DE20208283U1 - Plate-like element for covering buildings, in particular roofs of buildings - Google Patents

Description

Famos GmbH in 16866 Kyritz

Plate-like element for covering buildings, especially roofs of buildings

The innovation relates to a plate-like element for covering buildings, in particular roofs of buildings, with a heat-insulating layer. The innovation also relates to a building that is covered with such plate-like elements.

The innovation is based on the task of proposing a plate-like element of the type mentioned above, which

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enables quick and easy installation on a building. Furthermore, material accumulations should be avoided at the joints between individual plate-like elements.

According to the innovation, this task is solved by

on the heat-insulating layer a first bituminous layer

and that a second bituminous layer is arranged on the first bituminous layer.

While in the traditional way, a thermal insulation layer is first applied to the roof of a building and then one or more layers protecting against moisture and mechanical stress are applied on top of this, the innovation means that the construction of the individual layers is moved to the workshop so that finished elements can already be attached to the roof, where only the longitudinal and transverse joints need to be sealed.

By means of a special design of the edge or edges of the individual layers of the element, it is possible to seal the longitudinal and transverse joints particularly easily and quickly, and in particular to avoid accumulations of material at certain points.

The first bituminous layer is preferably slightly longer than the heat-insulating layer and is arranged on the latter in such a way that it protrudes with an edge strip on one side, preferably the transverse side. The second bituminous layer is preferably slightly narrower than the first layer, but has the same length and is arranged on the first layer in such a way that it protrudes with an edge strip beyond the protruding edge strip of the first layer, but at the other edges it recedes from the edge of the element. Such elements can be installed on the roof of the building in such a way that the heat-insulating layers lie next to one another, butt-jointly. On the long sides of the elements that do not have protruding edge strips, the joints can be covered by strips that are inserted into the edge strips left free by the second layer. The connection point can be covered by another, wider strip. On the sides that run transversely to the long sides, the connection can be made by an alternating, overlapping arrangement of the protruding edge strips of the first and second layers. This arrangement prevents all joints - both those running longitudinally and those running transversely - from being covered by additional strips

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which then form undesirable thickenings at the intersection points.

Thanks to the innovation, it is possible to create a covering with a heat-insulating layer that is covered everywhere by at least two layers of a more solid material. Using the elements according to the innovation, a roof can be produced in one step that complies with the usual guidelines for flat roofs. The arrangement of the edge strips ensures that the seams between the individual layers are offset from one another.

In this text it has been assumed that the panel element is rectangular, which in the vast majority of cases is the most convenient shape both for use and for production. However, it is understood that the innovation can also be applied to an element with another suitable layout.

Further details of the innovation are explained using the drawing, which shows an example of the innovation. It shows:

Fig. 1 a plate-like element according to the innovation in plan view,

Fig. 2 the element according to Fig. 1 in side view,

Fig. 3 is a cross-section through a section of a roof covered with plate-shaped elements according to Fig. 1 and 2 and

Fig. a cross-section through a section of a roof according to Fig. 3, but from a viewing angle rotated by 90° compared to Fig. 3.

The plate-like element 1 has a rectangular base. It consists of a heat-insulating layer 2 on which two bituminous layers 3 and 4 are arranged. The heat-insulating layer 2 can consist of a commercially available insulating material approved for roofs, such as PS 20 SE, PS 30 SE, mineral wool, or a PUR (polyurethane) plate. It can have a thickness of 50 - 80 mm. The bituminous layers 3 and 4 consist of roof sealing membranes, e.g. made of bitumen with an insert, such as a fleece made of glass or polyester fibers, which gives the sealing membrane strength. The use of polymer bitumen welded membranes is advantageous. The individual layers can

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be joined together by welding, gluing or similar.

The first bituminous layer 3 is arranged directly on the heat-insulating layer. It is just as wide but slightly longer than the heat-insulating layer 2 and is arranged on the latter in such a way that it projects beyond the heat-insulating layer 2 on one side, which is referred to here as the transverse side 5, with a projecting edge strip 6, but is flush with it on the other sides.

The second bituminous layer 4 is arranged on the first bituminous layer 3. It is just as long, but somewhat narrower than the first bituminous layer 3 and is arranged in such a way that it covers the protruding edge strip 6 of the first bituminous layer

3 with a projecting edge 7, but ends on the opposite transverse side before the first bituminous layer 3, so that a free edge strip 8 is formed there, not covered by the second bituminous layer 4. The free edge strip 8 has the same width as the projecting edge strip 6 of the first bituminous layer 3. The projecting edge strip 7 of the second bituminous layer

4 is twice as wide as the protruding edge strip of the first bituminous layer 3. At the protruding edge strip

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6 and 7 the bituminous layers are not connected to each other.

The second bituminous layer 4 is arranged centrally to the longitudinal center line of the element, so that edge strips 10 are formed on the long sides 9, which are free, i.e. not covered by the second bituminous layer 4. On the outer surface facing away from the first bituminous layer 3, the bituminous layer 4 is provided with a slate coating, although edge strips 11 free of the slate coating are provided in the area of the long sides 9.

