SK500162019U1 - Heated roof covering - Google Patents

Abstract

The heated roof covering is formed of building elements in the form of long continuous thin lamellas (1), which have an anchoring strip (5) and a first protrusion (3) formed on one entire longitudinal edge. A second protrusion (4) is formed on the slats (1) on the second entire longitudinal edge, while a photovoltaic panel (2) is optionally mounted on the upper side of the slat (1) and on the lower side of the roof slat (1) between the first protrusion (3). ) and a waterproof heating mat (6) fixed by the second protrusion (4). The heating mat (6) is an electrically heated body mounted under the entire surface of the photovoltaic panel (2). The heating mat (6) is electrically connected to the home electrical network or to the photovoltaic panel (2).

Description

Technical field

The solution belongs to roof coverings made of flexible material, supplied in strips that are heated by electric current. The heating resistance element is a fixed part of the roof covering.

Prior art

Due to the freezing of roof structures, roof coverings and the gutter system, it is common and necessary to apply roof heating in construction. Roofs, gutters, roof edges, etc. can be protected against icing. Heating cables are used for this, in which heat is generated by a resistive conductor supplied with electricity. Usually, the strip under the snow traps is heated in a width of about 50 cm with a heating power of about 200 W / m ² . The heating cable is installed in a bellows or saw. The attachment is chosen according to the type of roof and roofing. It is possible to use silicone bonding with new sealant, plastic, wire or sheet metal clips and possibly combine these methods so that the heating cable is firmly attached to the edge of the roof. If the conductor is attached by gluing, the joint on the roof is exposed to large temperature weather fluctuations and its service life is generally limited. If the conductor is fastened with wire or sheet metal clips, an impact will be made in the roof sheathing. This can result in leaks into the roof space or directly into the interior of the building. If photovoltaic or solar panels are installed on the roof, such installation of heating conductors is insufficient. If these panels, which convert solar energy into electricity, are covered with snow, then they are inoperative and have zero power.

The essence of the technical solution

These disadvantages are eliminated by a technical solution, the essence of which consists in the fact that the roof covering, formed from building elements in the form of long continuous thin lamellas, especially metal lamellas, whose length is several times their width, while at one whole longitudinal edge an anchor strip is formed on each lamella. and a first protrusion, while a second protrusion is formed on the lamella at the second full longitudinal edge. An photovoltaic strip is optionally attached to the lamella from the top. From the underside of the roof lamella, a water-resistant heating mat of the lamella is fixed between the first protrusion and the second protrusion. The heating mat is an electrically heated resistive element. It is mounted under the entire surface of the photovoltaic panel. Heating mat connected to the home el. network or to the photovoltaic panel.

Overview of figures in the drawings

The technical solution can be clearly explained by means of the attached figures, where fig. 1 shows a roof covering partly equipped with photovoltaic panels; Fig. 2 is a view of the roof lamella when viewed from the shorter end in the direction of its length. A photovoltaic panel is mounted on the lamella from the top and a heating mat from the bottom;

Fig. 3 is a bottom view of the roof lamella with the heating mat attached.

Examples of embodiments

The heated roof covering is formed of building elements in the form of long continuous thin lamellas 1, in particular metal, the length of which is several times their width. An anchor strip 5 and a first protrusion 3 are formed on one entire longitudinal edge on the lamella 1. A second protrusion 4 is formed on the lamella 1 on the entire entire longitudinal edge. A photovoltaic strip 2 is attached to the upper side of the lamella 1. The photovoltaic strip 2 is most lamellae 1. arranged optionally. This means that the roof covering can also have lamellae 1 without a photovoltaic panel 2. An adhesive is applied to the underside of the lamella 1, realized as a double-sided adhesive film, supplied in a roll. This material, with a long service life, resists fluctuations in ambient temperatures and humidity in the range from -35 ° C to +90 ° C. A heating mat 6 is pressed onto the adhesive, placed in two polyester foils, which are heat-laminated together. Foils can be cut to any length. After the adhesive has hardened, a non-detachable joint is formed. The heating mat 6 is an electric resistance heating element. protected by a location in the roof space, which contributes to long life.

The roofing is formed by gradually placing the slats 1 on the truss, anchoring them through the anchoring strip 5.

S K 50016-2019 U1

When laying, another strip of roofing is connected by placing the second protrusion 4 of the next lamella 1 on the first protrusion 3 of the previous lamella 1 and snapping them together. This proceeds to cover the entire roof. The last lamella 1 is anchored separately. When the photovoltaic panel 2 is mounted on the outside of the lamella 1, the heating mat 6 melts on the snow that has fallen on it. Photovoltaic panel 2 remains functional even 5 in winter. The heating mat 6 melts the snow wherever its heating effect extends from the underside of the lamella. Thus, the entire roof can be heated, ultimately even if the photovoltaic panels 2 are not on the roof. The heating mat 6 can be connected directly to the building's electrical network. Another advantage is that the heated photovoltaic roofing can be connected in such a way that it will generate energy for its own heating in the photovoltaic panels 2 itself. It can be connected in such a way that in bad weather (snowfall, 10 freezing rain) the heating of the roofing is switched on manually or it is switched on and off automatically by means of a temperature and humidity sensor.

In the case of heated photovoltaic roofing, it is no longer necessary to solve the heating of the roof from the exterior using heating cables, which eliminates mechanical interventions in the roof, which increases the functionality and life of the roof.

S K 50016-2019 U1

List of reference marks

- lamella (roofing)

- photovoltaic panel,

3 - first protrusion

- second protrusion

- anchor strip

- heating mat

- plug

Claims (3)

CLAIMS FOR PROTECTION 1. Heated roof covering, formed from building elements in the form of long continuous thin lamellas, in particular of metal, the length of which is several times their width, while on one whole longitudinal 5 at the edge, an anchor strip and a first protrusion are formed on each lamella, while at the second full longitudinal edge a second protrusion is formed on the lamella, between which a photovoltaic panel is optionally mounted on the upper side of the lamella, characterized in that the lower side of the lamella (1) a roof mat (6) is attached to the roof covering. Heated roof covering according to claim 1, characterized in that the heating rod (6) is an electric resistance heater mounted on the surface of the lamella (1) between the first protrusion (3) and the second protrusion (4) of the lamella (1). Heated roofing according to claims 1 and 2, characterized in that the heating mat (6) is mounted on the opposite side of the lamella (1) below the photovoltaic panel (2), the area of the heating mat (6) being equal to or larger or also smaller than the area of the photovoltaic panel (2). Heated roof covering according to one of the preceding claims, characterized in that the heating mat (6) is connected to the home el. network or to the photovoltaic panel (2).