DE29614723U1 - House building board - Google Patents

Description

ISOBOARD 13 August 1996

Property development and sales company
mbH iG

12101 Berlin

ISB46.G1

House building board

Description

The invention relates to a building board for the construction of buildings of the type specified in the preamble of claim 1.

It is known that prefabricated wall constructions are increasingly being used for the construction of buildings.

ISB46.G1 Sheet 2

zen which, in terms of their building physics properties, in particular the thermal insulation value and the water vapor diffusion behavior ^, are at least equal to the enclosing structures built using conventional construction methods5 or surpass them in essential parameters.

Prefabricated wall or roof structures usually have load-bearing elements that absorb the forces acting on them, including in particular shear stresses, which are clad on both sides, with a thermal insulation material being provided in the cavity delimited by the cladding elements and the load-bearing elements. The outer surfaces of the wall structure are usually clad on the one hand with an insulating panel that supports the external plaster and on the other hand with a plasterboard panel that faces the interior and can be wallpapered. In order to avoid undesirable vapor diffusion, a vapor barrier made of a plastic film is provided, preferably on the cladding panel facing inwards.

From DE-OS 44 06 878, an improved house construction wall element with a supporting frame is known, which is clad on both sides with flat-pressed chipboard. In the space between the flat-pressed chipboards, a layer of mineral wool is provided on one of the flat-pressed chipboards, which is thinner than the distance between the flat-pressed chipboards, so that an enclosed air space is created. A plate made of a porous heat storage material and a plasterboard are attached to the flat-pressed chipboard arranged on the inside of the building in the assembly position of the wall element. The flat-pressed chipboard is arranged on the inside of the building in the assembly position of the wall element.

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Sheet 3

The flat chipboard on the outside of the building supports a hard foam board that serves as thermal insulation. This is attached with an elastic adhesive and plastered on the outside. By using a porous, air-permeable heat storage material on the inside of the wall element, the use of a conventional vapor barrier can be dispensed with.

The solution described above for a wall element suitable for the construction of buildings has the disadvantage that, on the one hand, due to the arrangement of a soft and flexible layer of mineral wool between the flat-pressed chipboards and, on the other hand, the presence of the air-filled cavity between the mineral wool layer and the flat-pressed chipboard on the outside in the assembly position, the volume of space between the flat-pressed chipboards does not contribute to the strength and static load-bearing capacity of the wall element.

It is therefore necessary to dimension the supporting structure in a material-intensive and cost-intensive manner so that it alone guarantees the statics of the building. Due to the space required by the supporting structure, this in turn comes at the expense of thermal insulation - at least in part.

Based on the deficiencies of the prior art, the invention is based on the task of providing a constructive solution for a house building panel of the type mentioned at the beginning, which is characterized by a high shear strength and static load-bearing capacity.

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Sheet 4

This object is solved with the features of claim 1.

The invention includes the knowledge that the strength and mechanical load-bearing capacity of a multi-layered, heat-insulating building board for the construction of buildings can be increased in a simple and at the same time advantageous manner if the individual layers, in particular the inner layer carrying the main part of the heat insulation and the cover plates enclosing it and capable of withstanding high mechanical loads, are firmly connected to one another. This advantageous effect can be further enhanced if the inner layer intended for the heat insulation consists of a relatively pressure-resistant material.

According to a preferred embodiment of the invention, the building board for the construction of buildings has two wood-based panels, preferably flat pressed chipboard, which are held at a constant distance from one another by support elements which extend essentially vertically in the position of use and are designed as squared timber or as a wooden board with its surface oriented perpendicular to the surface extension of the building board. Between these is arranged a polyurethane layer which is foamed under CO ₂ gas pressure and has an adhesion promoter. The contacting surfaces of the polyurethane layer and the respective flat pressed chipboard of this laminated body form an adhesive bond which is resistant to shear stress.

Such an adhesive bond advantageously achieves a high

ISB46.G1 Sheet 5

mechanical, especially static, load-bearing capacity of the wall element is ensured. The layered body and the support elements are equally capable of absorbing the mechanical forces - especially the shear stresses - that occur in the outer skin of a building.

