DE102017127862A1 - composite component - Google Patents

Abstract

The invention relates to a composite component for the construction of walls, ceilings or roofs. According to the invention, the composite component has a layer (1) of foam glass, which is provided on at least one side with a load-bearing cover layer (2). Particularly preferably, the load-bearing cover layer is a metallic cover layer, which consists in particular of sheet metal material.

Description

The invention relates to a composite component for the construction of walls, ceilings or roofs.

The invention has for its object to provide a new, usable in building and civil engineering composite component, can be erected by building particularly efficient.

That this object-solving device according to the invention is characterized by a layer of foam glass, which has on at least one side a load-bearing cover layer.

Advantageously, such, preferably prefabricated and extensively, e.g. over a floor height extending components a fast, cost-effective and above all energy-efficient construction. Also, the heat-insulating, pressure-resistant foam glass layer can contribute appropriately to the stiffening and load transfer. Foam glass is an environmentally friendly, environmentally-friendly building material that can be disposed of easily and even completely recycled by remelting. Foam glass does not absorb water, which makes it particularly suitable for civil engineering and earth contact areas. The melting point of the foam glass is over 1000 ° C. It therefore forms a building material of fire protection class A1.

In a particularly preferred embodiment of the invention, the load-bearing cover layer is a metallic cover layer, in particular a cover layer of sheet metal material. It is understood that the layer thickness or sheet thickness of the cover layer, taking into account the carrying capacity of the foam layer can be selected so that the composite component meets the respective static requirements.

The load-bearing cover layer can be even. Appropriately, however, it has a stiffening shaping. In particular, beads are formed, which in their longitudinal direction increase the buckling stiffness of the cover layer and thus advantageously the load capacity of the composite component as a whole.

The load-bearing cover layer may be connected to a facing shell via a substructure, e.g. in the form of a plaster or clay building board, e.g. forms an interior lining of a room wall.

Suitably, the facing shell is attached to protrusions of the load-bearing cover layer, these protrusions being formed in particular by the stiffening shaping of the cover layer, e.g. by trapezoidal in cross section beads.

In a further embodiment of the invention, the foam glass layer on its side facing away from a load-bearing cover layer on a further, a decorative outer lining forming cover layer or a curtain wall with a substructure. The further outer layer forming cover layer is e.g. a plaster layer, a cementitious building board or / and a tile plate.

The curtain wall is e.g. to a wood paneling, in particular a ventilated wood paneling with ventilation slots between the wood paneling forming panels.

Preferably, the components of the composite component are cohesively and / or by mechanical means non-positively and / or positively connected with each other. In particular, the statically significant components, i. the at least one load-bearing cover layer and the foam glass layer are expediently glued together over a large area. Strain maxima, as they occur at mechanical joints using bolt-type fasteners are then completely avoided.

The foam glass layer may alternatively be foamed to the at least one load-bearing cover layer or a decorative cover layer with a materially bonded connection.

In particular, when using mechanical connection means for connecting the components of the composite component, the composite component could only be mounted on site on the construction site. This would be possible at least partially even when bonding the components.

To protect loaded edge surfaces of the composite component, these may be provided with a cap-like protective cover, e.g. Attic cover, be provided. Such a cover could e.g. by bending a protruding load-bearing cover layer of sheet metal produce.

Advantageously, the stiffening deformation forming bulges of the load-bearing cover layer can be filled with foam glass when foaming the foam glass and thus prevents the ingress of moisture between the load-bearing cover layer and the foam glass layer while avoiding corrosion.

• 1 ein erfindungsgemäßes Verbundbauelement mit einer metallischen Deckschicht und einer weiteren Deckschicht auf seiner der metallischen Deckschicht abgewandten Seite,
• 2 ein Verbundelement nach der Erfindung mit einer durch ein Trapezblech gebildeten metallischen Deckschicht,
• 3 ein Verbundbauelement nach der Erfindung mit einer durch ein Trapezblech gebildeten metallischen Deckschicht und einer an dem Trapezblech angebrachten Vorsatzschale,
• 4 ein Verbundbauelement nach der Erfindung mit einer Deckschicht aus Trapezblech und einer vorgehängten Fassade auf einer Unterkonstruktion an seiner der Deckschicht abgewandten Seite,
• 5 ein Verbundbauelement nach der Erfindung mit einer Vorsatzschale auf einer Deckschicht aus ebenem Blech und einer vorgehängten Fassade auf einer Unterkonstruktion an seiner der Deckschicht abgewandten Seite,
• 6 ein Verbundbauelement nach der Erfindung gemäß 5, jedoch mit einer durch ein Trapezblech gebildeten Deckschicht, und
• 7 eine Darstellung zur Erläuterung einer horizontalen Verbindung zwischen zwei Verbundbauelementen nach Erfindung.

The invention is explained below with reference to embodiments and the accompanying, relating to these embodiments drawings. Show it:

• 1 a composite component according to the invention with a metallic cover layer and a further cover layer on its side facing away from the metallic cover layer,
• 2 a composite element according to the invention with a metallic cover layer formed by a trapezoidal sheet,
• 3 a composite component according to the invention having a metallic cover layer formed by a trapezoidal sheet and a facing shell attached to the trapezoidal sheet,
• 4 a composite component according to the invention with a covering layer of trapezoidal sheet metal and a curtain facade on a substructure on its side facing away from the cover layer,
• 5 a composite component according to the invention with an attachment shell on a cover layer of flat sheet metal and a curtain facade on a substructure on its side facing away from the cover layer,
• 6 a composite component according to the invention according to 5 , but with a cover layer formed by a trapezoidal sheet, and
• 7 a representation for explaining a horizontal connection between two composite components according to the invention.

