DE3119520A1 - Composite heat-insulation element - Google Patents

Abstract

A heat-insulation element for a sub-roof is of two-part construction and comprises a shell of expanded polystyrene in which a core of rigid polyurethane foam is arranged. Between the shell and the core, closed hollow spaces of relatively large extent may be provided in the interior of the heat-insulation element, making possible a considerable saving in material without significant reduction of the heat-insulation properties.

Description

Combined thermal insulation element

The invention relates to a combined thermal insulation element for a sub-roof.

It is well known to provide thermal insulation on roofs in the way provide that a sub-roof is built up from thermal insulation elements. Here you can these thermal insulation elements both between and above the. Roof battens be laid and lean on them. However, such thermal insulation elements are also known to be laid directly on the rafters and attached to them.

The winder trim elements, for their part, are either made of foamed polystyrene or made from a polyurethane foam. The expanded polystyrene has compared to the polyurethane hard-breathing the disadvantage that there is one per unit volume Has lower thermal insulation, whereas the disadvantage of the rigid polyurethane foam in it is that it has a lower tear strength, a higher water absorption and brittleness and is subject to a higher temperature movement and change in shape than this for equal conditions is the case with foamed polystyrene. Compared to the Rigid polyurethane foam, the expanded polystyrene has the advantage of being larger Pull-out strength and higher elasticity and in particular can be themselves With polystyrene you can easily create any shape when foaming.

The invention is based on the object of a combined thermal insulation element to create a sub-roof that takes advantage of the foamed polystyrene and the advantages of rigid polyurethane foam combined.

This object is achieved according to the invention in that the thermal insulation element is constructed in two parts and consists of a shell made of foamed polystyrene, in which a core made of rigid polyurethane foam (PU foam) is arranged. Such a thing Thermal insulation element can be easily produced by either inserting the core into the shell inserted or glued in or the shell is wrapped around the core. By the combination of the two insulating materials can also be advantageous reduce the material consumption of foamed polystyrene and at the same time with the same thickness of the thermal insulation elements increase the thermal insulation.

To further save on the amount of material, it is also provided that air-filled cavities inside the thermal insulation element between shell and core are trained. Since these air-filled and self-contained cavities also have a very high insulation value, the Further reduce the amount of material required per insulating element.

In the case; that the core of the PU foam is not covered on all sides by the gc (.liiumten Polystyrene is surrounded, the invention provides that the core of the rigid polyurethane foam is coated with a substantially gas-tight surface layer. This surface layer can advantageously consist of an aluminum foil. With the help of such a Aluminum foil is the outgassing and therefore the shrinking of the individual cells of the PU foam and and thus the tearing open of the closed foam structure prevented.

The core made of the rigid polyurethane foam can be used on all sides as also be only partially surrounded by the foamed polystyrene.

According to a further embodiment of the invention it is provided that cavities are formed in the shell and / or in the core in such a way that they can Joining of the shell to the core inside the thermal insulation element is air-filled Cavities arise. These cavities can be in the form of a honeycomb structure, preferably a honeycomb structure.

The invention with its advantages and features is based on in the drawing illustrated embodiments explained in more detail.

They show: FIG. 1 a section through a combined thermal insulation element according to the invention, FIGS. 2, 3 and 4 further embodiments of the invention, wherein cavities are formed in the interior of the Wärmedäm element.

The two-part thermal insulation element shown in FIG. 1 consists of a shell 11 made of foamed polystyrene and a core 12 made of PU foam. The shell 11 can be constructed with relatively thin walls and carries on the outside all shaped elements, which are necessary for the laying of the thermal insulation element and for the fastening the water-bearing roof covering are necessary. This shaping comes the fact contrary to the fact that the foamed polystyrene can have any shape without great difficulty can be customized.

Against the core 12 it is expediently formed as a simply shaped plate, which is inserted into the interior enclosed by the shell II inserted will. It is envisaged that the core glued into the shell or by mechanical means Latching elements is held in the shell. In the event that the thermal insulation elements in a known manner together with foil shells, not shown, between roof battens be laid, it is also possible to put the core in without further fasteners insert the shell 11, because after laying the thermal insulation element of the not shown film shell is held.

In an embodiment according to FIG. 1, in which the core over a large area is exposed, it is expedient to have this on the surface with a gas-tight surface layer preferably to be covered with an aluminum foil. This is the outgassing and that associated shrinkage of the cell structure of the PU foam as well as inevitable a gradual deterioration in the thermal insulation properties associated therewith avoided.

Although not shown in the drawing, the core 12 can be made of PU foam placed in the mold before foaming the polystyrene and polystyrene on all sides be shamed.

In Figs. 2 and 3, an embodiment of the invention is shown, in which the interior of the thermal insulation element between the shell 111 and 211 and the core 112 and 212 air-filled cavities 113 and 213 are formed. at In the embodiment according to FIG. 2, the cavities 113 are on the inside of the shell 111 and separated from one another by webs 114, on which the core 112 is present. The cavities 113 can be shaped in any desired form Rice-shaped depressions or bienel-shaped depressions as special be considered expedient. The same also applies to the cavities 213, which are separated from one another by webs 214. In the drawing, the cavities are 113 and 213 only indicated schematically. The dimensions and the shape result from the shape of the thermal insulation element and that of it depend on it appropriate design.

In l'ig. 4 another embodiment of the invention is shown, l) ei which the core 312 made of PU foam is arranged in the interior of the shell 311 and is surrounded on all sides by lined polystyrene. The core can consist of a massive There are PU foam blocks, which are foamed on all sides by polystyrene. It is also intended to structure the PU foam like a honeycomb and the shell 311 after inserting the core 312 by a glued-in base plate 315 to close foamed polystyrene.

By a combined thermal insulation element according to the invention, the in itself easily injured core made of PU foam in an advantageous manner from the foamed one Protected from polystyrene, which is significantly higher at the densities used Has pull-out strength and elasticity. A combined winder according to The invention is therefore also much better against an impairment of the Wealthy property is protected than is the case with wiirmedii m elements, which are made in their entirety from rigid polyurethane foam and with a Damage to the surface to absorb water and thus to reduce the thermal insulation properties tends.

The option inside is particularly advantageous of the Wärmedäm melementes to attach closed cavities, which the thermal insulation properties do not affect, but allow a considerable saving in material.

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Claims (6)

Claims 1) Combined thermal insulation element for a sub-roof, characterized in that the thermal insulation element is constructed in two parts and consists of a shell (11; 111; 211; 311) consists of foamed polystyrene, in which a core (12, 112; 212; 312) made of rigid polyurethane foam (PU foam) is arranged. 2) thermal insulation element according to claim 1, characterized in that im Inside the thermal insulation element between shell (111; 211; 311) and core (112; 212; 312) closed cavities (113; 213; 313) are formed. 3) thermal insulation element according to claim 1 or 2, characterized in that that the core is made of rigid polyurethane foam with an essentially gas-tight surface layer is sheathed. 4) Wnrmedämmelement according to claim 3, characterized in that the Surface layer is an aluminum foil. 5) thermal insulation element according to claim 2, characterized in that the Cavities in the form of a honeycomb structure, preferably a honeycomb structure are. 6) thermal insulation element according to one or more of claims 1 to 5, characterized in that the core made of Polyurethanliartschaum on all sides from the foamed Polystyrene is surrounded.