After the construction of a building, the flat press chipboard of the building board according to the invention, which is located on the inside in the position of use, can be covered with a plasterboard prepared for wallpapering. The outer side of the building board in the assembly position can be covered with a thermal insulation board, preferably made of polyurethane, after the construction of the building, whereby gluing to the corresponding flat press chipboard is advantageous for assembly purposes. The polyurethane thermal insulation board serves as a carrier for a mineral exterior plaster.

Thanks to the chosen structure, the use of a separate vapor barrier is no longer necessary.

According to a favorable development of the invention, the polyurethane layer contains renewable raw materials, preferably sugar and/or a vegetable oil, as an adhesion enhancer. This can significantly increase the shear strength of the composite compared to the use of pure PU foam and also increases the compressive strength of the insulation layer and thus of the overall structure.

A particularly good adhesion is achieved if, according to another development of the invention, the

ISB46.G1

Sheet 6

initial mass within the cavity between the

Polyurethane layer provided for flat pressboards 25%

up to 40%, preferably 3-3%, of a mixture of sugar and rapeseed oil.

According to a further advantageous embodiment of the invention, the outer side of the laminated body, which is formed from two flat chipboards with an internal, adhesively bonded polyurethane core, is covered with an additional PUR external insulation board or a polystyrene or mineral wool board, onto which a mineral plaster can be applied.

According to the preferred embodiment of the invention, support elements of the same design are provided between the two flat chipboards of the laminated body in such a way that a tongue is present on one long side of the wall element and a groove-shaped recess with dimensions corresponding to the tongue is present on the corresponding opposite long side.

This design of the building board advantageously enables particularly easy assembly on the building site, as the individual wall elements, which are positioned in the same position using a lifting device, can be connected to one another on their long sides by simply plugging them into one another. Nailing at the joint between two adjacent wall elements secures the respective plug-in connection. The joints between the individual building boards are covered on the outside by an insulating layer with a mineral plaster and on the inside by plasterboard that can be wallpapered.

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Advantageous further developments of the invention are characterized in the subclaims or are presented in more detail below together with the description of the preferred embodiment of the invention using the figures. They show:

Figure 1 shows the view of the section transverse to the longitudinal axis through a preferred embodiment of the invention,

Figure 2 shows a partial area of a building façade formed from building panels according to Fig. 1 and

Figure 3

the partial view of a cross section through a building wall formed from wall elements according to the invention.

The view of a cross section through a building board according to the invention shown in Figure 1 shows a laminated body 1 which has two similarly designed flat-pressed chipboards 4 and 5 enclosing a core layer 8 made of polyurethane. The flat-pressed chipboards are held at a relative distance from one another by the support elements 2 and 3. The support elements 2 and 3, the flat-pressed chipboards 4 and 5 and two closure parts (not shown) delimit a volume in which the polyurethane core 8 is produced by foaming a urethane mass containing organic additives to improve adhesion. Rapeseed oil and sugar are provided as additives, which are contained together in the urethane mass in a ratio of 1 to 3.

ISB46.G1 Sheet 8

The foaming of the liquid urethane mass takes place under CO ₂ pressure in a separate mold that holds the panels 4, 5 connected by the support elements 2, 3 in order to ensure the flatness of the building panel. The volume of space to be filled by the foam is preheated to 45. The foaming takes 3 to 8 seconds. The finished house building panel 1 is removed from the mold after about 15 to 20 minutes.

At the surface sections marked 14, 15, 16 and 17, after foaming, a strong adhesive bond is created between the polyurethane foam layer 8 and the flat chipboards 4, 5 or the support elements 2, 3, which ensures a particularly high mechanical load-bearing capacity of the building board 1.

In Figure 2, the corner area of a building facade 10 formed from building panels 1 according to the invention is shown in schematic form.

The tongue and groove design on the long sides of the building panels 1 allows the individual building panels 1, which are at the same height, to be plugged together. The corner pillar 9 also has tongues which engage in the corresponding grooves of the building panels l in such a way that a flat outer front is created during assembly.

