FR2951529A1 - SUPPORT OF PHOTOVOLTAIC MODULES ON ROOFS OR CLADDING. - Google Patents

Abstract

The invention relates to a support for photovoltaic modules, comprising successively, along a transverse axis: • at each of the longitudinal edges of the support, a hooking lip (1) comprising at its end a return flange (2) extended by a soul (3); • a first groove (4) oriented longitudinally, extending the web (3) of the latching lip (1); A succession of at least one protuberance, a recess, and a protuberance oriented longitudinally, each protuberance comprising a flat upper face substantially parallel to the longitudinal plane of said support; A second longitudinal groove (8) of the aforementioned type, which extends the last protuberance; • a hooking lip (1 ') of the aforementioned type, which extends the second longitudinal groove (8).

Description

The present invention relates to a photovoltaic module support disposed on roofs or cladding. It concerns in particular, but not exclusively, a photovoltaic cell support fixed on industrial, commercial and agricultural roofs, as well as on wall cladding.

It is known that photovoltaic installations can be integrated into buildings by substituting for the traditional construction elements of buildings. In addition, these installations can be arranged on inclined roofs, at an angle generally between 7 ° and 60 °, on roof terraces, on external wall cladding, etc. However, the "integrated" support systems require the use of a large number of parts to allow their implementation and their installation on site. Structures have not been designed and sized to accommodate such systems. It is therefore necessary to carry out a prior work of adaptation of the framework, which generates a financial extra cost due to the need to use more materials and to carry out additional manipulations which increase the risk of making mistakes.

The invention therefore more particularly aims to solve this problem by proposing a support for photovoltaic modules characterized in that it comprises successively, along a transverse axis: • at each of the longitudinal edges of the support, a hooking lip comprising at its end a return wing extended by a soul; • a first longitudinally oriented groove, extending the soul of the latching lip; A succession of at least one protuberance, a recess, and a protuberance oriented longitudinally, each protuberance comprising a flat upper face substantially parallel to the longitudinal plane of said support; in addition, preferably, the height of each protrusion is substantially less than or equal to that of said hooking lip, and each recess has: a depth substantially equal to that of the groove; a width substantially equal to or greater than that of the groove; A second longitudinal groove of the aforesaid type, which extends the last protuberance; • a hooking lip of the aforementioned type, which extends the second longitudinal groove.

In this way, the photovoltaic modules are positioned on the support according to the invention by resting on the upper faces of the protuberances.

Advantageously, the grooves and the recesses allow in particular the flow of rainwater, and the passage of a flow of air that ventilates said modules.

Preferably, the photovoltaic modules are fixed on the support according to the invention by gluing, the upper faces of said protuberances each comprising at least one self-adhesive strip in contact with the underside of a corresponding photovoltaic module.

According to a variant of preferred embodiment, the support of photovoltaic modules comprises successively, along a transverse axis: • at each of the longitudinal edges of the support, a hooking lip of the aforesaid type; • a first groove, longitudinally oriented, extending the soul of the latching lip; A succession of two series of elements each consisting of a protuberance, a recess, another protuberance of the aforesaid type, these two series being separated by a central recess oriented longitudinally; A second longitudinal groove of the aforesaid type, which extends the last protuberance of the second series; • a hooking lip of the aforementioned type, which extends the second longitudinal groove.

According to another alternative embodiment of the invention, at least the two end protuberances may each comprise on their upper face a recess preferably having a semi-circular cross section. These recesses which extend longitudinally advantageously make it possible to dispose the cables of the connection boxes, these cables making it possible to drain the current produced by a row of photovoltaic modules.

Thus, the support according to the invention has the following advantages in particular: • it makes it possible to reduce the number of parts necessary for the installation of photovoltaic modules; • the factory production time is reduced; The laying time is reduced: the supports according to the invention are ready to be installed directly on the frame; • the watertightness is preserved because the supports do not undergo any piercing during their manufacture; The installation of the supports according to the invention does not require modifications of the framework; • the weight of the set is small; It allows the installation of almost all frameless photovoltaic modules; IO • the efficiency and cooling of the assembly are improved due to the presence of said grooves and said recesses; • It can be installed on roofs or as wall cladding. An embodiment of the invention will be described below, by way of non-limiting example, with reference to the accompanying drawings in which: FIG. 1 is a diagrammatic representation, in cross-section, of a section of the support of photovoltaic modules according to the invention. FIG. 2 is a diagrammatic representation, in cross-section, of a section of the photovoltaic module support according to an alternative embodiment of the invention.

FIG. 3 is a schematic perspective view, in a slightly elevated view, of the photovoltaic module support shown in FIG.

FIG. 4 is a diagrammatic representation, in cross-section, of the end of two photovoltaic module supports according to the invention, the latching lips of which overlap each other.

