CZ159594A3 - Method of fastening lining parts to a building wall - Google Patents

Abstract

The soft foam layer, pref. of polyurethane, is a soft foam layer (10) to bond external tiles of plates to a building wall. Before the tiles (3) are attached to the wall (1), the foam layer is wholly saturated with a thin fluid adhesive mass. The tiles (3) are pressed into place against the wall (1) while the foam layer (10) is still wet. While they are pressed in place, the adhesive dries or sets so that there is adhesion against the wall (1) with an inelastic adhesive mass which retains its shape.

Description

Technical field

BACKGROUND OF THE INVENTION 1. Field of the Invention The invention relates to a method of fastening panel or panel cladding panels having thermal insulating properties to a building wall, in particular to the outside of a building wall, the panels facing their back side facing the building wall. that sticks to the wall of the building.

BACKGROUND OF THE INVENTION

German Offenlegungsschrift P 42 00 125.0 discloses cladding panels of this kind which are adhered to the building wall by a layer of soft foam. A layer of soft foam results in the following effects:

In order to improve the thermal insulation of the building, the outer walls of the building may be lined with thermal insulation cladding panels and elements. However, these building claddings should be kept in mind to avoid all air voids and gaps in the cladding composition in which the outside air could circulate and introduce condensation moisture to these areas. However, the walls of buildings generally have unevenness, so that when using rigid cladding panels, air gaps between the outer surface of the building wall and the planar inner surface of the cladding panels are unavoidable if no other modifications are made. If, on the other hand, the interior of the tiles is covered with a layer of soft foam, this layer can adapt to the wall of the building and can adhere tightly to its outer surface so that no cavities are formed.

This sticking, however, raises problems in that the soft foam layer, when pressed against the wall of the building, resiliently pushes away from the wall due to its elastic properties and may even separate from the wall surface in some places. This may also be disadvantageous in other respects when the peripheral wall of the building or the heat-insulating panels attached thereto are to be plastered. In this case, the tiles are not dimensionally stable due to their soft foam layer, so that, for example, in the case of temperature changes or other environmental influences, positional changes in the tiles may occur, resulting in the formation of cracks in the peripheral surface of the plaster.

SUMMARY OF THE INVENTION It is therefore an object of the present invention to provide a method of fastening the panels to a wall of a building which, in a simple operation, is able to secure and permanently adhere the panels to a building wall without risking cavities in the insulating sheath.

SUMMARY OF THE INVENTION

This object is achieved by the method of fastening the tiles according to the invention, the principle being that before laying the tiles on the building wall, the layer of soft foam on the still separated tiles is saturated with at least a large part of its volume with thin adhesive. the tiles with such a soft foam layer are applied and pressed against the building wall while pressing the soft foam layer against the building wall and the adhesive is allowed to dry or cure in the compressed state of the soft foam layer so that the soft foam layer is not only adhered on the wall of the building, but becomes shape-stable and inelastic due to the curing of the adhesive.

The adhesive is thus applied not only to the surface of the soft foam, but also permeates virtually the entire cross-section of the soft foam layer. The foam is thus deposited on the wall in a wet state in which it is so-called compact and even more softened. When retaining such a trim panel on the wall of the building, it is sufficient to exert only a small pressing force to achieve a substantially perfect full-surface adhesion of the foam material to the wall. During this retention, the layer of soft foam saturated with the adhesive remains in its pressed position without resilient return of the material to its original shape. If the adhesive then dries or cures, the entire volume of the foam material layer stabilizes so that the shape of the soft foam material layer obtained remains stable and stable. Thus, the wall cladding produced by the method according to the invention can not undergo any changes and, for example, also eliminates the risk of cracks in the plaster layer applied to the heat-insulating coating.

The choice of a suitable type of adhesive is within the skill of the art, and it is preferable to use waterglass whose fluidity is similar to that of water, which is most preferred for this purpose.

Additional additives may be added to the adhesive composition, for example fire retardants, so that the fire protection of buildings is also improved.

BRIEF DESCRIPTION OF THE DRAWINGS

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an axonometric view of a section of a building wall provided with a cladding providing full thermal insulation protection; and FIG. 2 is a horizontal cross-sectional view of a cladding panel used to complete a wall cladding. 1 and shown on a scale smaller than that of FIG. 1 and in a position in which it is mounted on a building wall.

