SE455510B - roof panels - Google Patents

Description

The present invention thus relates to roof elements | sheet metal, which when roofing is intended to be laid next to and partially overlapping each other, to cover the intended roof surface, which elements are provided with two mutually parallel long sides intended to be laid perpendicular to the direction of a roof pitch, where at least one of the long sides comprises a beam to form a batten and where the part of the roof element surface which is present between the long sides is profiled, to be able to receive loads, such as personal and snow loads and transfer the load to said beam and is characterized in that at least a part of said beam is made of a separate piece of material in a material quality, which in combination with the material thickness of the part has a higher strength than the sheet material, of which the roof element is otherwise made and that said part of the beam and the other roof element are joined to one unit.

The present invention is described in more detail below in connection with various embodiments of the invention shown in the accompanying drawing, in which - Fig. 1 shows a schematic perspective view of a part of a roof element according to a first embodiment, - Fig. Z-4 shows on a larger scale a section through the roof element according to different embodiments, where the section is chosen to lie parallel to the roof pitch for an element mounted in the intended manner.

Fig. 1 shows the roof element laad laid along a roof slope on trusses 2.

As can be seen from Fig. 1, the lower part 3 of the upper roof element 1b overlaps the upper part 4 of the lower roof element 1c. This is clearer from Fig. 2-B. 'Width of the roof elements, i.e. length in the direction of the roof slope, is normally approximately corresponding to the length of a normal tile and the width of the roof elements, i.e. length parallel to the roof pitch is a whole multiple of the c / c distance plus overlap.

Thus, the roof elements are intended to be laid adjacent to and partially overlapping each other to cover the intended roof surface. Each of the elements has two mutually parallel long sides 5, 6 intended to be laid perpendicular to the direction of a roof pitch. At least at a long side 5 there is an upper part 4, which consists of a beam 7, which is intended to form a batten and thus support the loads the roof may be exposed to and transfer the load to the trusses 2. At the other long side 6 is, according to an embodiment said portion 3 is designed so that it is in cross-section substantially Z-shaped or L-shaped to abut closely against the upper portion Å of a lower roof element. The exact shape of said lower portion 3 is thus determined by said upper partis h form. 455 510 The part 8 of the surface of the roof element, which is present between the portions 3, k, is profiled in order to be able to receive loads, such as passenger and snow loads and to transfer such loads to said beam 7.

The profiling can be of any suitable type, but can, as indicated in Fig. 1, be formed with curved surfaces.

According to. According to the invention, at least a part 9 of said beam 7 is made of a material which, in combination with its material thickness, has a higher strength than the roof element in general, which part of the beam is joined to the rest of the roof element, so that the roof element forms a continuum. Said part 9 is intended to be attached to a base, such as trusses.

Because the part 9 is made of a more durable material than the element in general, the part 9 can be made so that it has sufficient rigidity to be able to be fastened directly to roof trusses, without resorting to special fastening elements.

That the beam or a part of it is made of a material which in combination with the total material thickness has a higher strength than the material in the rest of the element in combination with its material thickness means the following.

This includes three cases, namely that a material with a higher specific strength, such as yield strength, in combination with the thickness of the material part gives a higher total strength measured in the ability to absorb a force, i.e. a material with the same specific strength or lower strength is utilized, which in combination with the thickness of the material part gives a higher strength and partly that the roof element consists of one and the same sheet metal piece, which is folded one or more times at the place of said beam, so that the beam consists of several layers of a sheet material.

According to. A preferred embodiment is the part of the roof element which is made of the material which has a lower strength embedded in the part of the beam which is made of a material with a higher strength.

Figs. 1, 2 and 3 show examples of such a rebate, where at the rebate point 10, the more solid part 11,12, as well as the other part 13,14 of the element are folded to form a rebate. In Fig. 1, the fold-in point 10 is placed on one leg of the U-shaped beam 7. In Fig. 3, the fold-in point is placed in the bottom of the U-shaped beam 7. 455 510 EL * Thus, in the embodiments according to Figs. 1 and 3, the U-shaped beam 7 is formed of both the stronger material and the less strong material.

However, such a U-beam has a considerable strength, in that a U-beam is a beam shape which can absorb large force perpendicular to the longitudinal direction of the beam in relation to the material in which it is made.

A preferred embodiment, especially when further higher strength is desired, for example when the c / c distance exceeds 1200 mm, is shown in Fig. 2. According to this embodiment, the entire beam 7 is made of the stronger material. Furthermore, both legs l5, l6 are intended to abut against trusses 2.

