DE9422214U1 - Facade insulation board 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

Facade insulation board made of mineral wool, especially for
Thermal composite systems and ventilated facades

The invention relates to a facade insulation panel made of mineral wool according to the generic term of claim 1, in particular a thermal composite system and a ventilated facade.

For the thermal and acoustic insulation of facades, insulation panels made of mineral wool are often used. These are glued to the building facade and secured using dowel-like fastening elements, after which single or multi-layer plaster systems are applied, if necessary with plaster reinforcement fabrics in between. The thermal composite systems made up of insulation panels and single or multi-layer plaster systems have proven themselves in practice. However, depending on the height of the building to be clad with the thermal composite system and the stress caused by external influences, such as wind stress and the like, special precautions must be taken. With correspondingly high building facades, one difficulty is that, in particular, wind suction forces acting on the plaster shell, which

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are transferred directly to the insulation board, which can lead to the insulation boards lifting off the building façade or the plaster lifting off the insulation board in some areas. To overcome these problems, dowels are placed on site at specific intervals in a vertical and horizontal direction. In order to prevent the insulation boards from tearing off between the fastening elements and the plaster shell from lifting off the insulation layer, the insulation boards are therefore often designed for increased mechanical strength in such a way that this extends to the entire board structure. However, this leads to a relatively large amount of material being used and thus to an increase in the weight of the insulation boards to be installed. For this reason, so-called bi-density boards, which are mechanically strengthened on one side, are increasingly being used, for example in flat roof construction. Such a bi-density panel (EP-A 0 277 500) is produced, for example, by splitting the primary fleece into two or more partial webs before the hardening oven and lifting at least one partial web, strongly compressing it while aligning the fibers and then feeding it back to the remaining partial web(s) and then hardening them together in the hardening oven. Apart from the fact that insulation panels specially prepared in this way to increase their inherent rigidity make thermal composite systems more expensive, for example, which have to compete on the market with cheaper insulation products such as those made of polystyrene particle foam, this does not reliably prevent the problem of the insulation panels lifting off the building facade as a result of high wind suction loads, particularly in the case of high building facades. The use of such specially prepared insulation panels can therefore lead to corresponding damage to the applied plaster system after a long period of inactivity, with corresponding claims for compensation.

The object of the invention is to provide a simply constructed, easy to handle facade insulation board with improved thermal insulation properties based on mineral wool

to create a system that prevents the building façade from being lifted off or torn off, particularly as a result of external wind suction forces, even when using conventional fastening elements.

This object is achieved according to the invention by the features contained in the characterizing part of patent claim 1, whereby expedient further developments of the invention are characterized by the features contained in the subclaims.

According to the invention, the insulation board is covered with a coarse-mesh structure that is matched to the fastening dowels, which serves as a button-off protection for the fastening means and improves the adhesion of the plaster layer to the insulation board. This prevents the insulation boards from lifting or tearing off the facade, even under high wind suction loads. The use of such a coarse-mesh structure on the main surface of the insulation board does not make installation more difficult in any way compared to simple insulation boards. The button-off protection can be applied directly on site when the insulation board is applied, but the insulation boards can be delivered from the factory with the coarse-mesh structure. Another very important aspect of the measures according to the invention is that the minimum strength of the insulation board can be significantly reduced as a result of the buttoning protection, which leads to correspondingly low raw densities of the insulation board, a reduced board weight and, due to a higher thermal resistance, also to a reduced layer thickness of the overall system, since the coarse-mesh structure serving as buttoning protection enables a surface load transfer. Overall, the coarse-mesh structure in combination with the installed dowel heads acts as a load-distributing layer on the insulation boards, which absorbs the wind suction loads, which enables a significant reduction in the strength of the insulation boards.

A lower density of the insulation panels increases the soundproofing effect and makes handling easier when cladding a building facade. It is possible to produce the insulation panels with a density of 80 to 160 kg/m², preferably 100 to 130 kg/m², which means that the thermal insulation composite system meets the thermal conductivity group 035 specified by DIN.

The reduced layer thickness of the entire system results in savings for the system provider through reduced external wall elements (e.g. window sills, roof overhangs, etc.) and system components (narrower end profiles, etc.), which increases the competitiveness of facade insulation panels made on the basis of bound mineral wool compared to pure plastic products.

Due to the lower bulk density, the facade panel according to the invention is more elastic than fiber insulation panels that have been specially prepared for mechanical strength, which in turn brings with it corresponding advantages in panel construction, especially in bridging joints. Furthermore, such panels adapt better to an uneven subsurface. Tensions in the subsurface are also less transferred to a softer panel, which therefore reduces the formation of cracks.