DETAILED DESCRIPTION OF THE INVENTION

In the example according to the invention, a cladding 2 forming a complex thermal insulation, which is composed of rectangular, substantially plate or panel cladding panels 3, is fastened to the outside of the building wall 1. The cladding panels 3 are designed so that they can be are always connected to adjacent cladding panels 3 by tongue and groove insertion joints. For this purpose, the tiles 3 are provided on their longitudinal edges, which in the final position are vertical edges, with a first contact surface 4 with a groove 5 and on the opposite edge with a second contact surface 6 with a retracting projection 7 forming a tongue. In the example of FIG. 2, the adjacent panel 3 is shown in dotted lines. It will be understood that depending on the size of the wall area 1 of the building, the tiles 3 can also be arranged vertically one above the other.

The illustrated cladding panels 3 have thermal insulating properties that are provided by the thermal insulating core 8, covering substantially the entire surface of the cladding panels 3 and formed of a thermal insulating material. A suitable material for this purpose is a foam having the appropriate density and consistency used for thermal insulation structures. The most suitable material of these foamed materials is rigid polyurethane, but it is also possible to use expanded polystyrene. The outer side of the cladding panel 3 is formed by an outer sheath 2 / applied to the thermal insulating core, which can directly form the outer side of the peripheral wall on the cladding wall 1 of the building and can thus be a visible side for the viewer. However, plaster may of course also be applied to the wall covering thus formed of the tiles 3.

The lining panels 3, or their heat-insulating cores 8, are provided with a firmly attached layer of soft foam 10 on their back side facing the building wall 1. This layer 10 forms an intermediate layer 11 between the wall 1 of the building and the thermal insulating core 6 after the cladding has been completed. By default, the soft foam layer 10 is soft and resilient and behaves similar to foam rubber materials. It is preferably made of soft polyurethane.

When tiling a building, the tiles 2 are first glued with their soft foam layer 10 to the walls 1 of the building. In this bonding process, the soft foam layer 10 is saturated with a thin adhesive so that substantially the entire cross-section of the soft foam layer 10 is permeated by the adhesive. Then, the treated panel 2 is pressed onto the wall 1 of the building and glued. In this assembly, the soft foam layer 10 is compressed as needed and, due to its flexibility and resilience, touches on any unevenness of the building wall 1 so that any recesses are filled and all cavities that adversely affect the thermal resistance of the insulation are removed from the cladding. Since the soft foam layer 10 is damp due to the application of a thin adhesive or other adhesive in the material, it adheres better to the wall surface 1 of the building than in a dry state. Upon drying or curing of the adhesive, stabilization of the soft foam layer 10 is achieved, since it loses its original softness and elasticity and becomes substantially hard and hence shape stable. The panels 2 thus fixed remain non-sliding in position and their thickness cannot be changed after the adhesive has hardened, so that at the point of contact of two adjacent panels 2, no steps can occur as with other layers of flexible foam material which change your volume.

As glue, it is advantageous to use waterglass, and in any case it is preferred to use an adhesive whose viscosity is, as with water, low. Additives that affect the resulting properties of the tiles 3, in particular fire-retardants, may be added to the adhesive used.

It is to be understood that the cladding panels 3 according to the invention need not be provided with an outer sheath 9, or other modifications can be made to the construction of the cladding panels 3 which do not relate to the soft foam layer 10 and its attachment to the walls 1 of the building.

The soft foam layer 10 and the remainder of the cladding panel 3, i.e. in the illustrated embodiment, the heat insulating core 8, are joined together by foaming the foam material. The soft foam layer 10 covers the entire surface of the cladding panel 3, so that when the cladding panels 3 are fitted together, no joint is formed between them.

The heat insulating core 8 can in principle also be made of other materials having thermal insulating properties, such as cork, wood and the like.

Claims (4)

PATENT CLAIMS Method for fastening the panels, in particular to the outside of a building wall, wherein the facing panels facing the building wall have a firmly attached layer of soft foam, in particular polyurethane, which is adhered to the building wall, characterized in that before laying the tiles on the wall of the building, the soft foam layer (10) on the still separated tiles (3) is at least largely saturated with a thin adhesive, after which the tiles (3) with the soft foam layer (10) are applied and presses against the wall (1) of the building when the soft foam layer (10) is pressed against the building wall (1) and the adhesive is allowed to dry or cure in the compressed state of the soft foam layer (10) so that the soft foam layer (10) is not only glued to the wall (1) of the building, but it becomes shape-stable and inelastic due to the curing of the adhesive nou. Method according to claim 1, characterized in that a fire-fighting additive is admixed with the adhesive. Method according to claim 1 or 2, characterized in that a water-based adhesive is used. Method according to at least one of Claims 1 to 3, characterized in that waterglass is used as the adhesive.