In one embodiment of the innovation, the heat-insulating layer 2 has a width of 1.08 m and a length of 3.00 m. The first bituminous layer 3 has a width of 1.08 m and a length of 3.10 m. The second bituminous layer 4 has a width of 1.00 m and is 3.10 m long.

Figures 3 and 4 show the arrangement of two abutting elements mounted on a building according to the innovation. The roof of the building is indicated at 12.

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Fig. 3 shows how the elements 1 and 1' are connected to each other on the long sides 9. The heat-insulating layers 2 and 2' are joined together butt-jointed, as are the first bituminous layers 3 and 3'. Mechanical brackets for fastening the heat-insulating elements 2, 2' to the building can also be inserted into the joint 13 between the elements 1 and 1'.

The joint 13 is covered by a first, narrow strip 14 which is arranged on the free edge strip 10 or 10' of the bituminous layers 3 and 3' and whose width corresponds to the combined width of both edge strips 10 and 10'. The strip 14 is in turn covered by a second, wide strip 15 which is arranged on the second bituminous layers. The layers and strips are connected to one another by welding, as shown for the strip 15 at 16. Good fastening of the strip 16 is achieved by the fact that the edge strips 11 are not slated.

In Fig. 4, the connection of two elements 1, 1' can be seen at their transverse sides 4. The heat-insulating layers 2 and 2' abut each other to form a joint 17. In the element 1, the first bituminous layer 3 is flush with the heat-insulating layer 2. The second bituminous layer 4 is

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arranged offset to form a free edge 8. At the abutting end of the other element 1', the bituminous layers 3' and 4' have projecting edge strips 6' and V. The edge strip 6' covers the free edge strip 8, while the edge strip 7' is arranged on top of the bituminous layer 4. The bituminous layers 3 and 3' and 4 and 4' are connected to one another by welds 18 and 19, respectively, which can be carried out one after the other, since the edge strips 6' and V are not connected to one another and can thus be folded apart to apply the weld 18.

Claims (10)

1. Plate-like element for covering buildings, in particular roofs of buildings, with a heat-insulating layer, characterized in that a first bituminous layer ( 3 , 3 ') is arranged on the heat-insulating layer ( 2 , 2 '), and that a second bituminous layer ( 4 , 4 ') is arranged on the first bituminous layer ( 3 , 3 '). 2. Plate-like element according to claim 1, characterized in that the first bituminous layer ( 3 , 3 ') projects beyond the heat-insulating layer ( 2 , 2 ') at one edge ( 5 ) with a projecting edge strip ( 6 , 6 ') and is flush with the heat-insulating layer ( 2 , 2 ') at the other edges. 3. Plate-like element according to claim 1, characterized in that the second bituminous layer ( 4 , 4 ') projects beyond the first bituminous layer ( 3 , 3 ') at one edge with a projecting edge strip ( 7 , 7 ') and is set back from the first bituminous layer ( 3 , 3 ') at the other edges. 4. Plate-like element according to claim 2 and 3, characterized in that the second bituminous layer ( 4 , 4 ') projects beyond the projecting edge ( 6 , 6 ') of the first bituminous layer ( 3 , 3 '). 5. Plate-like element according to claim 4, characterized in that the bituminous layers ( 3 , 3 ', 4 , 4 ') and the heat-insulating layer ( 2 , 2 ') are firmly bonded to one another, in particular by welding, although in the region of the projecting edge strips ( 6 , 6 ', 7 , 7 ') there is no firmly bonded connection between the first and second bituminous layers ( 3 , 3 ', 4 , 4 '). 6. Plate-like element according to one or more of the preceding claims, characterized in that it has a rectangular shape, wherein the first bituminous layer ( 3 ) has the same width and a greater length than the heat-insulating layer ( 2 ), and wherein the second bituminous layer ( 4 ) has the same length and a smaller width than the first bituminous layer ( 3 ). 7. Plate-like element according to one or more of the preceding claims, characterized in that the second bituminous layer ( 4 ) has a slate coating on its upper side, wherein unslated edge strips ( 11 ) are provided. 8. Building covered with plate-like elements according to one or more of the preceding claims, characterized in that the plate-like elements ( 1 , 1 ') are arranged as follows: 1. the heat-insulating layers ( 2 , 2 ') lie side by side - on the longitudinal sides ( 10 ) of the elements ( 1 , 1 ') where the bituminous layers ( 3 , 3 ', 4 , 4 ') have no projecting edges, the joints ( 13 ) are covered by first, narrow strips ( 14 ), - at the transverse edges ( 5 ), the projecting edge strips ( 6 ', 7 ') of the first and second bituminous layers ( 3 ', 4 ') of an element ( 1 ') overlap the edge of the adjacent element ( 1 ). 9. Building according to claim 8, characterized in that the first narrow strip ( 13 ) is arranged on the surface (edge strip 8 , 8 ') of the respective first bituminous layer ( 3 , 3 ') which is left free by the recessed edges of the second bituminous layer. 10. Building according to claim 8, characterized in that the first, narrow strip ( 14 ) is covered by a second, wide strip ( 15 ) which is arranged on the second bituminous layer ( 4 , 4 ').