A plate-shaped in 1 Sectionally illustrated in a horizontal section composite component has a core layer 1 of foam glass, the thickness of which is 20 cm in the example shown. The density of the glass foam is about 100 to 165 kg / m ³ . In its vertical length, the device extends over a floor height. The horizontal plate length is in the example shown at 2 m.

On a side intended to form an inside of the composite component is the core layer 1 with a flat top layer 2 glued from sheet steel, whose thickness is for example 2.5 mm. On her the top layer 2 remote from the outside of the composite component, the core layer 1 another cover layer 3 on. In the example shown, this consists of a cement-bonded building board and is like the metallic cover layer 2 with the core layer 1 bonded. Notwithstanding the example shown, the further cover layer 3 eg be formed by another facade panel or plaster layer.

This in 2 composite component shown differs from the composite component of 1 in that the metallic cover layer 2 is formed by a shaped steel sheet, in the trapezoidal beads in cross section 4 are conceited. In the area of the beads 4 remains between the core layer 1 and the metallic cover layer 2 one cavity each 5 , The mutually parallel beads 4 noticeably increase the dent resistance of the metallic cover layer 2 , so that the composite component in the longitudinal direction of the beads 4 stronger than the composite component of 1 is resilient. As with the composite component of 1 also contributes to the composite component of 2 the core layer 1 with for stiffening the top layer at.

This in 3 illustrated composite component corresponds in its basic structure to the composite component of 2 , To the through the beads 4 formed protrusions of the metallic cover layer 2 is additionally via a substructure ( 11 ) an attachment shell 6 attached, which decoratively decorates the composite component to an interior. The space for installations creating substructure 11 Can with the through the beads 4 be glued or formed screwed projections formed.

At the in 4 shown embodiment of a composite component is in contrast to the composite component of 2 its further top layer 3 through a curtain wall 7 with a substructure 8th replaced. At the curtain wall 7 If the example is a wood paneling with spaced apart, panels 9 , between which slots in the example shown 10 are formed for ventilation.

5 shows a composite device with a foam glass core layer 1 and a cover layer formed by flat steel sheet 2 , wherein the composite component on its inside an attachment shell 6 according to 3 and on its outside a curtain wall 7 according to 4 having.

This in 6 composite component shown differs from the composite component according to 5 in that the flat steel sheet of the top layer 2 replaced by a trapezoidal sheet.

In the embodiments described above, while avoiding cold bridges, all the composite components forming components are glued together, and the composite components are delivered completely prefabricated to the site. By way of derogation, connecting means may also be used for connecting the components, including the connection between a cover layer and the core layer, also mechanical connecting means, in particular connecting bolts, and the plate-shaped components, e.g. screwed together, riveted and / or pegged. The completion of the composite elements can be done wholly or partly on the site.

It is understood that building walls can be built cost-effectively in a very short time with large, floor-high components. Horizontal connections between the composite components can be produced, for example, in that according to 7 a cover layer 2 with a section 12 horizontally across the vertical edge of the core layer 1 survives while the topcoat 2 a component to be attached is set back relative to the core layer in accordance with this projection.

The upper edge surfaces of the components can be protected by a cross-sectionally cap-like, extending over the entire horizontal length cover against damage caused by overlying components, so that it can not come in particular to the demolition of foam glass at the top of the composite components. Preferably, such covers can be formed by folding a vertically protruding cover layer to form the support protection.

Claims (12)

Composite component for the construction of walls, ceilings or roofs, characterized by a layer (1) of foam glass, which has on at least one side a load-bearing cover layer (2). Composite component after Claim 1 , characterized in that the load-bearing cover layer (2) comprises a metallic layer, in particular of sheet metal material. Composite component after Claim 2 , characterized in that the load-bearing cover layer (2) is a flat layer or a stiffening shaping, in particular beads (4). Composite component according to one of Claims 1 to 3 , characterized in that the load-bearing cover layer (2) is connected to a facing shell (6), for example in the form of a gypsum or clay building board, or only with a plate without substructure. Composite component after Claim 4 , characterized in that the attachment shell (6) is attached to projections of the load-bearing cover layer (2), in particular to projections formed by the stiffening shaping, preferably to beads (4). Composite component according to one of Claims 1 to 5 , characterized in that the foam glass layer (1) on its the load-removing cover layer (2) facing away from a decorative cover layer (3) and / or a curtain wall (7). Composite component after Claim 6 , characterized in that the decorative cover layer (3) comprises a plaster layer, a cement-bonded building board or / and a facade panel. Composite element after Claim 6 or 7 , characterized in that the curtain wall (7) comprises a wood paneling, in particular from ventilated panels (9). Composite component according to one of Claims 1 to 8th , characterized in that the components of the composite component cohesively and / or by mechanical means non-positively and / or positively connected with each other. Composite component after Claim 9 , characterized in that the foam glass layer (1) under foamed connection to the at least one load-bearing layer (2) or the decorative layer (3) is foamed. Composite component according to one of Claims 1 to 10 , characterized in that the at least one load-bearing cover layer (2) projects beyond a vertical edge of the foam glass layer (1). Composite component according to one of Claims 1 to 11 , characterized in that the at least one load-bearing cover layer (2) engages over a horizontal edge surface of the foam glass core layer (1) with a fold.

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