EP1091056A2 - Flat covering element for the covering of a building's roof - Google Patents

Abstract

The element (13) for covering the roof of a building is constituted as a compound body with two or more layers, and includes a thermal insulation layer (14) facing the underside (11) and a weatherproof cover layer facing the topside (12).

Description

The invention relates to a flat covering element for covering the roof of a building, comprising an underside facing the building and an upper side facing away from the building.

Covering elements for covering a sloping roof or a flat roof are already known, which are available in webs and a weatherproof cover of a Form roof structure.

The attachment of these conventional cover elements is complex, since they with the one below horizontal roof structure must be permanently connected and wind suction safe. On big ones Surfaces can create extreme wind suction loads, so that the cover element is securely bonded with the rest of the roof structure must be guaranteed.

A roof structure usually points directly below the weatherproof cover or in deeper ones Layer thermal insulation. This must be provided separately and also with the rest Roof structure to be connected. The creation of a conventional roof structure is therefore complex. A large number of work steps are required to achieve thermal insulation the roof and on the other hand the weather resistance and sufficient stability against Ensure wind suction loads.

The object of the present invention is to provide a cover element that the Creation of a roof structure in much fewer steps allowed and at the same time weather-resistant and wind-suction fastenable on a roof.

This object is achieved with a flat cover element according to the features of claim 1 solved. Advantageous further developments are specified in the subclaims.

A key concept of the present invention is to use the cover element as two or two form multilayer composite body, wherein at least one layer of the composite body as weather-resistant cover layer and another layer formed as a heat insulation layer are. The cover layer is advantageously designed as a sealing layer so that a seal, especially against rainwater and thawing snow. With the cover element Sealing and insulation can be done with a single component that acts as a composite trained to achieve. The strength and stability of a composite body are overall higher than the strength and stability of the individual layers. In addition, each of the The main functions of a roof assuming layers are not - as is traditionally the case - individually on the roof in a complex way largely manually, in the open air and in often at risk Working position to be put together. Rather, a composite element can be used as Manufacture mass product in stock and can be delivered to the construction site as a finished composite element become. In order to achieve thermal insulation and weatherproof covering of the roof, only the composite element must be attached to the existing roof structure. The composite element is suitable for various types of fastening. The composite element can be glued to the existing roof structure or alternatively under load embarrassed. Different types of mechanical fastening are available, especially screwing if necessary with the aid of anchor elements or nailing the composite element. The higher stability of the composite element compared to the joining of individual layers results in higher wind suction capacity.

An even higher strength of the composite element can be achieved in one embodiment, in of which a fabric reinforcement is incorporated, with the fabric reinforcement either between Cover layer and heat insulation layer or be provided directly within the cover layer can. If the thermal barrier coating is made of a foamable material, it could be direct foamed onto the weatherproof cover element and possibly a sufficient one Connection between the thermal insulation layer and cover element can be guaranteed. Prefers however, a binding layer is provided between the cover layer and the heat insulation layer. This binding layer can consist of a plurality of point, strip or sheet-like binding areas consist. For example, a binding layer can take the form of a specific grid, a plurality of tie points are provided according to the grid. Also one Binding layer as a mesh with a large number of intersecting webs is conceivable.

However, an embodiment in which the binding layer is formed over the entire surface is particularly preferred is, so that a particularly intimate bond between the cover layer and thermal insulation layer is guaranteed.

It is for purposes of better insulation and to prevent thermal bridges to the outside Expedient if the cover element has a step fold on the edge, so that neighboring Cover elements can be arranged interlocking. The step fold should come from this Basically preferably be circumferential. In cross section through the cover they either between the heat insulation layer and cover layer or within the heat insulation layer be provided.

In an expedient embodiment, channels are further on the underside of the cover element arranged to discharge liquid or water vapor. Although the cover element as a whole Allows diffusion, the channels accelerate the drainage of liquid or water vapor, so that moisture formation can be counteracted.

The cover element according to the innovation can be delivered in sheets or in sheets. In the the latter alternative should have a plurality of mutually parallel in the thermal barrier layer Incisions may be provided so as to bend, fold or roll up - under certain circumstances also with a larger radius.

The thermal barrier coating of the cover element preferably comprises one or more of the materials Polystyrene hard foam, PUR foam or glass or mineral wool.

The cover layer preferably comprises one or more of the materials polyethylene (PE-C), flexible polyolefins (FPO), ethylene copolymer bitumen (ECB), EVA / PP (ethylene vinyl acetate terpolymer / Polyvinyl chloride), EPDM / PP (ethylene-propylene copolymer) or VAE / PVC (vinyl acetate-ethylene terpolymer / polyvinyl chloride).

The materials mentioned have changed in terms of weather resistance and fire resistance proven suitable. However, other materials can also be used come that have adequate weather stability over a long period of time ensure good fire protection properties.

