DE4416536C5 - Facade with insulation panels made of mineral wool, especially for thermal composite systems and ventilated facades - Google Patents

Abstract

The insulating plates are fixed to the supporting structure by dowels or similar fastening systems. To prevent the fixing dowel from coming out, the insulating plate has a large-mesh structure spanning the main surface of the plate. The size of the dowel heads engaging through the mesh as well as the mesh width of same are matched with each other so that the dowel heads engage over the individual mesh. The mesh structure can be formed by a woven grid of synthetic yarn or glass. <IMAGE>

Description

The invention relates to a facade with insulation boards made of mineral wool according to the generic term of claim 1.

For thermal and acoustic insulation of facades, mineral wool insulation boards are often used, which are glued to the building facade and fastened by means of dowel-like fastening elements, after which single- or multi-layer plaster systems, possibly with the interposition of plaster-covering fabrics, are applied. The resulting heat composite systems made of insulation board and single or multi-layer plaster system have proven their worth in practice. However, depending on the height of the structure to be clad with the thermal composite system and stress from external influences, such as wind stress and the like, special precautions must be taken. With correspondingly high building facades, there is a difficulty that, in particular due to wind suction forces acting on the plaster shell, which are transferred directly to the insulation board, the insulation boards can be lifted from the building facade or the plaster from the insulation board in some areas. To solve these difficulties, the dowels are placed in the vertical and horizontal directions at certain intervals. In order to prevent the insulation panels from tearing off between the fastening elements and lifting the plaster shell from the insulation layer, the insulation panels are therefore often designed for increased mechanical inherent strength, in such a way that it extends over the entire panel structure. However, this leads to a relatively large amount of material and thus to an increase in weight of the insulation boards to be installed. For this reason, z. B. in flat roof construction so-called bi-density plates are used, which are mechanically solidified on one side. Such a bi-density plate ( EP-A 0 277 500 ) is produced, for example, by splitting the primary fleece in front of the curing oven into two or more partial webs and lifting off at least one partial web, compressing it strongly while aligning the fibers and then feeding it back to the other partial webs and then curing them together in the curing oven. Apart from that, such specially prepared insulation boards for increasing the inherent rigidity. B. Increasing the cost of composite heating systems, which have to compete with cheaper insulation products on the market, such as those made of polystyrene particle foams, the problem of lifting the insulation panels from the building facade due to high wind suction loads is not reliably avoided, especially with high building facades. The use of such specifically Reconditioned insulation boards can therefore lead to corresponding damage in the applied plaster system after long periods of inactivity with appropriate recourse claims.

With a facade of the generic type ( DE-U 85 12 251 ) Glass or stone wool insulation panels attached to a building wall by dowels are spanned with a wire mesh, which is fixed to the insulation material and the building wall by means of specially designed dowels with a plate head. The wire mesh is defined by a ring collar serving as a spacer at a defined distance from the Insulation boards held. This fixes the wire mesh at a distance from the insulation boards and the building wall, but the insulation boards are still fixed at certain points using dowels on the building wall. It is disadvantageous here that the insulation boards can lift off or tear out under high wind loads, so that a button release is not guaranteed. Rather, the cleaning grid arranged at a defined distance serves solely to reinforce a plaster layer to be applied, whereby due to the arrangement of the cleaning grid described at a distance from the insulation boards, no force is distributed over the entire insulation board and thus no securing against knocking out is guaranteed. Furthermore, it is disadvantageous that the fastening of both the insulation boards and the plastering grid special fastening devices must be used.

The object of the invention is a Facade with insulation boards to create from mineral wool that is simple and light is to be created, taking off or tearing off the building facade as a result of external wind suction forces in particular Use conventional Fasteners should be avoided.

This object is achieved by the Features contained in claim 1 solved, expedient further developments the invention characterized by the features contained in the dependent claims are.

According to the invention, the insulation board with one on the fixing dowels coordinated laminated coarse-meshed structures, which as a button release the fastener is used and the adhesion of the plaster layer the insulation board This improves lifting even under high wind suction loads or pulling out the insulation boards prevented from the facade The assembly is by the use of such coarse-meshed structure arranged on the main surface of the insulation board versus simple insulation boards in any way complicated.

