FR2960627A1 - Mechanical structure for use in roof of building e.g. office, has piece whose lower part forms sealing barrier to deviate rainwater toward side gutters and to ensure ventilation at lower parts of photovoltaic panels - Google Patents

Abstract

The structure has photovoltaic panels (10-30) whose edges are in direction of a rake (R) of a roof (40), and side gutters (50, 51) extending along sides of the panels in the direction of the rake. A lower part of a piece (60) of the structure forms a sealing barrier to deviate rainwater toward the side gutters and to ensure ventilation at lower parts of the panels. The piece includes a base plate along the lower part of the piece with a lower part of a plane of the roof. A plate (62) is connected perpendicularly to the lower part of the piece. An independent claim is also included for a method for installing a mechanical structure.

Description

GENERAL TECHNICAL FIELD The invention relates to a mechanical structure with photovoltaic panel (s) adapted to be integrated into a roof.

STATE OF THE ART Photovoltaic panel structures are conventionally known. In a photovoltaic panel, photovoltaic cells are united together and joined together. Cells are therefore the elements of a photovoltaic panel or module, inserted between a glass layer and a film. In general, one or more photovoltaic panels are attached to a roof through a frame. In the case of the use of a frame known under the trademark SOLRIF, the connection with elements of the roof (frame) is made by hooks. In some countries, there is legislation on the integration of such structures on a roof so that they can be eligible for the building integration bonus. 20 This legislation defines the following integration criteria. The photovoltaic structure is installed on the roof of a residential building or office use and is installed in the plane of said roof. The photovoltaic structure replaces building elements that provide the enclosed and covered, and provides the sealing function. After installation, the disassembly of the panel (s) photovoltaic (s) or photovoltaic film can not be done without harming the sealing function provided by the photovoltaic structure or make the building unfit for use.

For structures with photovoltaic panel (s) composed of one or more rigid panel (s), each panel constitutes the main sealing element of the structure. Each panel must therefore seal relative to rainwater falling on its surface. This sealing is ensured by each panel, and where appropriate via a vertical panel panel covering in the case of the SOLRI F process. However, this is not without causing problems with sealing with rainwater, in particular at the periphery of the photovoltaic structure where it is necessary to seal between the elements of the roof (usually tiles) and the panels themselves. Furthermore, it is desirable that air can circulate under the roof and in particular under the photovoltaic panels to ensure aeration.

PRESENTATION OF THE INVENTION There is therefore a need for a photovoltaic panel structure (s) which makes it possible to solve these sealing and ventilation problems under the panels, while allowing simple installation. The invention relates to a mechanical structure with photovoltaic panel (s) adapted to be integrated in a roof, the roof having a ridge and a creeper, said structure comprising: at least one photovoltaic panel having an edge intended to be on the side of the roof; 25 ridge and an edge intended to be in the direction of the crawling; at least one lateral gutter extending along the side of the panel in the direction of the rampant; characterized in that it comprises, along the edge of the panel intended to be on the side of the roof ridge, a part of which a low part forms a barrier barrier and which is shaped to divert the rain water 30 towards the the gutter (s) side (s) and to ensure aeration below the panel.

Such a structure allows a better flow of rainwater by integrating into a roof. Other aspects of the photovoltaic panel (s) mechanical structure are as follows: the part comprises a base plate disposed along the lower part of the room below the plane of the roof and which extends parallel to the roof plan to define an upper part of the room; the part comprises a plate connected perpendicularly to the lower part and which is further extended along one edge of the panel in the lateral gutters; the part comprises a lip inclined so as to form with the bottom plate a half-W. the structure comprises two panels arranged side by side, two parts, the parts being in contact by means of lips (64) and are interconnected by means of a V-shaped cap complementary to the shape of the two lips; the structure comprises a protective cover disposed above the workpiece and which is supported on the panel; The lower sealing barrier portion is disposed without contact with the panel and defines a space between the workpiece and the panel. the lateral gutter consists of a plurality of U-shaped pieces in a cross section taken along an axis parallel to the ridge of the roof. The invention also relates to a roof comprising such a structure and a method for installing this structure on a roof. The method comprises the following steps: provision of at least one photovoltaic panel; arranging the side gutter (s) along one side of a panel in the crawling direction; layout of the room along one side of a panel parallel to the ridge of the roof.

PRESENTATION OF THE FIGURES Other features and advantages of the invention will become apparent from the description which follows, which is purely illustrative and not limiting and should be read with reference to the accompanying drawings, in which: FIG. 1 illustrates a roof comprising a structure with photovoltaic panel (s); FIG. 2 is a detailed view of a zone Z1 of the structure of FIG. 1; FIG. 3 is a three-dimensional view of a sealing piece of the structure of the invention; - Figure 4 illustrates the zone Z1 of Figure 2 according to a different elevation; FIG. 5 illustrates a detailed view of two adjacent panels of the structure of the invention; FIG. 6 illustrates a detailed view of a zone Z1 of the structure of FIG. 1; FIG. 7 schematically illustrates steps of a method of installing a photovoltaic panel structure (s) according to the invention. In all the figures, similar elements bear identical reference numerals.

