EP1174556A1 - Building element for the sealing and the isolation of roofs, especially flat roofs - Google Patents

Abstract

The construction element includes at least one insulation layer(4,5), and this insulation layer and the roof surface(2) together with a support structure(1) are provided as a composite element forming a unit. The individual layers of the construction element(10) are plane parallel interconnected and connected to the support structure. The insulation layer includes a pressure distributing support layer(5) for the roof surface, while the other layer(4) is a cold, heat and noise insulating layer with good insulation characteristics.

Description

The invention relates to a component for sealing and insulation of roofs, especially flat roofs, with a Support structure providing structural strength, at least one insulation layer held by the support structure for cold, heat and sound insulation, as well as with a Component waterproof and waterproof to the outside weatherproof roofing membrane.

Modern flat roofs or roofs with a low pitch will be currently using a common sealing method in several Operations. So first the roof load-bearing structure made of steel or light metal Trapezoidal sheets laid and fastened as a support structure. Then may be formed on the trapezoidal sheets Deep beads that serve to provide the necessary support structure to give static strength and adjacent to each other To connect trapezoidal sheets on their long sides with each other Insulation wedges filled out. Then there are thermal insulation elements loosely laid in the form of plates or sheets and then mechanically with holding plates and self-drilling screws on the Trapezoidal sheet attached, the drill tips of the screws Penetrate trapezoidal sheet by about 20 to 25 mm, which in relation to the physical properties (thermal bridges) Corrosion and an attractive appearance is disadvantageous. Finally, an external sealing is installed and waterproof and weatherproof roofing membrane. To absorb the suction load that occurs in strong winds this roofing membrane can now be attached, depending on the type of Manufacturing can be done in different ways. This Attachment is usually done at intervals, so that at very high wind speeds with an uncomfortable Noise development, a so-called "knock" associated Fluttering of the roofing membrane occurs.

The object of the present invention is to provide means for improved sealing and insulation of roofs, in particular of flat roofs.

This object is achieved by the component specified in claim 1 solved.

Advantageous developments of the invention are in the Subclaims marked.

The invention provides a component for sealing and Insulation of roofs, especially flat roofs, the one that gives the component static strength Support structure, at least one through the support structure held insulation layer for cold, heat and sound insulation, and a component that seals the component to the outside has waterproof and weatherproof roofing membrane. According to the invention it is provided that the at least one Insulation layer and the roofing membrane together with the support structure as a unitary composite element are produced.

An advantage of the component according to the invention is that the use of the same roof can be produced in one operation are. This is economical on the one hand and safe on the other in the sense of accident prevention during assembly, as well as with a lower environmental impact when processing the insulation materials connected.

According to a preferred embodiment of the invention, the individual layers of the component with one another or with connected to the support structure. The advantage of this is that screws as fasteners can be dispensed with.

The at least one insulation layer preferably contains one Pressure-resistant and pressure-distributing layer that supports the roofing membrane.

According to a particularly advantageous further development, it is provided that at least a first insulation layer and a second insulation layer are provided, of which the second Insulation layer as a pressure-resistant and pressure-distributing layer is trained who supports and supports the roofing membrane.

According to a particularly advantageous further development of the last-mentioned embodiment it is provided that the first insulation layer as the main cold, heat and soundproofing layer with good insulation properties is provided, and that the second layer of insulation an additional Insulation layer with high compressive strength and good pressure distribution properties is.

The first insulation layer preferably consists of a fiber material.

The second insulation layer preferably consists of a rigid foam material.

The first insulation layer preferably consists of mineral fiber.

The second insulation layer is preferably made of rigid polyurethane foam.

It is preferably provided that the at least one insulation layer is arranged on the support structure, and that the Roofing membrane is arranged on the at least one insulation layer, so that the support structure, the at least one insulation layer and the Roofing membrane form an integral composite structure, which at the Underside through the support structure and at the top through the roofing membrane supported by the second layer of insulation is limited. This embodiment is cheap to manufacture, simple to handle and process and it is visually appealing because the underside of the component facing towards the inside of the building the support structure is formed, which in terms of shape, Structure and surface can be designed accordingly.

