FR2516217A1 - Solar collection panel - forms interlocking building cladding with integral solar energy collection tubing - Google Patents

Abstract

Solar energy collector comprises a flat panel strengthened by ridges which support a glass sheet, providing the greenhouse effect between the glass and the panel. A series of hairpin tubes for liq. circulation and return headers at either top and bottom of the panel. The panel itself is constructed of two metal sheets, e.g. of dark coated steel, between which is sandwiched a layer of insulation. Panels interlock by overlapping the upper metal sheet over its neighbour so that a series of panels may be used in the manner of conventional roof or wall cladding panels. The supply and return headers at the joins between the panels need only to be connected to form a solar heat source for a building.

Description

 The subject of the invention is a flat solar collector. This smile sensor is, according to the invention, constituted by one or more self-supporting panels, each of which comprises a rigid support sheet supporting an urn, as an absorbent black body, a network of tubes for circulating a fluid to be heated and on the other hand, over this network, glazing capable of creating a greenhouse effect. By design, such a solar collector does not only have a role of capturing energy; it is in fact capable of forming a constituent part of the building which must be equipped with it, for example the roof or an external wall thereof. . I1 is therefore not added, but integrates into the structure of the building itself, which is particularly rational and makes it possible to lower the cost of construction while providing certain aesthetic advantages.

 The support sheet of each panel is preferably made of ribbed sheet metal. The glazing can then title supported by the ribs of the It support.

 It is advisable to provide, under the support sheet, a layer, single or multiple, of thermal insulating material. This insulating material can be added to the panels when they are installed. However, it is advantageous to provide each panel, during its manufacture, with a mattress of thermal insulating material enclosed between the support sheet and a second underlying rigid sheet, joined to this with which it forms a flat box.

 In a preferred embodiment, the network of tubes of the solar collector is formed of a sheet of juxtaposed tubes folded in a hairpin, the ends of which are respectively connected to an inlet pipe and to an outlet pipe of the fluid to be heated.

These pipes can be arranged along one edge of the panels, either the edge which is the lowest, or the edge which is the highest after installation, or even along a side edge when the panels are mounted. horizontally.

 A solar collector according to the invention can constitute an excellent roof or quality cladding for both residential and industrial buildings, allowing, at the price of a low additional cost compared to a conventional roof or cladding, a collection efficient solar energy and the corresponding supply of hot water.

 It combines aesthetics with mechanical and thermal performance and ensures an important collection of energy supplied by the sun.

 The description which follows, with reference to the accompanying drawings by way of nonlimiting examples, will make it possible to understand clearly how the invention can be put into practice.

 Figure 1 shows in cross section a part of a solar collector according to the invention.

 FIG. 2 schematically shows in plan, on a smaller scale, a panel of the solar collector of FIG. 1.

 FIG. 3 shows in perspective an alternative embodiment of the sensor of FIG. 1.

 Figures 4 and 5 show two modes of implementation of a solar collector according to the invention, respectively in the form of roofing and cladding.

 Figures 6 and 7 show in longitudinal section two variants of connection of a panel to the circulation fluid piping.

The solar collector shown in FIG. 1 is formed from self-supporting panels 1 juxtaposed, each of which is composed of an upper cleat 2 and a lower plate 3 branches and joined together so as to form a flat box, the interior volume of which is filled with a thermally insulating material 4 such as polyurethane foam or glass wool. The upper sheet 2 has longitudinal ribs 5. We see in the figure that the ribs 5 are equidistant, that the extreme ribs are arranged on the edges of the panels 1 and that the rib of the left edge of a panel is located outside the aforementioned box so as to allow the connection by interlocking with the rib 5 of aroite du parineau 1
Juxtaposed to the left of the first panel. The ribs 5 support a transparent Dlaaue 6, made of glass or made of a polyespearable non-fibrous effect in the compartments 7 delimited by the ribs. In these compartments are arranged, resting on the upper sheet 2, layers of tubes 8 (Figure 2) which form the solar energy absorbing element. The tubes 8, curved in a hairpin, are connected by their ends respectively to an inlet pipe 9 and to an outlet pipe 10 of the fluid to be heated, which is normally water. The connections are made, as shown, in such a way that the fluid circulates alternately in one direction and in the other in the successive tubes 8.

The pipes 9, 10 are preferably made of copper.

 The sheets 2 of the panels 1 may comprise, in addition to the ribs 5, other stiffening ribs (not shown), also longitudinal, but of lesser amplitude. The same goes for sheets 3.

 In a concrete example of embodiment, the box of the panels 1 is formed from sheets 2, 3 of 0.75 mm thick, galvanized and prepainted. It has a thickness of 30 mm (which can be increased up to 75 mm, a total width of 1 m and a maximum length of 20 m.

I1 has four ribs 5 delimiting three identical compartments 7, each of which receives a sheet of nine tubes 8 of 5 to 6 mm in diameter folded in hairpin, these tubes being made of black EPDM elastomer extruded in the form of strips of tubes joined together in juxtaposition,
In the variant shown in Figure 9, the lower sheet 3 is deleted. Under this is simply arranged during installation of the panel a double layer 11 of insulating material, for example glass wool
The solar panels described can be used to make either a roof with inclined slopes (Figure 4) or a vertical cladding (Figure 5).

Being self-supporting, they do not require any support frame.

 Figures 6 and 7 show, in the case of inclined panels 1 forming a roof such as that of Figure 4, that the manifolds 9, 10 can between disposed either along the lower edge of; panels, that is to say "in chenille", that is to say along their upper edge, that is to say "in ridge".

Claims (8)

 1.- Flat solar collector, characterized in that it is constituted by one or more self-supporting panels t1) each of which comprises a rigid support sheet (2) supporting on the one hand, as an absorbent black body, a network of tubes (8) for circulation of a fluid to be heated and on the other hand, over this network, a glazing (6) capable of creating a greenhouse effect.  2.- solar collector according to claim 1, characterized in that the support sheet (2) is made of ribbed sheet metal.  3. - solar collector according to claim 2, characterized in that the glazing (6) is supported by the ribs (5) of the support sheet (2).  4.- solar collector according to any one of claims 1 to 3, characterized in that under the support sheet (2) is provided a layer (4, 11), single or multiple, of thermal insulating material.  5. - solar collector according to claim 4, characterized in that, for each panel (1), the thermal insulating material (4) is enclosed between the support sheet (2) and a second rigid sheet ()) underlying , joined to it with which it forms a flat box.  6.- solar collector according to any one of claims 1 to 5, characterized in that the network of tubes (8) is formed by a sheet of tubes juxtaposed and folded in hairpin, the ends of which are respectively connected to an inlet pipe (9) and to an outlet pipe (10) of the fluid to be heated.  7. - Solar collector according to claim 6, characterized in that the inlet and outlet pipes (9, 10) are arranged along the edge of the panels (1) which is lowest after their installation.  8.- solar collector according to claim 6, characterized in that the inlet and outlet pipes (9, 10) are arranged along the edge of the panels (1) which is highest after their installatic-.