The tissue reinforcement already mentioned can be in a preferred embodiment 1-ply or as a combination ply made of glass fleece and / or mesh made of polyester material or be made of threads of synthetic material. Of course there is also another one Tissue reinforcement into consideration, which consolidates the cover element in a cost-effective manner achieved without any appreciable deterioration in the fire protection properties. The invention is also described below for further features and advantages based on the description of Embodiments and explained in more detail with reference to the accompanying drawings.

Fig. 1

eine Ausführungsform des erfindungsgemäßen Abdeckelements in einer Schnittansicht,

Fig. 2

eine Schnittansicht durch eine Dachkonstruktion, die mit einem Abdeckelement nach der Erfindung abgedeckt ist,

Fig. 3

eine gegenüber der Ausführungsform nach Fig. 1 modifizierte Ausführungsform in Schnittansicht.

Fig. 4

eine weitere Ausführungsform des erfindungsgemäßen Abdeckelements mit Überstand.

Fig. 5

eine skizzenhafte Veranschaulichung von zwei mit Überdeckung aneinandergefügten erfindungsgemäßen Verbundelementen.

Here show:

Fig. 1

1 shows an embodiment of the cover element according to the invention in a sectional view,

Fig. 2

2 shows a sectional view through a roof structure which is covered with a cover element according to the invention,

Fig. 3

an embodiment compared to the embodiment of FIG. 1 modified in sectional view.

Fig. 4

a further embodiment of the cover element according to the invention with a protrusion.

Fig. 5

a sketchy illustration of two composite elements according to the invention joined together with overlap.

In Fig. 1, a cover member 13 for covering the roof of a building is schematic Sectional view shown. The cover element 13 has a facing the building in the use position Bottom 11 and a weather-side top 12. The cover 13 is as Multi-layer composite body is formed and includes a thermal insulation layer facing the underside 11 14 and a cover layer 15 facing the top 12. Cover layer 15 and Thermal insulation layer 14 are by means of a binding layer 17, for example, with liquid adhesive can be achieved, permanently connected. In a preferred embodiment of the present Invention, the cover layer 15 has a thickness between 2.3 and 2.6 mm, the tie layer a thickness between 0.8 and 1.0 mm and the thermal barrier layer 14 a thickness between 60 and 140 mm.

The cover layer 15 can, for example, be made of modified polyethylene (PE-C), flexible Polyolefins (FPO), made from ethylene copolymer bitumen (ECB), EVA / PVC (ethylene vinyl acetate terpolymer / Polyvinyl chloride), EPDM / PP (ethylene-propylene copolymer) or VAE / PVC (vinyl acetate-ethylene terpolymer / polyvinyl chloride).

A fabric reinforcement 16 is preferably incorporated into the cover layer, it being possible for the fabric reinforcement to be located either within the cover layer 15 or on the surface of the cover layer 15 facing the binding layer 17. The fabric reinforcement 16 can be formed, for example, in one layer or as a combination insert made of glass fleece and / or mesh fabric made of polyester material or of threads made of synthetic material.
Due to the above-described cover layer 15, the cover element 13 is resistant to flight fire and radiant heat.

A glass fleece traditionally prescribed for a roof construction DIN 4102, part 7, can be omitted with the cover element 13 described here. Especially The fabric reinforcement 16 is expedient on the surface facing the binding layer 17 Cover layer 15 incorporated. This allows a permanent adhesive connection between the cover layer 15 and thermal insulation layer 14 reach. The fabric reinforcement 16 can instead of Form the above materials from another suitable resilient material.

In the production of the prescribed, preferred embodiment of the cover element 13 the fabric reinforcement 16 is expediently placed on a surface of the cover layer 15 molded. Then the cover layer 15 is on the side of its fabric reinforcement 16 Binder coated and permanently connected to the thermal insulation layer 14, which to this Purpose can also be coated with binder beforehand.

To join two adjacent cover elements 13 together avoiding thermal bridges To be able to, a thermal bridge barrier 21 is provided on the edge, which here as a step fold 18 in the Cover layer 15 is incorporated. The adjacent cover element (not shown) has a corresponding one Step fold 18 so that the two cover elements 13 joined together engage one another.

In order to discharge residual moisture, there are 13 channels 19 on the underside 11 of the cover element incorporated. The already good water vapor diffusion properties of the composite body are significantly improved by the channels 19.

In order to be able to roll, bend or fold the cover element, there are 14 in the thermal insulation layer Incisions 20 perpendicular to the underside 11 are incorporated.

With the composite body proposed according to the invention, roof waterproofing and Achieve thermal insulation in one operation.

The mechanically feasible and quality controllable connection between Thermal insulation layer 14 and cover layer 15 ensures an optimal connection between Roof sealing and thermal insulation.