The plug connection between the individual building panels 1 or between the building panels 1 and the corner pillar 9 is secured by hammering in nails (compare position 18 in Figure 3).

ISB46.G1 Sheet 9

Figure 3 shows a partial view of a cross section through a building wall 10' formed from building panels 1 according to the invention.

The building panels 1, which are put together in a tongue and groove combination, are fixed in their position by nailing 18 on both sides. The joints between the adjacent building panels 1 after they have been put together are covered on the inside of the building by planking

Plasterboard panels 13 are laminated. On the outside of the building, the joints are covered by a thermal insulation layer 11 made of mineral wool or polyurethane foam. The insulation layer II also serves as a carrier for a mineral plaster 12.

The polyurethane foam layer 8 of the building board 1 described as an example has a thickness of 110 mm, the material thickness of the flat pressed chipboards 4, 5 used is 15 mm. With a 12.5 mm thick plasterboard 13 and an external insulation board 11 of 20 mm thickness, the total thickness of the plastered wall is about 180 mm. The wall has a K value of 0.20 W/m ² k.

The invention is not limited in its implementation to the preferred embodiment given above. Instead, a number of variants are conceivable which make use of the solution presented even in fundamentally different embodiments.

Claims (12)

ISB46.G1 Sheet 10 Claims 1. House building board (1), in particular house building wall element, with a first and a second, spaced apart from the first, wood material board and a thermal insulation layer (8) arranged in the spaced area between the wood material boards (4, 5), characterized in that the thermal insulation layer (8) is designed as a polyurethane foam layer that completely fills the spacing area and adheres to the inner and outer wood-based panels (4, 5) in such a way that the wood-based panels (4, 5) and the polyurethane foam layer (8) form a shear-stress-resistant adhesive bond. 2. House building board according to claim 1, characterized in that in the area of at least two opposite edges a squared timber (2, 3) extending between the first and second wood material board (4, 5) or a wooden board oriented with its surface perpendicular to the surface extension of the building board is inserted. 3. House building board according to claim 1 or 2, characterized in that the composite of the wood material boards (4, 5) and the thermal insulation layer (8), ISB46.G1 Sheet 11 optionally including a contribution from squared timbers (2, 3) inserted in edge areas, is designed so that it essentially bears the static loads of the wall or roof construction of a building. 5 4. House building board according to one of the preceding claims, characterized in that the wood-based panels (4, 5) are flat pressed chipboards, in particular of quality V100 or V20, with a thickness in the range between 12 and 20 mm. 5. House building board according to one of the preceding claims, characterized in that the thermal insulation layer (8) has a polyurethane layer foamed under CO ₂ gas pressure at elevated temperature between the wood material boards (4, 5). 6. House building board according to claim 5, characterized in that the polyurethane foam layer (8) has an adhesion-enhancing and/or strength-increasing admixture of renewable organic material, in particular in a proportion of 25-40% of the liquid starting material. 7. House building board according to claim 6, characterized in that the organic material comprises sugar and/or a vegetable oil. «t ISB46.G1 Sheet .12 8. House building board according to one of the preceding claims, characterized in that the polyurethane foam layer (8) has a thickness in the range between 75 and 150 mm, preferably 110 mm. 9. House building board according to one of the preceding claims, characterized in that two opposite edge regions, in particular the edge regions running vertically in the position of use (6, 7), are designed with first and second wood material boards set back in the first edge region relative to the thermal insulation layer or the squared timber and protruding in the second edge region, such that two rows of boards engage one another in a tongue-and-groove manner. 10. House building board according to claim 9, characterized in that at least the tongue (6) is formed by a section of a squared timber (2). 11. Building outer skin, at least partially consisting of building panels according to one of the preceding claims, characterized in that on the outside of the building on the building panels (1) a polyurethane thermal insulation panel (11), which is glued to the flat chipboard (4), is arranged as a carrier for an external plaster (12). ISB46.G1 Sheet 12. Building outer skin according to claim 11, characterized in that a cladding (13) of the wood-based panel (5), in particular made of plasterboard , is provided on the inside of the building as a paint or wallpaper carrier.