The embodiments in which at least a first Insulation layer and a second insulation layer is provided by which the second layer of insulation as pressure-resistant and pressure-distributing Layer is formed that supports and supports the roofing membrane, are according to a particularly advantageous embodiment trained that the first layer of insulation on the support structure is arranged, and that the second carrying the roofing membrane Insulation layer is arranged on the first insulation layer, so that the support structure, the first layer of insulation, the second Insulation layer and the roofing membrane an integral composite structure form that at the bottom through the support structure and at the top through the one supported by the second layer of insulation Roofing membrane is limited. This embodiment is again inexpensive to manufacture, easy to use and process and it is visually appealing because it faces the inside of the building facing underside of the component through the support structure is formed, which in terms of shape, structure and surface can be designed accordingly, and it is outstanding in Regarding their insulation properties.

The support structure is preferably made of sheet steel or light metal sheet made trapezoidal profile with high load capacity educated.

According to a preferred development of the invention, it is provided that an intermediate layer under the roofing membrane a nonwoven material is arranged.

Such a fleece is preferably made of a synthetic or a mineral material.

According to the invention, several components are larger Can be joined together.

According to a particularly preferred embodiment, it is provided that the component has rectangular dimensions, with a long side and a short side weldable or gluable overlap areas of the Roofing membrane are provided, through which the roofing sheets several Components can be connected to a closed roof skin.

The carrier structure of the component is preferably on the Provide long sides of the same with deep beads, the Deep beads of adjacent components to the side Connection of the individual components overlap each other.

An exemplary embodiment of the invention is described below described the figure.

The figure shows a schematic side view the cross section through two to part of a roof skin interconnected components according to an embodiment the invention.

The component provided overall with the reference number 10 this includes the necessary static strength conferring support structure 1. This support structure 1 is through a trapezoidal profile of high load-bearing capacity is formed, made of sheet steel or light metal sheet is made. That is the support structure 1 forming trapezoidal profile can be of different Profiling and material thickness, as well as length, Width and coating with different surface structures differ. In the present embodiment the trapezoidal profile consists of a cold-rolled Sheet steel, which is galvanized on both sides, and depending on Purpose and environmental conditions additionally plastic coated can be in the form of fire retardant Coatings.

Several of the components 10 shown are larger Surface joinable, each component 10 rectangular Has dimensions. On the long sides, that's the one Carrier structure 1 forming the trapezoidal profile of the component 10 Deep beads 9a, 9b provided, the deep beads 9a, 9b each other adjacent components 10 for the lateral connection of the same overlap each other as the figure shows. The connection of the individual components 10 and their attachment to the roof load-bearing construction takes place in the overlapping Deep beads 9a, 9b, preferably with self-drilling, corrosion-protected steel screws.

On the support structure 1 formed by the trapezoidal profile a first insulation layer 4 arranged in the illustrated Embodiment consists of a mineral fiber material. This mineral fiber material also fills the deep bead 9a, see above that between the support structure 1 and the first insulation layer 4th no voids remain, particularly with regard to the Spread of fire gases in the event of fire is advantageous. On the first insulation layer 4 is a second insulation layer 5 arranged, which in the described embodiment Rigid polyurethane foam is made. The second insulation layer 5 is with the first insulation layer 4 is bonded flat without any binding agent, as well as the first insulation layer 4 with the support structure 1 is connected.

On the second insulation layer 5 is an interposed Nonwoven material 6 arranged a roofing membrane 2, which Seals component 10 to the outside and a waterproof and weatherproof closure of the same. The fleece material 6 is flat on the one hand with the second Insulation layer 5 connected, on the other hand, the roofing membrane 2 is flat connected to the fleece layer 6. Thus form as essential Components of the two insulation layers 4, 5 and the roofing membrane 2 together with the support structure 1 a composite element in the form one unit.

The first insulation layer made from the mineral fiber material 4 is the main cold, heat and sound insulation Layer which has particularly good insulation properties, while the second, made of rigid polyurethane foam Insulation layer 5 forms an additional insulation layer, in the first But forms a pressure-resistant and pressure-distributing layer, through which the roofing membrane 2 is carried. This is the roof element 10 easily accessible and against the usual Roof loads without deformation and injury the roofing membrane 2 resistant.

The roofing membrane 2 is in the described embodiment made of a flexible, thermoplastic high polymer material with a thickness of 1.2 mm or more, the one underneath between the Roofing membrane 2 and the second insulating layer 5 arranged fleece material 6, which may or may not be provided must be provided consists of a synthetic or mineral fleece material. The roofing membrane 2 can be made as such a conventional material, which, depending on Requirement of laminated inserts made of synthetic or mineral tear-resistant materials and can have conventional UV stability requirements, Weather resistance, root resistance, dimensional stability and mechanical strength, as well as the requirements regarding Flying fire and radiant heat met.

