 0903328 B [0007]
• EP 2039842A [0009]
• DE 19950356 A [0010]
• DE 202008014162 U1 [0011]
• DE 10104737 A1 [0012]

Claims (9)

Building board of a base plate constructed primarily of gypsum and an essentially consisting of clay top layer containing vegetable fibers, characterized in that the base plate is treated with white glue to improve the adhesion of the cover layer. Building board according to claim 1, characterized in that the surface of the base plate is smooth. Building board according to one of claims 1 or 2, characterized in that the base plate is designed as a plasterboard. Building board according to one of claims 1 or 2, characterized in that the base plate is designed as a gypsum fiber board. Building board according to one of claims 1 or 2, characterized in that the base plate is formed as a calcium silicate board. Building board according to one of claims 1 to 5, characterized in that the cover layer is formed apart from the plant fibers of pure clay. Building board according to one of claims 1 to 6, characterized in that Typha fibers are provided as plant fibers. Building board according to claim 7, characterized in that the white glue is applied in a thin layer, preferably in an amount between 80 g / m ² and 180 g / m ² . Building board according to one of claims 6 to 8, characterized in that the clay is applied wet in wet on the white glue.