DE3540455A1 - Inorganic multi-layer lightweight construction panel - Google Patents

Abstract

The invention relates to a multi-layer lightweight construction panel having an insulating layer, in particular rock wool or glass wool, and having at least one cover layer on one side. It is characterized in that the cover layer consists of spun glass fibre elements which are arranged in a layer in an irregular position with respect to one another and which are bound to one another by means of a mineral binder. <IMAGE>

Description

The invention relates to an inorganic More Layer lightweight board with an insulation layer, esp special rock wool or glass wool, and with at least a one-sided top layer.

They are already inorganic multilayer lightweight constructions known boards, their insulation layer of rock wool or glass wool is formed. The top layer of this Multi-layer lightweight building boards consist of glass fleece, Aluminum foil or similar coatings. These Cover layers, however, have the disadvantage that we which visually represents a surface with a finish character make sure that they have sufficient mechanical Are resistant to pressure and damage, so that the areas of application and processing possible are limited. In addition, such deck stratify only by special measures or precaution stakes are applied.  

Exist in such known inorganic more layer lightweight building boards, the insulation layer of Rock wool or glass wool is formed on the deck layers from an inorganic, from a Suspen sion hardened mass, which is reinforced with glass fleece is, such plates are only for warmth protection can be used.

In all cases, the glass fleece used is through bound organic binder that is flammable and releases toxic fumes in smoldering or fire wraps.

The object of the invention is an inorganic more to create layered lightweight building boards that have no orga African binder that is sufficiently reflected is resistant to pressure and damage that is heat-insulating and at the same time sound-absorbing, any processing allowed and their deck layer can optically form a finish surface.

This task is done with a multi-layer lightweight construction plate of the type assumed solved in that the top layer of spun glass fiber elements consists of an irregular position in relation to each other one layer are arranged and one below the other bound by means of a mineral binder are.

Through the multilayer lightweight construction board according to the invention The required bending strength is not only there achieved by that the fibers of the insulation layer, the consist of rock wool or glass wool, essentially Chen oriented perpendicular to the main plane of the plate  are, which creates a pressure-resistant core, but also in that the threads or mats spun glass fiber of the top layer in turn sufficiently resistant to pressure and damage is. At the same time, this top layer forms be made of mineral-bonded glass fiber fabric stands, a finished finish surface. Furthermore the plate according to the invention is not only warm insulating, but also sound absorbing, so that they has a wide range of applications. The good Sound absorption is made possible by the porous Surface structure of the top layer together with the Stone wool or glass wool core effects.

The compressive strength, flexural strength and surfaces design of the plate according to the invention each desired processing. Because of the porous Surface structure, the depressions of up to 3 has up to 4 mm, the More invention layered lightweight board even as lost formwork be concreted.

The mineral used for the top layers Binder from a suspension, preferably Contains magnesite, cement, white cement or plaster, be not only affects the network of ver spun glass fiber elements in the form of rovings or Mats, but also the adhesive bond between insulation layer and top layer, so that no special Measures are necessary for this. So that's one exclusively from mineral or inorganic Materials created existing plate that heavy is flammable and environmentally friendly.  

As a rule, the inventive inorganic Multi-layer lightweight board on both sides of the Insulation layer on top layer. With certain But it can also be sufficient that the insulation layer only on one side through a deck layer is covered. This top layer will then be the side of the plate, that of the load is exposed or represents the visible side.

It is also advantageous that the design of the he According to the invention, there is no covering layer after laying requires substantial reworking of the visible side; al If necessary, the visible side can be painted be provided. But it is also possible that the Sus colorize pension, so that the invention Multi-layer lightweight boards already in the factory get the desired color.

In a simple way, the thickness and structure of the respective top layer corresponding to the respective Field of application can be changed in that several Layers or layers of glass spun into mats fiber wool can be used.

For certain applications of the invention Multi-layer lightweight board, especially for large ones Temperature drop, it is appropriate that between the insulation layer and the top layer a steam brake or vapor barrier layer is arranged. The one there in the case of usable, laminated aluminum foil, a commercially available finished product.