In this example, as shown in FIG. 1, the support of 5 photovoltaic modules according to the invention successively comprises, along a transverse axis: at each longitudinal edge of the support, a hooking lip 1 comprising at its end a return wing 2 extended by a web 3, this return wing 2 extending downwards, substantially perpendicularly to said web 3; A first groove 4 oriented longitudinally, extending the core 3 of the hooking lip 1; A first protuberance 5, longitudinally oriented, which has a substantially rectangular cross-section, and whose height is less than or equal to that of said hooking lip 1, this protrusion 5 extending the first groove 4; A recess 6 oriented longitudinally, which extends said protrusion 5, this recess 6 having: a depth substantially equal to that of the groove 4; O a width equal to or greater than that of the groove 4; Another protuberance 7 having the same dimensions as the first protuberance 5, and which extends said recess 6; A second longitudinal groove 8 having the same dimensions as the first groove 4, and which extends said protuberance 7; A hooking lip 1 'having the same dimensions as the first hooking lip 1 and extending the second longitudinal groove 8.

In this way, the photovoltaic modules 15 are positioned on the support according to the invention, resting on the upper faces of the protuberances 5, 7.

Preferably, the photovoltaic modules 15 are fixed on the support according to the invention by gluing, the upper faces of said protuberances 5, 7 each comprising at least one self-adhesive strip (not shown) in contact with the underside of a photovoltaic module 15 correspondent.

Preferably, the length of the distance separating the central and transverse axes of the webs 3 of the two gripping lips 1, 1 'of the same support according to the invention is in the range of from 1000 to 1400 millimeters, this length being preferably equal to 1200 millimeters, which advantageously makes it possible to have one or more photovoltaic modules 15 with a maximum width of 1100 millimeters.

Advantageously, as shown in FIG. 4, the hooking lips 1, 1 'can be shaped so as to be able to fit together, a hooking lip 1, 1' being able to cover a hooking lip 1, 1 'of a contiguous support. In this way, two adjacent supports may be connected to each other by fastening means (not shown) which may consist of a screw-jumpers assembly, the core 3 of each hooking lip 1 , 1 'may comprise a through hole shaped so as to allow the engagement of a screw.

Preferably, each attachment lip 1, 1 'extends so that the angle defined by the core 3 and the longitudinal plane of the support is substantially equal to 30 °.

Advantageously, the grooves 4, 8 and the recesses 6 allow in particular the flow of water, and the passage of a flow of air that ventilates said modules 15. It is thus possible to cool the photovoltaic modules by flowing water in these grooves 4, 8 or these recesses 6.

According to a preferred embodiment variant, as shown in FIGS. 2 and 3, the support of photovoltaic modules successively comprises, along a transverse axis: at each longitudinal edge of the support, a hooking lip 1 of the aforesaid type; • a first groove 4, longitudinally oriented, extending the core 3 of the latching lip 1; • a first protuberance 5, longitudinally oriented, which has a substantially rectangular cross section, and whose height is substantially less than or equal to that of said latching lip 1, this protuberance 5 extending the first groove 4; A first recess 10 oriented longitudinally, which extends said protuberance 5, this recess 10 having: a depth substantially equal to that of the first groove 4; a width substantially equal to or greater than that of the first groove 4; A second protuberance 11 of the aforesaid type, which extends said first recess 10, this second protuberance 11 having a height substantially equal to that of the first protuberance 5; A second recess 12 oriented longitudinally, which extends said second protrusion 11, this second recess 12 having a depth substantially equal to that of the first recess 10; A third protrusion 13 which extends said second recess 12, this third protuberance 13 having dimensions substantially identical to those of the second protrusion 11; A third recess 14 which extends said third protuberance 13, this third recess 14 having dimensions substantially identical to those of the first recess 10; A fourth protuberance 7 which extends said third recess

14, this fourth protuberance 7 having dimensions

substantially identical to those of the first protuberance 5; A second longitudinal groove 8 of the aforesaid type, which extends said fourth protuberance 7; A hooking lip 1 'of the aforesaid type, which extends the second longitudinal groove 8. According to another preferred embodiment of the invention, at least the two end protuberances 5, 7 can each comprise on their face a recess 16 preferably having a cross section will be circular. These recesses 16 which extend longitudinally advantageously make it possible to dispose the cables of the connection boxes (not shown), these cables making it possible to drain the current produced by a row of photovoltaic modules 15. In this way, and advantageously, said connection boxes can be fixed under the underside of the photovoltaic modules 15 and extend in the space delimited by a recess 10, 12, 14, 16.

The support according to the invention preferably consists of a metal such as steel. Its upper surface can be coated with a galvanized layer, and its underside with an anti - condensation layer.

The support is preferably manufactured continuously, the adhesive bonding of the photovoltaic modules 15 being carried out in series.

The invention also relates to a support assembly of the aforesaid type modules photovoltaic modules 15 disposed on the upper face of said support.