On one long side and one transverse side of the component 10 are weldable or gluable overlap areas 8 the roofing membrane 2 is provided, through which the roofing membranes 2 mutually adjacent components 10 to a closed Roof skin are connectable. In the illustrated embodiment are the roofing membranes 2 of the two components shown 10 at these overlap areas 8 by welding areas 7 connected with each other. The nonwoven material 6 is also like this made up in the area of the joint between the two adjacent components 10 overlaps so that the joint between the nonwoven material 6 against the joint of the Components 10 is offset.

The present invention makes an advantageous component for sealing and insulation of roofs, especially of Flat roofs created, in which the insulation layers 4, 5 and Roofing membrane 2 together with the support structure 1 an integral Form composite structure, this according to a particular preferred embodiment of the invention at the bottom through the support structure 1 and at the top by the the roofing membrane worn and limited is.

Claims (17)

Component for sealing and insulating roofs, in particular flat roofs, with a support structure (1) which gives the component (10) static strength, at least one insulation layer (4, 5) held by the support structure (1) for cold, heat and sound insulation , and with a waterproof and weatherproof roof membrane (2) sealing the component (10) to the outside, characterized in that the at least one insulation layer (4, 5) and the roof membrane (2) together as a unit with the support structure (1) forming composite element are provided. Component according to Claim 1, characterized in that the individual layers (2, 4, 5) of the component (10) are connected to one another over the surface or to the support structure (1). Component according to Claim 1 or 2, characterized in that the at least one insulation layer (4, 5) contains a pressure-distributing layer (5) which supports the roofing membrane (2). Component according to Claim 3, characterized in that at least a first insulation layer (4) and a second insulation layer (5) are provided, of which the second insulation layer (5) is designed as a pressure-resistant and pressure-distributing layer (5) which covers the roofing membrane (2 ) supports and supports. Component according to Claim 4, characterized in that the first insulation layer (4) is provided as the main cold, heat and sound-insulating layer with good insulation properties, and in that the second insulation layer (5) is an additional insulation layer with high compressive strength and good pressure distribution properties. Component according to claim 5, characterized in that the first insulating layer (4) consists of a fiber material. Component according to claim 5 or 6, characterized in that the second insulation layer (5) consists of a rigid foam material. Component according to Claim 6, characterized in that the first insulating layer (4) consists of mineral fiber. Component according to Claim 6, 7 or 8, characterized in that the second insulating layer (5) consists of rigid polyurethane foam. Component according to one of claims 4 to 9, characterized in that the at least one insulation layer (4,5) is arranged on the support structure (1) and that the roofing membrane (2) is arranged on the at least one insulation layer (4,5) , so that the support structure (1), the at least one insulation layer (4, 5) and the roofing membrane (2) form an integral composite structure, which is on the underside by the support structure (1) and on the top by the second insulation layer ( 5) worn roofing membrane (2) is limited. Component according to one of Claims 4 to 9, characterized in that the first insulation layer (4) is arranged on the support structure (1) and in that the second insulation layer (5) carrying the roofing membrane (2) is arranged on the first insulation layer (4) is so that the support structure (1), the first insulation layer (4), the second insulation layer (5) and the roofing membrane (2) form an integral composite structure, which on the underside by the support structure (1) and on the top by roofing membrane (2) carried by the second insulation layer (5) is limited. Component according to one of claims 1 to 11, characterized in that the support structure (1) is formed by a trapezoidal profile made of steel sheet or light metal sheet with a high load-bearing capacity. Component according to one of claims 1 to 12, characterized in that an intermediate layer made of a non-woven material (6) is arranged under the roofing membrane (2). Component according to claim 13, characterized in that the fleece (6) is formed from a synthetic or a mineral material. Component according to one of claims 1 to 14, characterized in that several components (10) can be joined together to form a larger area. Component according to Claim 15, characterized in that the component (10) has rectangular dimensions, with overlapping regions (8) of the roofing membrane (2) which can be welded or glued provided on each of a longitudinal side and a transverse side, through which the roofing membrane (2) of a plurality of components (10) can be connected to a closed roof skin. Component according to Claim 15 or 16, characterized in that the carrier structure (1) is provided on the longitudinal sides of the component (10) with deep beads (9a, 9b), the deep beads (9a, 9b) of mutually adjacent components (10) for lateral Connection of the individual components (10) overlap each other.

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