The edges of the More Layered lightweight board can be designed with plan be provided with a step fold or also grooved where  here one side edge of two adjacent undercut plates. Because of this out formations either result in blunt bumps between the plates, or it can be a positive siger composite of the plates can be achieved. The plat ten themselves with any fasteners fastened or attached to the respective surface be toned.

Preferred plate sizes are 50 × 200 cm and 50 × 100 cm.

An embodiment of the anor according to the invention ganic multilayer lightweight board is in scheme perspective in the single drawing poses.

Thereafter, the core of the lightweight board is an insulation layer 1 , which can be made of rigid foam, such as polystyrene or polyurethane, or rock wool or glass wool. As can be seen from the figure, the fibers of the insulation layer are oriented essentially perpendicular to the main plane of the plate, as a result of which the core can be subjected to pressure.

The insulation layer 1 is preferably covered on both sides with a cover layer 2 each. The cover layer 2 is made of glass fiber fabric, which is minerally bound. In one embodiment of the cover layer, the glass fiber is spun into threads (rovings) which have a certain length. For cover layers, the thickness and structure of which should be different, the glass wool is spun into mats, and depending on the required thickness, one or more mats are arranged one above the other.

The mineral binder consists of a suspension, which preferably contains magnesite, cement, white cement or gypsum. The mineralization causes an adhesive bond between the insulation layer 1 and the top layer 2 , so that additional connection measures are not required.

For certain applications, it may be necessary for a vapor barrier or vapor barrier layer 3 to be arranged between the insulation layer and the cover layer. In a special embodiment, this vapor barrier or vapor barrier layer consists of an aluminum foil onto which glass fleece is laminated at least on one side. Advantageous designs of the vapor barrier or vapor barrier layer consist in that it has a barrier effect which corresponds to a diffusion-equivalent air layer thickness s _d of ≧ 2 m, ≧ 5 m or ≧ 10 m.

Claims (10)

1. multilayer lightweight building board with an insulation layer, in particular stone wool or glass wool, and with at least one one-sided cover layer, characterized in that the cover layer ( 2 ) consists of spun glass fiber elements, which are arranged in an irregular position to one another in one layer and which are bound to one another by means of a mineral binder. 2. multilayer lightweight building board according to claim 1, characterized in that the to Threads (rovings) spun glass fiber of a certain length is inserted.   3. multilayer lightweight building board according to claim 1, characterized in that the to Mat spun glass fiber is used. 4. Multi-layer lightweight board according to one of the An sayings 1 to 3, characterized net that the mineral binder from a Suspension, which is preferably magnesite, Contains cement, white cement or plaster. 5. Multi-layer lightweight building board according to one of claims 1 to 4, characterized in that when the insulating layer ( 1 ) is made of stone or glass wool, the fibers are oriented essentially perpendicular to the main plane of the board. 6. multilayer lightweight building board according to claim 5, characterized in that the thickness of the cover layer ( 2 ) is adapted to the required heat protection and / or sound absorption, and that the structure of the cover layer is designed according to the processing type. 7. multilayer lightweight board according to the claims, 1, 3 to 6, characterized in that several glass fiber mats arranged one above the other are. 8. Multi-layer lightweight building board according to one of the preceding claims, characterized in that a vapor barrier or vapor barrier layer ( 3 ) is arranged between the insulation layer ( 1 ) and the cover layer ( 2 ). 9. Multi-layer lightweight building board according to claim 8, characterized in that the vapor barrier or vapor barrier layer ( 3 ) is an aluminum foil on which at least one side of the non-woven glass is laminated. 10. Multi-layer lightweight board according to claims 8 or 9, characterized in that the vapor barrier or vapor barrier layer ( 3 ) has a barrier effect which corresponds to a diffusion-equivalent air layer thickness s _d of ≧ 2 m ≧ 5 m or ≧ 10 m.