FIG. 3 shows an embodiment modified from the embodiment shown in FIG. 1 shown. The thermal bridge barrier 21 is here not by a step fold 18, but formed by a bevel 22 on the edge. The edge-side bevel 22 runs in a 90 ° clearly different angles, obliquely to the top 12 and bottom 12 of the cover 13. An angle of approximately 60 ° is particularly preferred.

The new cover element can be in a variety of mounting options on one existing roof structure. The training as a composite body as well as the Fabric reinforcement viewed as advantageous ensures higher values in the maximum tensile force, i.e.

there can be better wind suction properties and greater stability of the entire composite element to reach. Since there are favorable fire protection properties if the cover layer 15 is chosen accordingly An additional fire protection layer in the roof structure does not have to be achieved must be incorporated.

FIG. 4 shows an embodiment in which the cover layer 15 is on one side Supernatant 23 defined. The protrusion 23 is useful to attach to an adjacent one Composite element to be able to form an overlap. Advantageously, the overhang 23 be dimensioned such that welding with the adjacent composite element pushed underneath is possible. If a hidden fastening by fastener 25 is desired, the The protrusion 23 must be dimensioned such that the fasteners 25 with any fastening plates which may be present to be concealed.

For a more detailed explanation, reference is made here to FIG. 5, in which the joining together is sketchy two adjacent composite elements with projection 23 is shown. The supernatant 23 extends over the fastener 25 and the associated fastening plate 26 on adjacent composite element and forms a welding region 27 at the distal end.

The composite body according to the invention solves a variety of problems in a simple manner must be observed when forming a roof. The cover element is particularly suitable for the renovation of old buildings, but can also be used for new buildings. It is essential fewer work steps required. By relocating some of the work steps in the Production process can ensure a constant quality and at the same time the total costs reduce.

Reference list

11

bottom

12th

Top

13

Cover element

14

Thermal insulation layer

15

Cover layer

16

Commercial reinforcement

17th

Tie layer

18th

Step fold

19th

channels

20th

Incisions

21

Thermal bridge barrier

22

Weird

23

Got over

24th

Lifting area

25th

Fasteners

26

Mounting plate

27

Welding area

Claims (13)

Flat covering element for covering a roof of a building, comprising an underside (11) facing the building and an upper side (12) facing away from the building,
wherein the cover element (13) is designed as a two-layer or multi-layer composite body and comprises a heat-insulating layer (14) facing the underside (11) and a weather-resistant cover layer (15) facing the top surface lying flat on top of one another. Flat cover element according to claim 1,
characterized by
that the cover element (15) comprises a fabric reinforcement (16). Cover element according to claim 1 or 2,
characterized by
that the commercial reinforcement (16) is arranged within the cover layer (15) on the side facing the thermal insulation layer (14). Cover element according to one of claims 1 to 3,
characterized by
that between the cover layer (15) and thermal insulation layer (14) point, strip, or sheet-like binding layers are provided. Cover element according to one of claims 1 to 3,
characterized by
that between the cover layer (15) and heat insulation layer (14) a coherent binding layer (17) is arranged, which ensures a full-surface connection between the cover layer (15) and the heat insulation layer (14). Cover element according to one of claims 1 to 5,
characterized by
that the cover element (13) has a preferably circumferential thermal bridge barrier (21) on the edge, which can be designed as a step fold (18) or as a bevel (22). Covering element according to one of claims 1 to 6,
characterized by
that on the underside (11) of the cover element (13) channels (19) for discharging liquid or water vapor are arranged. Cover element according to one of claims 1 to 7,
characterized by
that the thermal barrier coating (14) is provided with a plurality of incisions (20) running parallel to one another, which allow the cover element (13) to be bent, folded or rolled up. Cover element according to one of claims 1 to 8,
characterized by
that the thermal barrier coating is formed from one of the following materials: Rigid polystyrene foam PUR foam Mineral or rock wool Cover element according to one of claims 1 to 9,
characterized by
that the cover layer is at least partially formed from one of the following materials: Polyethylene (PE-C) flexible polyolefins (FPO) Ethylene copolymer bitumen (ECB) EVA / PVC (ethylene vinyl acetate terpolymer / polyvinyl chloride) EPDM / PP (ethylene-propylene copolymer) or VAE / PVC (vinyl acetate-ethylene terpolymer / polyvinyl chloride). Cover element according to one of claims 2 to 10,
characterized by
that the fabric reinforcement (16) is 1-ply or as a combination ply made of glass fleece and / or lattice fabric made of polyester material or of threads made of synthetic material. Cover element according to one of claims 1 to 11,
characterized by
that the two-layer or multi-layer composite body has on one or more sides an overhang (23) comprising the cover layer (15) for forming an overlap with an adjacent composite body. Cover element according to claim 12,
characterized by
that on the side of a protrusion (23) in the composite element, the binding layer (17) between the covering layer (15) and the thermal insulation layer (14) is recessed via a lifting area (24).

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