NL1009690C2 - Roof element for prefabricated building has in built layers of insulating material and reinforcement structures - Google Patents

Abstract

The roof element (1) consists of two mirror image sides (2) which are hinged together at the peak by a flexible plastic hinge. The inner face of the roof is covered by a sealing plate (20) or layer of foil. The outer faces of the roof sides (2) are continuous sheets of impervious material. Between the inner and outer faces of the roof sides are sheets of insulation material with spaced bars of wood or plastic which reinforce the structure.

Description

ROOF ELEMENT

The invention relates to a roof element for a building, which roof element is provided with one or more layers of insulating material; and a general plate-shaped cover element, which is applied to the insulating material

Such a roof element is known in practice. The known roof element is mainly used in new construction. The known roof element is placed on a flat roof floor, which roof floor consists of, for instance, roof boarding plates or boards, asbestos, wood fiber plates, etc. The roof element itself is further finished after installation, for instance with roof tiles.

In the known roof element, a number of elongated cross beams are arranged on the cover element for reinforcement. These cross beams also serve to fix the known roof element to the roof floor of the building. The known roof element therefore has a flat, rigid structure, which makes it unsuitable for use in roof renovation. After all, the dismantling of tiles and battens from an existing roof generally results in a roof floor with many irregularities, which cannot be overcome by installing the existing roof element.

The object of the invention is to provide a roof element of the type mentioned at the outset, which is suitable for both new construction and renovation applications.

To this end, the roof element according to the invention is characterized in that the insulating material substantially forms the contact side of the roof element for placement on the building.

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Since the contact surface between the existing roof floor and the roof element according to the invention is mainly formed by the insulating material, a simpler adaptation to existing irregularities is possible.

An important further advantage of the roof element according to the invention arises in that an acoustic decoupling takes place between the "hard" elements of the roof element and the "hard" roof floor of the building. In addition to good thermal insulation, it is also possible to achieve good acoustic insulation.

In a preferred embodiment, a number of reinforcing elements are arranged on the contact side of the roof element for reinforcing the construction. The reinforcing elements are preferably arranged on the cover element, the thickness of the insulating material being greater than the thickness of the reinforcing elements. As an alternative or in combination with this, insulating material is applied to the reinforcing elements on the contact side of the roof element. In a further preferred embodiment, in a further preferred embodiment, a layer of foil is applied to the insulating material on the contact side. This also results in an improvement of the thermal insulation of the roof element according to the invention.

The invention also relates to an assembly of two roof elements according to the invention, in which the roof elements are connected to each other by means of a flexible fixing element, preferably a hinge, such as a three-point hinge. The advantage of such an assembly is that it can be fastened to the existing roof floor at the location of the fastening element. This achieves a high degree of acoustic decoupling.

The invention also relates to a method for applying an assembly according to the invention on a building, which method comprises the following steps: placing the assembly on the building; and 5 attaching the assembly to the building at the location of the flexible fastening element.

Preferably, the method further comprises the next step of applying acoustic decoupling material, such as construction felt, jute, coir, etc., between the building and the flexible fastening element.

The invention will be further elucidated hereinbelow with reference to the drawing, in which: figure 1 shows a schematic overview of the placement of an assembly of two roof elements according to the invention on a building; figure 2 shows a cross-section of the roof element according to the invention in a first preferred embodiment; Figure 3 shows a cross-section of the roof element according to the invention in a second preferred embodiment; figure 4 shows a cross-section of the roof element according to the invention in a third preferred embodiment; figures 5a and 5b show an assembly of two roof elements according to the invention, respectively in closed and open condition, in which the assembly is provided with a hinge with curved blades; Figures 6a and 6b show an assembly of two roof elements according to the invention, respectively in closed and open condition, in which the assembly is provided with a three-point hinge; Figures 7a and 7b show an assembly of two roof elements according to the invention, respectively in closed and open condition, in which the assembly is provided with a flexible band.

1000 390 4

Figure 1 schematically shows the arrangement of an assembly 1 of two roof elements 2 according to the invention on the roof floor 3 of a building. The installation of assembly 1 can be carried out in a simple manner, for instance with the aid of a hoisting crane. By way of illustration, figure 1 shows the placement of the assembly on the roof of a house. It will be clear that the invention is not limited thereto, but that the roof element is suitable for use in all kinds of buildings. The roof element according to the invention is also suitable for use in both new construction and renovation. The assembly according to the invention is particularly suitable for placing on sloping roofs, which will be explained later with reference to Figures 5a, 5b, 6a, 6b, 7a and 7b, but is not expressly limited to this.

Figures 2 to 4 respectively show cross sections of a first preferred embodiment, a second preferred embodiment 2 'and a third preferred embodiment 2 "of the roof element according to the invention. It is noted that like parts are provided with the same reference numbers.