Suitably, the beam is attached to the trusses at its abutment surfaces against the trusses, as indicated by dashed lines 17, 17 in Figs. 2-Ä, by means of screws or nails 19, 20. In Fig. 2 ~ Å a roof element 1 and a part of an upper part are shown. gande element l '. The lower portion 3 of the upper element 1 'is, as shown in the figures, designed to connect to the upper portion h of the lower element 1. Preferably, the lower portion 3 is fixed by means of the same screw or nail 20, by means of which the beam is attached to its lower portion.

According to a further embodiment shown in Fig. Ä, the two material parts 21, 22 are welded to each other by means of a weld 23. The weld 23 can either be whole or consist of a spot welding.

The roof element according to the invention can be made of the same or different materials. Thus, the part 9 of the beam, which has a material with higher strength, can be made of steel sheet, for example galvanized steel sheet, while the rest of the element 3,8 can be made of coated steel sheet with a smaller thickness, for example 0.5 mm.

A further embodiment of the invention is to make the beam in sheet steel and the rest of the element in aluminum. This provides a corrosion-resistant roof, which protects the beam. Measures to prevent galvanic contact are taken in an appropriate manner.

An essential advantage of an element according to the present invention is thus that a strong beam can be arranged, which due to the fact that it is made of a material with higher strength than the remaining part of the element can be made lower than if it was made of the same material, which the remaining part of the element and which can be made to carry loads over significantly larger c / c distances than 1200 mm, while the remaining part is made of a thin material, which weighs little and is easily malleable.

A further advantage is that since the beam and the element otherwise form a unit, no special adjustment of the beams separately and covering elements separately need be carried out, which is the case when, for example, a roof is erected with a conventional supporting batten, which forms a beam for support of less durable roofing elements.

A finished tight roof is thus obtained by means of the present roof elements, by only attaching these directly to the roof trusses.

It is quite obvious that the present invention can be varied in a variety of ways.

For example, instead of being designed as a U-beam, the beam can be designed as a C-beam or Z-beam.

Furthermore, the fold-in post or the corresponding point can be relocated to other places than shown in another fastening method. The profiling can be done differently than that shown in Fig. 1. Other conceivable fastening methods are gluing or partial punching of the parts, followed by folding of the punched tongue-shaped parts.

Furthermore, a stronger beam can also be attached in a corresponding manner to the lower part of a roof element.

A further embodiment which is considered to be included in the invention is to make the elements wider. i.e. further in the direction of the roof slope, by folding in the factory, for example, a thinner material of the lower part of a roof element with the beam of more solid material present at the upper part of an additional element, whereby for example the roof element comprising three to four elements according to Fig. 2-Ä is obtained .

Thus, the present invention is not to be construed as limited to the embodiments set forth above, but may be varied within the scope of the appended claims.

Claims (6)

455 510 Patent claims 1. Roof elements in sheet metal, which when roofing are intended to be laid next to and partially overlapping each other, to cover the intended roof surface, which elements are provided with two mutually parallel long sides intended to be laid perpendicular to the direction of a roof pitch, where at least one of the long sides comprises a beam (7) intended to form a batten and where the part (8) of the roof element surface which is present between the long sides is profiled, in order to be able to receive loads, such as passenger and snow loads and transferring the load to said beam (7), characterized in that at least a part (9) of said beam (7) is made of a separate piece of material in a material quality which in combination with the material thickness of the part (9) has a higher strength than the sheet material, of which the roof element (I) is otherwise made and that said part (9) of the beam and the other roof element (3,8) are joined together into one unit. 2. Roof element acc. claim 1, characterized in that said beam (7) is U-shaped and in that at least the legs (16) projecting from the free legs of the U, which are made of the material with higher strength, are arranged to abut directly and attached to a base, such as trusses (2). Roof element acc. claim 1 or 2, characterized in that the part (8) of the roof element (1) which is made of the material which has a lower strength is embedded in the part (9) of the beam (7) which is made in a material with higher strength. Oh. 4. Roof element acc. Claim 1 or 2, characterized in that the two material parts of a roof element are welded to each other. 5. S. Takelement enl. claim 1, 2, 3 or Ä, characterized in that said beam (7) is made of sheet steel while the remaining part (8) of the roof element (1) is made of aluminum sheet; 6. Roof element acc. any of the preceding claims, characterized in that the beam (7) is made of a sheet material with a greater thickness than the remaining part (8) of the roof element (1).