DETAILED DESCRIPTION OF THE INVENTION An embodiment of a photovoltaic panel (s) mechanical structure is described below with reference to FIGS. 1 to 7. The photovoltaic panel (s) mechanical structure (s) ) is adapted to be integrated in a roof so that the upper plane of the panel is substantially in the plane of the roof. It is specified here that the plan of the roof is the plane that defines the slope of the roof.

It is also recalled that a roof comprises an upper part which is called the F store and a lower part which is parallel to the frame F. The creeper R is also defined as the slope of the roof 40. The mechanical structure with a panel (x) photovoltaic (s) illustrated in Figures 1 to 6 comprises three panels 10, 20, 30 each comprising three photovoltaic modules 1, 2, 3. The panels 10, 20, 30 are preferably identical in size and shape as photovoltaic modules 1, 2, 3. The panels 10, 20, 30 and the modules 1, 2, 3 are for example rectangular or square. The photovoltaic modules 1, 2, 3 of each panel 10, 20, 30 are of known type and are such that the power of the panels is for example between 195 W and 200 W and combined with the size of the panels make it possible to obtain pfd of more than 140 15 W / m2. The mechanical structure with photovoltaic panel (s) 10, 20, 30 is framed by tiles 41 of the roof 40. The photovoltaic structure also comprises at least one lateral gutter 50 which extends along one side of the panel 10, 20, 30 in the direction of the rampant R of the roof 40. The lateral gutter 50 allows to create a game when the structure comprises at least two panels. Such a game allows, when the structure, is disposed on a roof 40 to recover the flatness defects of the roof 40. This simplifies the installation of the structure. In the figures, the structure comprises four lateral gutters 50, 51 each disposed along one side of a panel 10, 20, 30. However, the lateral gutters 50, 51 are different depending on whether they are positioned between panels or at the left and right ends of the structure when the roof is seen from the front. The lateral gutters 50 positioned between the panels are such that the cross section along an axis perpendicular to the rampant R of the roof 40 is U-shaped, the bottom of the U is located at the level of the roof plane 40 in fact the U rests on the battens in the image of the tiles, the branches of the U are contiguous to a photovoltaic panel 10, 20, 30. The side gutters 51 positioned respectively at the ends of the structure are such that the cross section along an axis perpendicular to the crawling R It is therefore L-shaped. Each lateral channel 50 and 51 is therefore preferably equal in size to the length of one side of the panel 10, 20, 30 taken in the direction of the rampant R of the roof 40. Thus between the panels 10, 20, 30 a channel 63 is defined along the rampant R of the roof 40 as well as at the ends of the structure between the panels and roofing tiles 40. To ensure the sealing of the structure in the upper part of the 40, the structure comprises a part 60 disposed along the edge of the panels 10, 20, 30 which are on the side of the fairing F of the roof 40 and whose lower part 61 forms a sealing barrier and which is furthermore shaped to divert the rainwater to the gutter (s) side (s) 50 or 51. It specifies that there is a room 60 per panel, 10, 20, 30. Thus, the rainwater which flows from the factoring F in the direction of the rampant 20 R flows in the channels 63 above defines. To ensure aeration below a panel 10, 20, 30, the lower part 61 is also shaped to ensure aeration below the panel 10, 20, 30. For this purpose, the lower part 61 is arranged without contact with the panel 10, 20, 30 and perpendicular to the lateral gutter 50. The lower portion 61 forming a sealing barrier is identical in shape to the profile of the panel and is preferably rectangular. It has a height that makes it possible to block the water coming from the casing F, a height defined as a function of the distance to the casing F. Thus, a space is defined between the lower part 61 and the panel 10, 20, 30 along of which she is disposed.

Consequently, air which comes in particular from the lower part of the panels 10, 20, 30 thanks to an air intake at the bottom of these panels 10, 20, 30 can leave the structure at the level of the part situated the side of the fairing F of the roof 40 and thus provide aeration of the panels 10, 20, 30. is shown in Figure 2 by means of an arrow in broken lines the flow of water in the direction of the crawling R and by means of a thick line arrow the flow of air from the lower part of the panels 10, 20, 30. To improve the sealing of the structure, the part 60 comprises a bottom plate 65 disposed along and overflowing the lower portion 61 of the piece 60 at the plane of the roof 40 and which extends parallel to the plane of the roof 40 to define an upper portion 66 of the part 60 (see Figure 3). To further improve the tightness of the structure, the piece 60 is preferably comprises a plate 62 connected perpendicularly to the lower part 61 and which is further extended along an edge of the panel 10, 20, 30 in the lateral gutter 50. The plate 62 and the lower portion 61 are disposed together so that they form an L and are further disposed at the plane of the roof 40. The plate 62 is either made of material of the lower part 61 by folding is referred to the lower part 61 by welding, gluing or any other method of attachment. The bottom plate 65 extends into the lateral groove 50 so that the bottom plate and plate assembly 62 has an L-shaped cross-section taken along an axis parallel to the fairing F. The bottom plate assembly 65 and plate 62 is advantageously completed by a lip 64 inclined relative to the base plate 65 so as to form a half W, the arm formed by the lip 64 has an extension 30 such that the lip is below the level reached by the gutter lateral 50.

