FR3098020A1 - set of photovoltaic panels - Google Patents

Abstract

The object of the invention is a set 100 of two or four photovoltaic panels 110 distributed in a row with a space E between said panels, said panels thus being kept at a distance from each other, each panel comprising a honeycomb planar support 6, above this flat support, a rear screen layer 4 then an assembly composed of a layer 3 of photovoltaic cells housed between two encapsulation layers 2 and finally a transparent protective layer 1, this assembly being characterized in that at at least some of the aforementioned layers are produced by flexible sheets having an extent capable of covering the two or all four panels and the space existing between two juxtaposed panels so that at the level of the space between two panels these sheets form a hinge flexible after a lamination operation. Figure for the abstract: figure 2

Description

set of photovoltaic panels

The invention relates to a set of photovoltaic panels.

For the production of electricity by transformations of photons into electric current, photovoltaic panels are used which are each constituted by an often rectangular support on which support photon sensors have been fixed which are electrically coupled and connected to an output connector which will make it possible to supply a main electric line which will supply a battery or an electrical device possibly via a converter.

The support for these panels is often a glass plate because it is a good electrical insulator. We also know the use of alveolar plates which are made of plastic and are less heavy. The layer of light-sensitive cells is encapsulated between two sheets of a polymer such as EVA (ethylene vinyl acetate). A protective sheet such as a sheet of glass placed on the front face protects the cells from mechanical and chemical attack. . At the back of the sensitive cell layer a back screen is placed above the support and below the encapsulated cells. For encapsulation, polymer sheets are used which are transparent and which make it possible to isolate the cells from the surrounding atmosphere and to bond the different layers together.

These panels have various constraints.

If the weight has been reduced by the use of honeycomb support, the protective glass sheet remains heavy and fragile. Sealing defects can appear on the four sides of the panel.

When you want these panels to form an impermeable barrier like the tiles of a roof, you have to treat the spaces between each panel to obtain the required seal.

The invention aims to produce a new set of panels.

It relates to an assembly composed of photovoltaic panels arranged in a column or in a row, the said panels being distant from each other, each panel comprising a flat alveolar support, above this flat support, a screen layer then an assembly composed a layer of photovoltaic cells housed between two encapsulation layers and finally a transparent protective layer, this assembly being characterized in that at least some of the aforementioned layers are produced by flexible sheets having an extent capable of covering the panels and the existing space between two juxtaposed panels so that at the level of the space between two panels, these sheets will form a flexible hinge after a lamination operation.

The invention will be better understood using the description below given by way of non-limiting example with regard to the drawing which represents.

: composition of a panel.

: vertical section of a set of two panels.

: both panels folded down in side view.

: The principle of realization of the exit of the electric cables.

Referring to the drawing, we see a set 100 of two photovoltaic panels 110 distributed in a row with a space E between said panels, said panels thus being kept at a distance from each other. It could be a set of four panels or another multiple of two forming a row or a column.

Each panel comprises a planar honeycomb support 6, above this planar support 6, a rear screen layer 4 then an assembly composed of a layer 3 of photovoltaic cells housed between two encapsulation layers 2 and finally a transparent layer 1 of protection, this assembly being characterized in that at least some of the aforementioned layers are produced by flexible sheets having an extent capable of covering all the panels and the space E existing between two juxtaposed panels so that at the level of the space between two panels these sheets form a flexible hinge 7 after a lamination operation.

During the lamination operation of the complex described above, heat, pressure and a vacuum are combined on the mounted assembly so that the encapsulation sheets join the assembly together.

The material used for these encapsulation sheets is, for example, EVA (ethylene vinyl acetate). A flexible strip of material is thus formed connecting two or four panels. Because these are separated by approximately the thickness of one panel, the panels can be folded over another, which protects the front face during handling.

The protective layer of the front face is made of a sheet of ETFE (ethylene-tetrafluoroethylene). Replacing the glass with a plastic material saves weight.

The space left free by the absence of photovoltaic cells can be filled with a flexible material 8. By proceeding in this way, the entry points for humidity are located only at the two ends of the assembly and therefore on the longitudinal sides of the assembly.

It is also understood that the sheet(s) that cover(s) the entire row or column creates a good seal.

Advantageously the support 6 consists of a composite material honeycomb plate, covered on both sides with a sheet 5 of glass fibers and a polymer. An additional sheet of EVA will be used to make the connection between the support and the upper layers.

Sheets of EVA (ethylene vinyl acetate), for example, are used as encapsulating material.

The sensors generate current which is conveyed by conductive wires which make it possible to recover the electric current outside the panel. The organization of the photovoltaic cells and the electrical connections are determined so that the output of the electrical cables from each panel is carried out on one of the sides of the panel which is not connected to the adjacent panel by the encapsulation sheets.

The ends of the electric cables are accessible on the back of the panel and for this, the panel has in its thickness and from one of its edges; a cutout 10 made to obtain a part 11, for example rectangular of small surface in order to create a temporary housing from which the cables 12 of the panel come out, the part 11 being put back in place with a resin to undergo a lamination operation.

It is possible to make sets of four or more panels.

The materials used for the construction of the panels reduce their weight by around 70%. Handling is therefore facilitated.

The sealing is better because we use a sheet for at least two panels which reduces the entrance doors.

Claims (5)

Set (100) of photovoltaic panels (110) distributed according to a row or a column with a space (E) between the said panels, the said panels thus being kept at a distance from each other, each panel comprising a flat honeycomb support (6 ), above this flat support, a rear screen layer (4) then an assembly composed of a layer (3) of photovoltaic cells housed between two encapsulation layers (2) and finally of a layer (1) transparent protection, this assembly being characterized in that at least some of the aforementioned layers are produced by flexible sheets having an extent capable of covering the row or the column of panels and the space existing between two juxtaposed panels so that at the level of the space (E) between two panels these sheets form a flexible hinge after a lamination operation. Set of panels according to Claim 1, characterized in that the protective layer of the front face is produced by a sheet of ETFE (ethylene-tetrafluoroethylene). Set of panels according to claim 1 or 2, characterized in that the space (E) left free by the absence of photovoltaic cells is filled with a flexible material. Set of panels according to any one of claims 1 to 3 is characterized in that the organization of the photovoltaic cells and the electrical connections are determined so that the output of the electrical cables from each panel is carried out on one of the sides of the panel which is not is not connected to the adjacent panel. Set of panels according to claim 1 characterized in that the ends of the electric cables are accessible from the back of the panel and for this, the panel has in its thickness and from one of its edges; a cutout made to obtain a piece, for example a rectangular piece with a small surface area, in order to create a temporary housing from which the cables of the panel come out, the piece being put back in place with a resin to undergo a lamination operation.