DE20006112U1 - Building wall - Google Patents

Abstract

The invention relates to a wall of a building, especially an outer wall of a building. The inventive wall consists of a support structure (1) which is provided with at least two essentially horizontal longitudinal girders (2) and at least two essentially vertical transversal girders. Said girders are connected to one another in assemblage points. Said wall is provided with a planking (4, 5) on at least one side of the longitudinal and transversal girders. A heat and/or sound absorbing layer (3) is arranged between the longitudinal and transversal girders. The aim of the invention is to improve such a wall of a building with respect to the humidity resistance thereof, the sound absorbing values, the security against pests and the heat penetration resistance thereof. The aim of the invention is also to more simply produce such a wall. A water-diverting layer (7), especially in the form of a foil, that is open to diffusion and is covered by a heat and/or sound absorbing layer (8) is arranged directly on the planking (5) which is situated outside.

Description

Building wall

The invention relates to a building wall, in particular an external building wall, consisting of a supporting structure which has at least two substantially horizontally aligned longitudinal beams and at least two substantially vertically aligned cross beams which are connected to one another at nodes and have a panelling on at least one side of the longitudinal and cross beams, wherein a heat and/or sound insulation layer is arranged between the longitudinal and cross beams.

Such building walls are known from the prior art. As a rule, such building walls have a support structure made of wood. The support structures consist of longitudinal and transverse beams, whereby several longitudinal or transverse beams can be provided depending on the length or height of the building wall. In comparison to conventional half-timbered structures, such support structures are not sufficiently stable in structural terms, so that at least one paneling must be provided to statically stiffen the support structure. A thermal and/or sound insulation layer is provided between the longitudinal and/or transverse beams. Such thermal and/or sound insulation layers are generally not suitable for improving the structural stability of such building walls, since conventional thermal and/or sound insulation materials cannot withstand pressure or tension, or can only withstand it to a limited extent. Since the standard cross-sections of wooden structures are in the range of approx. 8 to 10 cm, the thermal and/or sound insulation layer arranged between this planking is usually not sufficient to achieve the required sound insulation values or the required thermal resistance.

Based on this state of the art, the invention is based on the task of designing a generic building wall with regard to its moisture resistance, sound insulation values and security against pests and with regard to its

to improve the thermal resistance and at the same time to simplify the structural design of such a building wall with regard to its processing.

To solve this problem, it is intended that a water-draining and diffusion-open layer, in particular in the form of a film, is arranged directly on the external paneling and covered by a heat and/or sound insulation layer.

&iacgr;&ogr; Accordingly, the design of a generic building wall according to the invention has an additional heat and/or sound insulation layer, which is arranged on the outside planking with an interposition of a water-draining and diffusion-open layer. This water-draining and diffusion-open layer, which is preferably designed as a film, protects the support structure, i.e. the longitudinal and transverse beams, from the passage of moisture and wood pests. This has the advantage that the wooden support structure is durable. There is also the advantage that extensive impregnation measures on the part of the wooden support structure according to DIN 68800 can be dispensed with. The arrangement of the water-draining and diffusion-open layer directly on the planking has the advantage that the water-draining and diffusion-open layer is essentially protected from damage, for example when the building wall is assembled by anchors or the like. This eliminates the need for complex fastening measures for the film, which would otherwise be arranged on the surface of the additional external insulation. Furthermore, the water-draining and vapor-permeable layer can already be provided on large-area paneling at the factory, so that when the building wall is installed, only the joint areas where paneling panels meet one another need to be additionally covered with a water-draining and vapor-permeable film or sealed with an overlap.

According to a further feature of the invention, the layer has a diffusion-equivalent air layer thickness S _D < 0.5 m, in particular < 0.2 m. With these values, reliable protection of the supporting structure, but also of the planking, which can also consist of wood materials, is achieved.

The support structure preferably has planking on both sides so that the first heat and/or sound insulation layer is completely enclosed in the building wall. The building wall can consist of individually erected elements, each of which has a support structure and two plankings with a heat and/or sound insulation layer arranged in between. Alternatively, the building wall can be constructed on site from its individual components. However, as prefabricated house construction increases, the first-mentioned design of the building wall is of particular economic importance.

For optical reasons and to protect against weather influences and damage, an outer shell, in particular in the form of masonry, can be arranged in front of the external paneling. This masonry can be provided with an outer layer of plaster, for example. Consequently, the heat and/or sound insulation layer arranged on the water-draining and diffusion-open layer is covered by the outer shell. The outer shell can be arranged at a distance from the heat and/or sound insulation layer in order to form an air gap through which moisture can be discharged. The distance between the outer shell and the heat and/or sound insulation layer is less than 10 cm, in particular less than 6 cm, and has a size of at least 2 cm. The distance between the outer shell and the heat and/or sound insulation layer is therefore preferably between 2 and 6 cm. The outer shell is connected to the external paneling via spacer elements that are connected to the external paneling and penetrate the heat and/or sound insulation layer. It has proven advantageous to

water-draining and diffusion-open layer directly to the planking. In particular, gluing this layer to the planking is advantageous. The gluing can be done both over the entire surface or partially and can be carried out in the factory. This prevents damage to this water-draining and diffusion-open layer during the usual bricklaying of the outer shell and its anchoring to the insulation layer or to the planking, for example by means of anchors, but also in particular when correcting the correct arrangement of the water-draining and diffusion-open layer. Furthermore, the structural design of the building wall according to the invention enables faster construction progress to be achieved, which significantly improves the cost-effectiveness of such a building wall compared to the prior art.

