FR3036782A1 - PHOTOVOLTAIC INSTALLATION WITH RECOVERY - Google Patents

Abstract

. Installation with multiple photovoltaic panels 2 with heat recovery intended to be installed on the roof comprising under each voltaic panel a rear wall 3 distant from this panel to form a space 4 in which circulates air to be heated this installation being characterized in that that the panels 2 are joined together by means of assembly 5 sealed together so as to form a single upper wall which cooperates with a single rear partition delimiting a single space in which circulates the air to be heated so that this space may comprise a single air extraction outlet.

Description

i. The invention relates to an installation of photovoltaic panels with heat recovery to be laid over-roofing. Photovoltaic panels were initially used to produce only electric power. To produce hot water, other panels were planned. It was soon found that the cells of these photovoltaic panels have a diminishing efficiency when the sun heats the cells above 25 ° Celsius. So the more we get more sun the yield decreases. It has therefore been decided to cool the cells and for this there are several methods depending on whether the installation is integrated into the roof or placed on it. In the latter case we know an installation EP 2 623 909 where under each panel is mounted, via a frame, a rear partition remote photovoltaic cells to form a space in which will circulate air that will cool the cells for 15 increase the yield. The air circulating in this space will therefore heat up and it appears useful to recover this heated air, at least in the winter, to use the thermals in a heating circuit. Such an installation comprises a plurality of panels and therefore each panel 20 is equipped with its rear partition delimiting its volume of air and a sleeve for introducing air and a second sleeve for extracting heated air and air. bring to an air circuit that will exploit this heated air. As an installation comprises several panels, under each panel equipped with its rear partition is provided an opening in the roof to pass a pipe recovering the heated air. 3036782 2 Often these individual installations comprise between twelve and twenty panels and it is immediately understood that it takes as much passage in the roof as panels which generates risks of water leakage at these passages. Then there is the clutter of the many pipes which requires to mount these facilities only for roofs lost. An object of the invention is to propose a solution that is simpler. To this end, the subject of the invention is an installation with several photovoltaic panels with heat recovery comprising, under each photovoltaic panel, a rear partition remote from the panel to form a space in which air circulates to be heated, this installation being characterized by that the panels are joined by means of assemblies sealed together so as to form a single upper wall which cooperates with a single rear partition to define a single space in which circulates the air to be heated so that this space may comprise a single air extraction outlet. The invention will be better understood with the aid of the following description given by way of non-limiting example with reference to the drawing which represents: FIG 1 an installation being assembled FIG. 2 sectional view of an interlocking between panel FIG 3 the corner of a panel seen in perspective FIG 4, another type of assembly between panels FIG 5: a single-row installation of panels FIG 6 a detail of FIG. FIG. 5 illustrates an example of interlocking of the elementary rear bulkheads. Referring to the drawing, there is shown a photovoltaic installation 1 with heat recovery disposed above a roof. Unlike the so-called integrated installations where the panels 2 replace the roofing elements of the roof, the roof remains in place and the panels are placed above on a structure. These panels are rectangular but could be square. This installation with several photovoltaic panels 2 with heat recovery comprises under each voltaic panel a rear partition 3 distant from this panel to form a space 4 in which circulates air to be heated. The panels 2 are joined together by means of assemblies sealed together so as to form a single upper wall and for example have on their edges 2A, 2B means 5 assembly tight between them so as to form a single upper wall which cooperates with a single rear partition defining a single space in which circulates the air to be heated so that this space may comprise a single air extraction outlet.

In a simplified version in FIG. 4, the sealing assembly means 5 are a kind of glazing bead which cap the edges of the panels or an H profile, which makes it possible to obtain a sufficient seal to consider that a single wall has been constructed. In a more interesting version, the assembly means 5 of the panels consist of a nest 5 comprising a female part 5A and a male part 5B, the female part equipping two side juxtaposed panel considered, the other two sides of said panel comprising the part male. The male fitting is located on two sides forming an L and on the opposite L, we find the female part.

The engagement 5 is shaped to establish two chambers 7, 8 closed in the direction of the thickness of the panel.

The female portion 5A of the nesting consists of two wings 9,10 located for one 9 in the upper plane of the panel and the other 10 in the lower plane of said panel. The male portion 5B of the interlock is composed of a lower flange 5 positioned to slide against the inner face of the lower flange 10 of the female part and an inner flange 12 bearing a seal 13 facing the wing. 9 upper part of the female part. Two superposed chambers 7, 8 are made and baffles which prevent the outside air from reaching under the panels. For the rear wall 3 is it is possible to manufacture it in one piece or there is provided a sealed assembly of elementary partitions 3A. The rear wall is made of thermally insulating material. This watertight assembly of elementary partitions 3A comprises an overlap of the edges of the half-timber rabbet assembly type partitions plus a complement of stops for a mechanical assembly keeping the elementary partitions in the same plane despite forces acting perpendicular to the plane. partitions with also other stops for a lateral setting. A tongue-and-groove or double-groove tongue-and-groove joint would be suitable with additional side-locking. An interesting solution is to form a square palm assembly on one part of the thickness of the partition and on the other part to also make a square palm assembly offset both laterally and also in the direction of the interlocking.

