EE01237U1 - A roof structure - Google Patents

Abstract

The present invention relates to a roof structure consisting of a mineral wool based insulation structure and a bearing structure for the thermal insulation of roofs, preferably of low-pitched roofs. The structure comprises a single layer thermal insulation package consisting of mineral wool lamellae and a vapor barrier, the mineral wool fibers of the lamellae being oriented perpendicular to the two main surfaces of the insulation package. The vapor barrier comprises at least one bitumen membrane and the thermal insulation package is fixed to one of its main surfaces by a vapor barrier so that the fastening means do not penetrate the vapor barrier.

Description

Technical field

The present invention relates to a roof structure consisting of a mineral wool-based insulation structure and a supporting structure for insulating roofs, preferably low-pitched roofs.

State of the art

Glass wool lamella insulation, which is currently used for roof insulation, has a thin plate-shaped (slab-shaped) top layer and the glass wool insulation is mechanically attached to the roof supporting structures through a vapor barrier. Technical solutions in which the insulation package consists of a number of mineral wool slabs placed on top of each other, wherein said insulation package is attached to the roof supporting structures through a vapor barrier, are also known today.

In general, the aforementioned technical solution works, but despite this, there remains a need to reduce the amount of insulation materials and the vapor leakage caused by fastening elements penetrating the vapor barrier, and in general, it is necessary to get rid of the work steps associated with mechanical fastening elements (DE 102004038447 A1, Deutsche Rockwool Mineralwoll GmbH & Co. oGH, 2006; DE 201 22 109 U1, Deutsche Rockwool Mineralwoll GmbH + Co oGH, 2004).

From document DE 8519811, Rütgerwerke AG, F16L 59/02, 26.09.1985, a roof structure is known, which consists of a mineral wool-based insulation structure and a supporting structure for thermal insulation of roofs, preferably low-pitched roofs, which comprises a single-layer thermal insulation package consisting of mineral wool lamellas and a vapor barrier, wherein the mineral wool fibers of the lamellas are oriented perpendicularly to the two main surfaces of the insulation package. Here, bitumen is used as a vapor barrier and for gluing the lower ends of the mineral wool lamellas together, but not for attaching the vapor barrier to the roof supporting structure.

The essence of the invention

As a result of the application of the present invention, a roof structure is achieved in which the aforementioned disadvantages are eliminated. In the roof structure presented by the present invention, which consists of a mineral wool-based insulation structure and a supporting structure for thermal insulation of roofs, preferably low-pitched roofs, which includes a single-layer thermal insulation package consisting of mineral wool lamellas and a vapor barrier, wherein the mineral wool fibers of the lamellas are oriented perpendicularly to the two main surfaces of the insulation package, the vapor barrier includes at least one bitumen membrane, and the thermal insulation package is attached to the supporting structure with one of its main surfaces by means of a vapor barrier.

In a preferred embodiment of the roof structure provided by the present invention, the roof support structure is a concrete base or said roof support structure is provided with a concrete base or a profiled cover on which a building board is installed, wherein a vapor barrier is attached to said building board installed on said concrete base or profiled cover. In this case, said building board is preferably made of plywood.

In another preferred embodiment of the thermal insulation package provided by the present invention, the vapor barrier comprises at least one adhesive bitumen membrane, wherein said vapor barrier is attached to the roof supporting structure by gluing with hot bitumen, or said vapor barrier comprises at least one weldable bitumen membrane, wherein said vapor barrier is attached to the roof supporting structure by heating the bitumen on the vapor barrier base layer.

In another insulation structure provided by the present invention, a waterproof barrier is present on the upper main surface of the thermal insulation package, and a load-bearing layer is placed on said waterproof barrier. Said load-bearing layer may consist of shingles, or shingle-like or other roofing tiles.

In a preferred embodiment of the present invention, the mineral wool lamellas of the thermal insulation package are attached to the vapor barrier by a) hot bitumen or b) heating a fixing bitumen placed on the top surface of the vapor barrier. In this case, a waterproof barrier is attached to the second main surface (upper main surface) of the thermal insulation package. Preferably, said waterproof barrier comprises at least one bitumen membrane, which is attached to the mineral wool of the thermal insulation package by gluing with hot bitumen.

In addition to the above, the said thermal insulation package may be attached to the upper surface of the building board with mechanical fastening means such that the mechanical fastening means of the building board penetrate the said building board and extend anchoringly into the layer of mineral wool lamellas to a predetermined depth so that they do not penetrate the vapor barrier on the second main surface of the lamella layer.

According to the present invention, the mineral wool of the thermal insulation package may preferably be rock wool or glass wool.

List of illustrations

The attached drawing shows a cross-section of a roof structure comprising an insulation structure and a load-bearing structure for a low-pitched roof according to the present invention.

Example of carrying out the invention

The following illustrative example is one example of an insulating structure and the manufacture of said structure according to the present invention. The following illustrative example of an insulating structure according to the present invention is intended for use in particular in connection with low-pitched roofs.

The insulation structure provided by the present invention is not necessarily provided with a building board on the upper surface of the mineral wool lamellas of the single-layer thermal insulation package, and in particular, no building board is used at all on the upper surface of the single-layer thermal insulation package 4 in the example mentioned. In the example mentioned, the mineral wool is rock wool, but glass wool can also be used according to the present invention.