The roof element according to the invention comprises a layer of insulating material 5 with a certain thickness d1. Any suitable type of insulating material can be used, but preferably cellulose is used. For example, the commercially available Homatherm © insulation boards are particularly suitable. Of course, several layers of insulating material 30 can be applied to each other. A cover element 4, which is generally plate-shaped, is arranged on top of the insulating material 5. Cover element 4 can for instance consist of a plate, several plate parts or slats.

A number of reinforcing elements 6 are arranged on cover element 4, such that they at least partly interrupt the insulating material 5. Reinforcing elements 6 have a thickness d2. The thickness of the reinforcing elements 6 may differ 1 oossgo 5 from each other. In general, it holds that the thickness d1 of insulating material 5 is greater than the thickness d2 of one or more of the reinforcing elements 6. Preferably, thickness d1 is greater than all thicknesses d2 of all 5 reinforcing elements 6. If the construction permits, it is even conceivable that reinforcing elements 6 are missing. In all cases this leads to the contact side 20 of the roof element 2 according to the invention mainly consisting of insulating material 5. Figure 3 shows a second preferred embodiment of a roof element 2 'according to the invention, in which a further insulating material 7 is applied to reinforcing elements 6 . For insulating material 7, the same applies as described above with regard to insulating material 5. Insulating materials 5 and 7 may be the same or different from each other. Contact side 20 now consists of two types of insulating material.

Figure 4 shows a third preferred embodiment of a roof element 2 "according to the invention, in which a foil 8 is provided on the insulation material 5 to improve the insulation. Contact side 20 now only comprises foil. It is noted that the invention also relates to all realizable combinations of the preferred embodiments shown in figures 2 to 4.

The roof element according to the invention can be attached to the roof floor of a building by many techniques known in the art. A unique method of attachment is explained in more detail below with reference to the remaining figures and is also part of the invention.

Figures 5a and 5b, figures 6a and 6b and figures 7a and 7b each show an assembly of two roof elements 35 according to the invention, which are mutually connected by a flexible fixing element 9, 13 or 17. For clarification, each assembly is always closed ( a) and the open (b) state shown.

1003590 6

In Figures 5a and 5b, the flexible mounting element is a hinge 9 with curved blades 10, hinge point 12 and optional reinforcing elements 11. In Figures 6a and 6b, the flexible mounting element 5 is a three-point hinge 13 with hinge points 14, 15 and 16. In Figures 7a and 7b the flexible fastening element is a hinge 17 consisting of a flexible band 18, which is stretched between reinforcing elements 19. Flexible band 18 is preferably of reinforced plastic.

In the figures indicated with extension b, the open state of the assembly is shown, in which it can be mounted on the ridge of a sloping roof. This has already been illustrated in the schematic overview of figure 1. The assembly can herein advantageously be fixed on the ridge of the roof floor 3 at the location of pivot point 12 or pivot point 15 or flexible band 18, respectively. Preferably, a decoupling material is provided between the attachment point of the assembly and the ridge of the building, for example, construction felt, jute or coconut. In this way a far-reaching acoustic decoupling between the roof element and the roof floor is obtained.

The roof element according to the invention can be produced as a prefabricated or "prefab" roof element. It is also conceivable that the roof element is built on location with the advantage that it can be optimally adapted to the prevailing circumstances.

Naturally, the invention is not limited to the shown and described preferred embodiments, but includes all embodiments consistent with the foregoing description and within the scope of the appended claims.

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Claims (10)

1. Roof element for a building, which roof element is provided with one or more layers of insulating material; and a generally plate-shaped covering element, which is arranged on the insulating material, characterized in that the insulating material forms substantially the contact side of the roof element for placement on the building. Roof element according to claim 1, wherein a number of reinforcing elements are arranged on the contact side of the roof element. Roof element according to claim 2, wherein the reinforcing elements are arranged on the covering element and wherein the thickness of the insulating material is greater than the thickness of the reinforcing elements. Roof element according to claim 2 or 3, in which insulating material is arranged on the reinforcing elements on the contact side. Roof element according to claim 1, in which a layer of foil is applied to the insulating material on the contact side. An assembly of two roof elements according to any one of the preceding claims, wherein the roof elements are connected to each other by means of a flexible fixing element. Assembly according to claim 6, wherein the flexible fixing element is a hinge. The assembly of claim 7, wherein the hinge is a three-point hinge. Method for applying an assembly according to claim 6, 7 or 8 to a building, which method comprises the following steps: 1 v,. y c placing the assembly on the building; and attaching the assembly to the building at the location of the flexible fastening element. A method according to claim 9, the method further comprising the next step: applying acoustic decoupling material, such as construction felt, jute, coir, etc., between the building and the flexible fixing element. ***** 1008690