PL72539Y1 - Photovoltaic roof covering - Google Patents

Description

PL 72 539 Y1 2 Description of the design The subject of the utility model is a photovoltaic roof covering made of a flexible material composed of two layers. Photovoltaic elements for directly converting solar energy into electricity are known and used in construction. They have become a popular rooftop element because they do not take up any floor space. They are supplied in the form of photovoltaic panels mounted on sloping roofs in frames, for example, as an over-the-roof system in the form of a console above the original roof covering. Another system uses a supporting structure consisting of metal racks that allow the panels to be positioned at the appropriate angle. Another known photovoltaic system utilizes roofing directly from special shingles made of hardened asphalt boards with reinforcing fiberglass carrier inserts, to which a thin photovoltaic laminate layer is applied. The disadvantage of these solutions is the increased weight of the additionally installed systems, which require supporting metal structures. In the case of photovoltaic shingles, this involves a large number of electrical connections due to the limited size of the individual components. The essence of the utility model is that the photovoltaic roof covering is formed from lamellas, i.e., strips of thin metal sheet whose length is a multiple of the width. Such a strip of sheet metal corresponds to a rectangle in shape. Each lamella has two protrusions running lengthwise, the walls of which, in cross-section, are shaped like the capital letter α (lambda) and protrude from its outer side, i.e., the side directly exposed to sunlight and weather conditions. On one side of the lamella, directly from the edge, there is an anchoring strap that extends into the first protrusion. On the other side of the lamella, directly from the edge, there is a second protrusion. Furthermore, in the lower part of the wall of the first protrusion, there is a recessed fold with a rectangular cross-section. The second protrusion has a bend on its wall that turns toward the center of the lamella. A photovoltaic tape is attached between the first and second protrusions, on the outer side of the lamella. The first and second projections thus shaped enable adjacent lamellas to be connected, which is achieved by superimposing the second projection of the added lamella onto the first projection of the lamella already attached to the supporting roof structure. This superimposition occurs until the bend in the wall of the second projection of the added lamella engages with the rectangular fold in the wall of the first projection of the already attached lamella. The photovoltaic strip is attached to the outer side of the lamella between the first and second projections. The subject of the utility model is illustrated in the attached set of drawings, where Fig. 1 shows an example installation of photovoltaic roofing strips on a family home; Fig. 2 shows a cross-section of the roofing according to the technical solution; Fig. 3 shows an oblique top view of the photovoltaic roofing strip. An example of a photovoltaic roof covering. The roof covering is formed of lamellas 1, i.e., strips of thin metal sheet in a rectangular shape. The length of a lamella 1 is a multiple of its width. Each lamella 1 has two projections 6 and 7, running lengthwise, whose walls in cross-section have the shape of the capital letter ? (lambda) and protrude from its outer side, i.e., the side directly exposed to sunlight and weather conditions. On one side of the lamella 1, directly from the edge, there is a flat anchoring strap 4 passing into the first protrusion 6, and on the other side of the lamella 1, directly from the edge, there is a second protrusion 7. On the wall of the first protrusion 6, in its lower part, there is a fold 3, while the second protrusion 7 has a bend 5 on its wall turned towards the center of the lamella 1. The photovoltaic tape 2 is mounted on the outer side of the lamella 1 between the first protrusion 6 and the second protrusion 7. The lamellas 1 have a width of 480 mm and a length ranging from 3 m to 10 m, they are made of LPL sheet metal, which is a sheet metal with a special coating, or of galvanized sheet metal with a thickness of 0.5–0.6 mm. A compact, flexible photovoltaic tape 2 made of a durable material and a polymer that allows good solar radiation to pass through is glued to the outer side of the lamella 1. The photovoltaic tape 2 has a rectangular shape with a width adapted to the distance between the projections 6, 7 and a length adapted to the length of the lamella 1. PL 72 539 Y1 3 The lamellas 1 are manufactured in lengths corresponding to the needs of a specific roof. During installation, the individual lamellas 1 adhere to each other, with the bend 5 of one lamella 1 adjoining the rectangular fold 3 of the preceding lamella 1, which is mounted by fastening (not shown in the drawing) screws in the anchor strap 4. The electrical connections of the photovoltaic tape cables 2 are laid on the peak of the roof. The roof covering is self-supporting and designed for slopes above 5°. PL PL PL