The coarse-mesh structure is advantageously formed by a mesh fabric made of synthetic yarns or glass, which, in combination with the lower density of the insulation board, also has a weight-reducing effect. In a practical embodiment, the mesh width of the coarse-mesh structure is at least 10 mm.

The invention is particularly suitable for the cladding of building facades with regard to heat and sound insulation, whereby the use of the insulation panels for thermal insulation systems for

building facades but also for ventilated facades on buildings.

The insulation board according to the invention is thus characterized by easy handling, low density and very high transverse tensile strength and does not require any additional effort in terms of production technology.

A preferred embodiment of the invention is described below with reference to the drawings.

i^ ¹ Fig. 1 is a perspective schematic view of an embodiment of a facade insulation panel for a thermal insulation system according to the invention and

Fig. 2 is a view of insulation panels attached to a facade without plaster layers.

Fig. 1 shows an insulation board 1 made of bonded mineral wool, which is used for heat and sound insulation of building facades. The insulation board 1 forms a thermal composite system with a multi-layer plaster system. On the side of the insulation board 1 facing away from the building facade, a mesh fabric 2 is applied, which serves as a button ^- on security for fastening means by which the insulation board 1 is attached to the building facade before the plaster is applied. In the embodiment shown, the fastening means is formed by a dowel 3, the dowel head of which is correspondingly larger in relation to the mesh size of the mesh 2, so that the dowel head overlaps the mesh of the mesh 2, so that the mesh 2 cannot be lifted or torn outwards, i.e. away from the building facade, with respect to the insulation board 1, even in the case of the strongest wind suction loads.

4 designates a base coat applied to the insulation board 1 after its attachment to the building façade, on which

on which a reinforcement fabric 5 is arranged, after which the final plaster is applied in one or more layers with appropriate plaster embedding of the reinforcement fabric 5. The final plaster is designated here with 6.

Fig. 2 shows the insulation panels attached to the building façade using dowels 3 before the plaster is applied, with the insulation panels placed abutting against one another and arranged in rows offset from one another. The insulation panels are usually attached to the building façade using adhesive. They are then attached using dowels 3 and finally the plaster is applied, with the dowel arrangement itself only being shown as an example here.

The mesh fabric 2, which is expediently made of synthetic yarns or glass, spans the entire main surface of the insulation panel 1 facing away from the building façade and can be laminated onto the insulation panel 1 or applied on site.

Claims (10)

-7-CLAIMS FOR PROTECTION 1. Facade insulation board made of mineral wool, in particular for thermal composite systems made of insulation boards and a multi-layer plaster system applied thereon, rear-ventilated facades and the like, in which the insulation boards are fastened to the substrate by means of dowels with heads or similar fastening elements, characterized by a button-off safety device for the fastening dowels made of a coarse-mesh structure spanning the main surface of the insulation board. 2. Insulating panel according to claim 1, characterized in that the size of the dowel heads penetrating the coarse-mesh structure and the mesh width of the structure are coordinated with one another in such a way that the dowel heads each overlap the individual meshes of the coarse-mesh structure. 3. Insulating board according to claim 1 or 2, characterized in that the coarse-meshed structure is laminated onto the insulating board or applied to the insulating board on site. 4. Insulation board according to one of the preceding claims, characterized in that the density of the insulation board can be determined according to the thermal conductivity group specified by DIN 035 by means of the coarse-meshed structure which distributes the load and increases the strength in conjunction with the insulation board and the dowel. 5. Insulating panel according to one of the preceding claims, characterized in that the coarse-meshed structure is formed by a mesh fabric made of synthetic yarns or glass. 6. Insulating panel according to one of the preceding claims, characterized in that the mesh size of the coarse-meshed structure is at least 10 mm. 7. Insulation board according to one of the preceding claims, characterized in that the coarse-meshed structure has a minimum tear strength of at least 0.5 kN/5cm. 8. Insulating board according to one of the preceding claims, characterized in that the insulating board is made of bound mineral wool and has a bulk density of 80 to 160 kg/m ³ , preferably 100 to 130 kg/m ³ . 9. Thermal composite system for building facades, formed from insulating panels and multi-layer plaster systems applied thereto, characterized by the use of facade insulation panels according to one of the preceding claims. 10. Ventilated facade on buildings characterized by the use of facade insulation panels according to one of claims 1 to 8.