The panelling consists of statically effective elements. Solid wood, wood materials in the form of synthetic resin or cement-bonded chipboard, panels made of aerated lightweight concrete, plasterboard and/or gypsum fibreboard are particularly suitable. Mineral fibre products, in particular rock wool products, are intended as a heat and/or sound insulation layer.

Finally, according to a further feature of the invention, a wind-blocking and in particular vapor-retarding layer in the form of a film, cardboard and/or paper is arranged between the interior, primarily the room-side paneling and the supporting structure. This vapor-retarding layer prevents air from flowing in and out through the wall construction and thus energy loss and condensation damage in the area of the building wall.

Further features and advantages of the invention will become apparent from the following description of the accompanying drawing, in which a preferred embodiment of a building wall according to the invention is shown.

The building wall consists of a supporting structure 1, which has vertically running cross beams (not shown in detail) and horizontally aligned longitudinal beams 2 made of wood connected to the cross beams at nodes. A thermal and sound insulation layer made of rock wool is arranged between the longitudinal beams 2 and fills the space between the longitudinal beams 2 and the flanking cross beams.

The support structure 1 is completely covered on both sides with a planking made of wooden panels. The planking consists of an inner planking 4

&iacgr;&ogr; and an outer planking 5, wherein the outer planking 5 is applied directly to the longitudinal beams 2 and the cross beams (not shown in detail) of the support structure 1, while the inner planking 4 is attached to the longitudinal beams 2 and the cross beams (not shown in detail) of the support structure 1 with the interposition of a wind-blocking and vapor-retarding layer 6 consisting of a film.

The supporting structure 1 together with the inner and outer planking 4 and 5 forms a statically stable building wall.

A water-draining and diffusion-open layer 7 with a diffusion-equivalent air layer thickness S _D of 0.15 m is applied directly to the outer paneling 5. This water-draining and diffusion-open layer 7 is attached or glued to the outer paneling 5, with the adhesive layer being formed over part of the surface. A plastic film is provided as the water-draining and diffusion-open layer 7.

A heat and sound insulation layer 8 in the form of rock wool panels is applied to the water-draining and diffusion-open layer. The rock wool panels can be glued to the water-draining and diffusion-open layer 7 or attached in another way. For example, profile elements can also be provided for this purpose, which are screwed to the outer paneling 5 and designed to engage in the rock wool panels.

The heat and sound insulation layer 8 is penetrated by a plurality of spacer elements 9, which connect an outer shell in the form of a masonry with the outer paneling 5.

Claims (11)

1. Building wall, in particular an external building wall, consisting of a supporting structure which has at least two essentially horizontally aligned longitudinal beams and at least two essentially vertically aligned cross beams which are connected to one another at nodes and which has a planking on at least one side of the longitudinal and cross beams, wherein a heat and/or sound insulation layer is arranged between the longitudinal and cross beams, characterized in that a water-draining and diffusion-open layer ( 7 ), in particular in the form of a film, covered by a heat and/or sound insulation layer ( 8 ) is arranged directly on the external planking ( 5 ). 2. Building wall according to claim 1, characterized in that the layer ( 7 ) has a diffusion-equivalent air layer thickness S _D ≤ 0.5, in particular < 0.2. 3. Building wall according to claim 1, characterized in that the supporting structure ( 1 ) has planking ( 4 , 5 ) on both sides. 4. Building wall according to claim 1, characterized in that the heat and/or sound insulation layer ( 8 ) is arranged between the layer ( 7 ) and an outer shell ( 10 ), in particular a masonry. 5. Building wall according to claim 1 or 3, characterized in that the planking ( 4 , 5 ) consists of statically effective elements, in particular of solid wood, wood materials in the form of synthetic resin- or cement-bonded chipboard, panels made of aerated lightweight concrete, plasterboard and/or gypsum fiberboard. 6. Building wall according to claim 1 or 3, characterized in that a wind-blocking and in particular vapor-retarding layer ( 6 ) in the form of a film, cardboard and/or paper is arranged between the inner paneling ( 4 ) and the supporting structure ( 1 ). 7. Building wall according to claim 4, characterized in that the outer shell ( 10 ) is arranged at a distance from the heat and/or sound insulation layer ( 8 ). 8. Building wall according to claim 7, characterized in that the distance between the outer shell ( 10 ) and the heat and/or sound insulation layer ( 8 ) is < 10 cm, in particular between 2 and 6 cm. 9. Building wall according to claim 4, characterized in that the outer shell ( 10 ) is connected to the external paneling ( 5 ) via spacer elements ( 9 ). 10. Building wall according to claim 1, characterized in that the layer ( 7 ) is attached, for example glued, directly to the planking ( 5 ). 11. Building wall according to claim 1, characterized in that the heat and/or sound insulation layer ( 2 , 8 ) consists of mineral fiber products, in particular rock wool products.