Thus, with respect to half of the thickness of the partition, a jolting 17 is effected from the edge of the partition and over the other half of the thickness, after removing a strip of material from the end of the partition. 3036782 5 slots factory laterally offset from the crenellations of the other half to form a second turning 18. There is therefore an edge with double alias offset in two directions. The edge of the elementary partition therefore has two notches 17, 18 5 forming planes parallel to the plane of the partition, which are notched laterally and along the axis of engagement of the partitions. This results in lateral stopping abutments and vertical stopping abutments in both directions. In over-roofing, the panels and the rear wall must be placed on a support structure. This consists of elongated supports 20 positioned in the direction of the slope of the roof and held by hooks 21 taking support on the supporting structure of the roof. A low cross 22 is positioned at the base of the long supports. This low crosspiece has a groove 23 adapted to receive, by interlocking one side of the panels and another groove 24 to receive one of the sides of the rear wall. The elementary partitions are nested one after the other and the same is done for the panels.

A top rail 25 comprising a groove for the rear wall and one for the panels is slid over the edge of the partition and panels to lock the assembly. Side profiles close the lateral sides of the installed assembly.

These lateral profiles also have grooves for accommodating the edges of the panels and the rear wall.

3036782 6 In one of the lateral sides is provided an air inlet. The air outlet is made through a hole made in the rear wall. We thus obtain a photovoltaic panels installation with recovery of heated air by means of a single pipe which is compact.

The interlocking means perform both mechanical positioning and sealing. Means are housed in the space where the air circulates in order to make this air turbulent.

Claims (11)

REVENDICATIONS1. Installation with multiple panels (2) photovoltaic with heat recovery to be placed on the roof comprising under each voltaic panel a rear partition (3) remote from this panel to form a space (4) in which circulates air to be heated this installation being characterized in that the panels (2) are joined by means of assembly (5) sealed together so as to form a single upper wall which cooperates with a single rear wall (3) defining a single space (4). ) in which circulates the heated air so that this space may comprise a single air extraction outlet. 2. Installation with multiple photovoltaic panels with heat recovery according to claim 1 characterized in that the means (5) of tight assemblies are carried by the edges of the panels. 3. Installation with several photovoltaic panels with heat recovery according to claim 2 characterized in that the means (5) for assembling the panels consist of a fitting (5) having a female part (5A) and a male part (5B) , the female part equipping two juxtaposed sides of the panel considered, the other two sides of said panel comprising the male part and the interlock (5) is shaped to establish two chambers (7, 8) closed in the direction of the thickness of the panel . 4. Installation with several photovoltaic panels with heat recovery according to claim 3 characterized in that the portion (5A) of the female interlocking consists of two wings (9,10) located for one (9) in the plane upper panel and for the other (10) in the lower plane of said panel and the portion (5B) of the male interlocking consists of a lower flange (11) positioned to slide against the inner face 3036782 8 lower wing (10) of the female part and an inner wing (12) bearing a seal (13) facing the upper wing (9) of the female part. 5. Multiple photovoltaic panel installation with heat recovery according to any one of claims 1 to 4 characterized in that 5 the rear wall consists of elementary partitions (3A) assembled together by means of sealed interlockings. 6. Multiple photovoltaic panel installation with heat recovery according to claim 5 characterized in that the sealed assembly comprises an overlap of the edges of the type 10 half-timber rabbet assembly plus an abutment complement for a mechanical assembly now the elementary partitions in the same plane despite forces acting perpendicular to the plane of the partitions also with a lateral setting. 7. Installation with several photovoltaic panels with heat recovery according to claim 5 or 6 characterized in that the edge of the elementary partition has two notches (17, 18) forming in planes parallel to the plane of the partition which crenellations are offset laterally and along the axis of engagement of the partitions. 8. Installation with multiple photovoltaic panels with heat recovery according to claim 1 characterized in that it comprises a lower cross and a high cross each having a first groove to accommodate the edge of the rear wall and a second groove for y to house the edge of the photovoltaic panels. 9. Installation with multiple photovoltaic panels with heat recovery according to claim 8 characterized in that lateral profiles are closing the lateral sides of the panel assembly. 10. Installation with multiple photovoltaic panels with heat recovery according to claim 9 characterized in that the lateral profile has an air inlet. 3036782 9 11.Installation to several photovoltaic panels with heat recovery according to claim 1 characterized in that the assembly means of the panels are a bead or an H profile.