In the said illustrative example, the roof support structure consists of one or more profiled coverings 1 and one or more plywood boards 2, which are attached to said profiled coverings by mechanical fastening means (not shown in the figure). The vapor barrier 3 is made of a weldable bitumen membrane, whereby the attachment of the vapor barrier to the roof support structure is carried out by heating the bitumen located on the lower surface of the vapor barrier. In the said illustrative example, the vapor barrier 3 is realized as a single layer as is customary in the given technical field, that is, the said bitumen membranes partially cover each other at the joints of the bitumen membranes of the vapor barrier. A suitable bitumen membrane to be used as a vapor barrier may be, for example, the vapor barrier K-MS 170/4000 (TL 2).

The mineral wool lamellas of the thermal insulation package 4 may be partially attached to the vapor barrier 3 either by gluing with hot bitumen or by heating the fixing bitumen on the surface of the vapor barrier 3 in such a way that the mineral wool fibers of the lamellas are oriented practically perpendicular to the two main surfaces of the thermal insulation package containing the lamella. A waterproof barrier 5 is attached to the second main surface (top main surface) of the thermal insulation package 4 of the insulation structure, which includes two (rubber) bitumen membranes placed on top of each other, which are attached to the rock wool of the thermal insulation package 4 by gluing with hot bitumen. For example, the K-MS 170/3000 (TL 2) membrane can be used as the base bitumen membrane and the K-PS 170/5000 (TL 2) membrane as the top bitumen membrane. Shingles are placed on top of the waterproof barrier as a load-bearing layer 10. Alternatively, the shingles can be bonded with hot bitumen integrally to a bitumen membrane located on the surface of the waterproof barrier.

According to the exemplary method presented by the present invention and described above, a single-walled thermal insulation package 4 is obtained, which includes mineral wool lamellas, in which the mineral wool fibers of the lamellas are oriented substantially perpendicularly to the two main surfaces of the thermal insulation package 4, and in which the thermal insulation package is attached to the roof support structure (sheet metal plate (plates) 1 + plywood board (boards) 2) via the second main surface by means of a vapor barrier 3 without mechanical fastening means penetrating the vapor barrier.

The following is an illustrative example showing how a mineral wool-based thermal insulation package can be produced according to the present invention for roofs, preferably for roofs with a low slope.

The mineral wool lamellas of the thermal insulation package 4 would be attached to a concrete base or a board such as a plywood board by means of a single-layer vapor barrier 3, which contains a bitumen membrane either by gluing with hot bitumen or by heating the fixing bitumen on the surface of the vapor barrier 3, whereby the mineral wool fibers of the lamellas are oriented practically perpendicularly to the two main surfaces of the thermal insulation package containing the lamella. A water barrier 5 is attached to the second main surface (top surface) of the thermal insulation package 4, which contains two (rubber) bitumen membranes placed on top of each other, which are attached to the mineral wool (glass wool or rock wool) of the thermal insulation package 4 by gluing with hot bitumen. For example, the K-MS 170/3000 (TL2) membrane can be used as the base membrane of the bitumen membrane, and the K-PS 170/5000 (TL 2) membrane can be used as the surface membrane of the bitumen membrane. In this case, shingles can be placed on top of the waterproof barrier as a load-bearing layer 10. Alternatively, the shingles can be glued with hot bitumen and integrally incorporated with the bitumen membrane located on the surface of the waterproof barrier.

The single-layer thermal insulation package according to the present invention can withstand normal negative pressure caused by wind spreading over the roof without the need to use any mechanical fastening means.

Claims (10)

1. A roof structure comprising a mineral wool-based insulation structure and a supporting structure for thermal insulation of roofs, preferably low-pitched roofs, the insulation structure comprising a single-layer thermal insulation package consisting of mineral wool lamellas and a vapor barrier, wherein the mineral wool fibers of the lamellas are oriented perpendicularly to the two main surfaces of the insulation package, characterized in that the vapor barrier comprises at least one bitumen membrane and the thermal insulation package is attached to the supporting structure with one of its main surfaces by means of a vapor barrier. 2. A roof structure according to claim 1, characterized in that the supporting structure of the roof is a concrete base to which a vapor barrier is attached. 3. A roof structure according to claim 1, characterized in that the roof supporting structure is provided with a concrete base to which a vapor barrier is attached. 4. A roof structure according to claim 1, characterized in that the roof supporting structure is a profiled covering and a building board placed thereon, wherein a vapor barrier is attached to the building board attached to the profiled covering. 5. A roof structure according to claim 1, characterized in that the roof supporting structure is provided with a profiled covering and a building board arranged thereon, wherein a vapor barrier is attached to the building board attached to the profiled covering. 6. Roof structure according to claims 1-5, characterized in that the vapor barrier is attached to the roof supporting structure by gluing with hot bitumen. 7. A roof structure according to claim 1-5, characterized in that the vapor barrier is attached to the roof supporting structure by heating the bitumen located on the base surface of the vapor barrier. 8. Roof structure according to claim 1, characterized in that the mineral wool lamellas of the thermal insulation package are attached to the vapor barrier by gluing with hot bitumen. 9. A roof structure according to claim 1, characterized in that the mineral wool lamellas of the thermal insulation package are attached to the vapor barrier by heating the fixing bitumen on the surface of the vapor barrier. 10. A roof structure according to any one of claims 1 to 9, characterized in that a building board is attached to the upper main surface of the thermal insulation package by mechanical fastening means such that the mechanical fastening means of the building board penetrate the building board and are anchored to a predetermined depth in the layer of the thermal insulation package containing the mineral wool lamellas.