The water can therefore flow between the arms of the half-W to go into the lateral gutter 50. Preferably, the part 60 is symmetrical with respect to a plane of symmetry of the panel perpendicular to the fairing F so that the piece 60 forms a right C-shaped structure complementary to the shape of the panel 10, 20, 30 seen from above (see Figure 3). In the case where the structure comprises several panels, there are several parts 60 next to each other. These parts 60 are in contact via lips 64. Such lips 64 thus provide the junction between two parts 60 located side by side. To again seal the structure, two lips 64 located side by side are joined together by means of an inverted V shaped cap 80 complementary to the shape of the two lips 64. The cap 80 is mounted by interlocking and mechanical cooperation after elastic deformation. Such a connection mode is free of any additional mounting parts including screws or drilling requiring specific tools. The assembly of parts 60 is thus facilitated. To complete the seal, the structure comprises a protective cap 90 disposed above the part 60 to particularly prevent water infiltration below the panels 10, 20, 30 and protect the part 60 to avoid clutter by leaves or debris, for example, the channel that allows the flow of rainwater. A waterproof membrane 70 overlies the tiles and the structure so that a liquid from the gutters flows over the tiles 40, as well as the draining water from the upper surface of the panels. This waterproof membrane 70 is disposed in the lower part of the roof 40.

Finally, to also prevent debris or leaves from impeding the flow of water, or the penetration of small animals, it is possible to arrange a grid (not shown) in front of the lower part 61 of the piece 60 and / or lower part of the structure. This grid allows an air intake under the panels 10, 20, 30. It is noted that in the lower part of the roof 40, it is not necessary to have any sealing with rainwater. To install the structure described above, the first step is the installation of one or more photovoltaic panels in the roof by the implementation of modules framed with a method known under the registered trademark SOLRIF. The installation of several panels is carried out leaving a space between each panel. After the integration of the panel (s), the tightness of the structure is effected. To do this, the lateral gutters are placed 200 between each panel and the above described sealing piece is placed 300 at each panel on the side of the frame F. In the case where the structure comprises several panels 20 photovoltaic parts 60 are connected in pairs by means of the triangular cap. Finally the cover 90 of protection is disposed 400 above the part 60 to cover it in part.

Claims (10)

REVENDICATIONS1. Mechanical structure with photovoltaic panel (s) adapted to be integrated in a roof (40), the roof (40) having a ridge (F) and a creeper (R), said structure comprising - at least one photovoltaic panel ( 10, 20, 30) having an edge to be on the side of the fair (F) and an edge to be in the direction of the rampant (R); at least one lateral gutter (50, 51) extending along the side of the panel (10, 20, 30) in the direction of the rampant (R); characterized in that it comprises, along the edge of the panel intended to be on the side of the fairing (F) of the roof (40), a part (60) of which a lower part (61) forms a sealing barrier and which is shaped to deflect the rainwater to the lateral gutter (s) (50, 51) and to provide aeration below the panel (10, 20, 30). 2. Structure according to claim 1 wherein the part (60) comprises a bottom plate (65) arranged along the lower part (61) of the part (60) below the plane of the roof (40) and which extends parallel to the roof plane (40) to define an upper portion (66) of the workpiece (60). The structure of claim 2 wherein the workpiece (60) comprises a plate (62) connected perpendicularly to the lower portion (61) and further extending along an edge of the panel (10, 20, 30). ) in the lateral gutters (50, 51). 4. Structure according to one of claims 2 to 3 wherein the piece (60) comprises an inclined lip (64) so as to form with the bottom plate (65) a half-W. 5. Structure according to one of claims 1 to 4 comprising two panels arranged side by side, two parts (60), the parts (60) being in contact by means of lips (64) and are interconnected by means of a cap in the shape of complementary to the shape of the two lips (64). 6. Structure according to one of claims 1 to 5 comprising a cover (90) of protection disposed above the workpiece (60) and which is supported on the panel (10, 20, 30). io 7. Structure according to one of claims 1 to 6 wherein the lower portion (61) forming a sealing barrier is disposed without contact with the panel (10, 20, 30) and defines a space between the workpiece and the panel. 8. Structure according to one of claims 1 to 7 wherein the is lateral groove consists of a plurality of U-shaped pieces in a cross section taken along an axis parallel to the fairing (F) of the roof (40) . 9. Roof comprising a structure according to one of the preceding claims. 10. A method of installing a structure according to one of claims 1 to 9 comprising the following steps: provision (100) of at least one photovoltaic panel (10, 20, 30); arrangement (200) of the lateral gutter (s) along one side of a panel in the crawling (R) direction; arrangement (300) of the piece (60) along one side of a panel parallel to the fairing (F) of the roof (40).