Claims (10)

Revendications1. Support for photovoltaic modules (15), characterized in that it comprises successively, along a transverse axis: • at each of the longitudinal edges of the support, a hooking lip (1) comprising at its end a return flange ( 2) extended by a soul (3); • a first groove (4) oriented longitudinally, extending the web (3) of the latching lip (1); A succession of at least one protuberance, a recess, and a protuberance oriented longitudinally, each protuberance comprising a flat upper face substantially parallel to the longitudinal plane of said support; in addition, the height of each protuberance is substantially less than or equal to that of said hooking lip (1); A second longitudinal groove (8) of the aforementioned type, which extends the last protuberance; • a hooking lip (1 ') of the aforementioned type, which extends the second longitudinal groove (8). 2. Photovoltaic module support (15) according to claim 1, characterized in that the protuberances each have a substantially rectangular cross section. 3. Support photovoltaic modules (15) according to one of claims 1 and 2, characterized in that it comprises successively, along a transverse axis: • at each of the longitudinal edges of the support, a hooking lip ( 1) of the aforesaid type, this return wing (2) extending downwards, substantially perpendicular to said web (3); • a first groove (4) oriented longitudinally, extending the web (3) of the lip hooking (1); A first protuberance (5), longitudinally oriented, which has a substantially rectangular cross-section, and whose height is less than or equal to that of said hooking lip (1), this protuberance (5) extending the first groove (4); ); • a recess (6) longitudinally oriented, which extends said protuberance (5), the recess (6) having: a depth substantially equal to that of the groove (4); o a width equal to or greater than that of the groove (4); • another protuberance (7) having the same dimensions as the first protrusion (5), and which extends said recess (6); A second longitudinal groove (8) having the same dimensions as the first groove (4), and which extends said protuberance (7); • a hooking lip (1 ') having the same dimensions as the first hooking lip (1), and which extends the second longitudinal groove (8). 4. Support photovoltaic modules (15) according to one of claims 1 to 3, characterized in that the photovoltaic modules (15) are positioned on said support bearing on the upper faces of the protuberances. 5. Support for photovoltaic modules (15) according to one of claims 1 to 4, characterized in that the photovoltaic modules (15) are fixed to the support by bonding, the upper faces of said protuberances each comprising at least one self-adhesive strip adhesive in contact with the underside of a corresponding photovoltaic module (15). 30 2951529 He 6. Photovoltaic module support (15) according to one of claims 1 to 5, characterized in that it comprises successively, along a transverse axis: • at each of the longitudinal edges of the support, a 5 hooking lip (1) of the aforesaid type, this return wing (2) extending downward, substantially perpendicular to said core (3); • a first groove (4), longitudinally oriented, extending the web (3) of the latching lip (1); A first protuberance (5), longitudinally oriented, which has a substantially rectangular cross-section, and whose height is substantially less than or equal to that of said hooking lip (1), this protuberance (5) extending the first groove (4); A first longitudinally-oriented recess (10) which extends said protuberance (5), said recess (10) having: a depth substantially equal to that of the first groove (4); a width substantially equal to or greater than that of the first groove (4); • a second protrusion (11) of the aforesaid type, which extends said first recess (10), the second protrusion (11) having a height substantially equal to that of the first protrusion (5); • a second recess (12) longitudinally oriented, which extends said second protrusion (I1), the second recess (12) having a depth substantially equal to that of the first recess (I0); A third protrusion (13) which extends said second recess (12), this third protuberance (13) having dimensions substantially identical to those of the second protrusion (11); A third recess (14) which extends said third protuberance (13), said third recess (14) having dimensions substantially identical to those of the first recess (10); a fourth protuberance (7) which extends said third recess (14); ), this fourth protuberance (7) having dimensions substantially identical to those of the first protrusion (5); A second longitudinal groove (8) of the aforesaid type, which extends said fourth protuberance (7); ® a hooking lip (1 ') of the aforesaid type, which extends the second longitudinal groove (8). 7. Support for photovoltaic modules (15) according to one of claims 1 to 6, characterized in that each hooking lip (1, 1 ') extends so that the angle defined by the core (3) and the longitudinal plane of the support is substantially equal to 30 °. 15 8. Photovoltaic module support (15) according to one of claims 1 to 7, characterized in that at least the two end protuberances (5, 7) each comprise on their upper face a recess (16) preferably having a cross section will be --- circular. 20 9. Photovoltaic module support (15) according to one of claims 1 to 8, characterized in that the length of the distance separating the central and transverse axes of the cores (3) of the two attachment lips (1, 1 '). ) of the same support according to the invention is in the range of 1000 to 1400 millimeters. 10. Support photovoltaic modules (15) according to one of claims 1 to 9, characterized in that the hooking lips (1, 1 ') are shaped so as to be interlocked, a hooking lip (1, 1 ') that can cover a hooking lip (1, 1') of a contiguous support; in this way, two adjacent supports can be connected to each other by fastening means which may consist of a screw-to-rider assembly, the core (3) of each hooking lip (1, 1 '). may comprise a through hole shaped so as to allow the engagement of a screw.