Another very important aspect of the measures according to the invention can be seen in the fact that the minimum strength of the insulation board can be considerably reduced as a result of the button release, which leads to correspondingly low bulk densities of the insulation board, to a reduced board weight and furthermore to a reduced thermal resistance Layer thickness of the overall system leads, since a large-area load transfer is possible via the large-mesh structure serving as a button release.Overall, the large-mesh structure together with the inserted dowel heads acts as a load-distributing layer on the insulation boards, which also absorbs the wind suction loads, which enables a significant reduction in the insulation board strength ,

The soundproofing effect can be increased by a lower bulk density of the insulation panels and overall the handling when cladding a building facade is easier. It is possible to manufacture the insulation boards with a bulk density of 80 to 160 kg / m ^3, preferably 100 to 130 kg / m ³ , whereby the thermal composite system meets the thermal conductivity group 035 specified by DIN.

Due to the reduced layer thickness of the overall system result for offers the system savings through reduced outer wall elements (for example Windowsills, Roof overhangs u. the like.) what competitiveness facade insulation panels made on the basis of bound mineral wool increased compared to pure plastic products.

Due to the lower bulk density the facade slab according to the invention compared to specifically in terms of mechanical strength prepared fiber insulation panels more elastic, which in turn is the case with the panel construction, especially when bridging the joints brings with it corresponding advantages It is better to slab an uneven surface with the tension of the surface are also less transferred to a softer plate, which in turn leads to the formation of cracks decreases.

The coarse-meshed structure is advantageous formed by a mesh made of synthetic yarn or glass, soft in combination with the lower bulk density of the insulation board weight-reducing effect In an expedient embodiment, the mesh size is coarse-meshed structure at least 10 mm.

Below is a preferred one embodiment described the invention with reference to the drawings. In it show:

1 a perspective schematic view of a facade insulation board for a thermal composite system and

2 a view of an insulation board attached to a facade without plaster layers.

In 1 is an insulation board 1 made of bound mineral wool, which is used for thermal and acoustic insulation of building facades 1 forms a heat composite system with a multi-layer plaster system. On the side of the insulation board facing away from the building facade 1 is a mesh 2 applied, which serves as a release button from fasteners through which the insulation board 1 is attached to the building facade before the plaster is applied. In the illustrated embodiment, the fastener is a dowel 3 formed, the dowel head in relation to the mesh size of the grid 2 is correspondingly larger, so that the dowel head into the mesh of the grid 2 overlaps, hence the grid 2 regarding the insulation board 1 Even with the strongest wind suction loads, it cannot be lifted or torn off to the outside, i.e. away from the building facade.

With 4 is one on the insulation board 1 after they have been attached to the building facade, applied basic plaster, on which a reinforcing mesh 5 is arranged, after which the final plaster is finally one or more layers with appropriate plaster embedding of the reinforcing fabric 5 is applied. The final plaster is here 6 designated.

2 shows the on the building facade using dowels 3 Fastened insulation boards before applying the plaster, whereby the insulation boards placed against one another in a row are staggered in a row in connection with each other. Usually, the insulation boards are attached to the building facade by gluing 3 and finally the application of the plaster, whereby the dowel arrangement itself is only shown as an example.

The mesh fabric 2 , which is expediently formed from synthetic yarns or glass, spans the entire main surface of the insulation board from the building facade 1 and on the insulation board 1 laminated.

Claims (7)

Facade with insulation boards made of mineral wool, for ventilated Facades and thermal composite systems with on the insulation boards applied multi-layer plaster system, in which on a base plaster a reinforcing fabric is arranged in which the insulation boards by means of heads showing dowel o. Fasteners are attached to the ground, thereby characterized that for Ausknöpfsicherung of the fastening elements, a coarse-mesh, laminated onto the insulation board, the main surface structure spanning the insulation board is provided with the heads the fasteners the coarse-meshed structure and thus the insulation boards hold on to the ground. Facade according to claim 1, characterized in that the size of the by dowel heads or the like which grasp the coarse-mesh structure and the mesh size of the structure are so matched to one another that the dowel heads or the like of the coarse-meshed structure. Facade according to one of the preceding claims, characterized in that by or in the combination with the insulation board and the dowel. Fastening element, load-distributing and strength-increasing coarse-meshed structures, the density of the insulation board can be determined according to the thermal conductivity group 035 specified by DIN Facade according to one of the preceding claims, characterized in that this coarse-meshed structures through a mesh made of synthetic yarns or glass is formed. Facade according to one of the preceding claims, characterized in that the The mesh size of the coarse-meshed structure is at least 10 mm. Facade according to one of the preceding claims, characterized in that this coarse-meshed structures have a minimum tensile strength of at least 0.5 kN / 5cm. Facade according to one of the preceding claims, characterized in that the insulation board is formed from bound mineral wool and has a bulk density of 80 to 160 kg / m ³ , preferably 100 to 130 kg / m ³ .