FR2961584A1 - Solar panel i.e. photovoltaic solar panel, modular integration device for tile roof of building, has isolated blocks positioned between stiffeners and centered on top and bottom of module with respect to slope, and supporting solar panel - Google Patents

Abstract

The device has seven longitudinal stiffeners (800-806) fixed perpendicular to vertical walls (200, 300, 400), over mounted of slopes (700-702, 704, 706-708). The stiffeners in the form of a semicircle are over mounted on two of the slopes and comprise shape and position preventing risk of rainwater flow into slots (600-603) used to hang a module to a framework. The isolated blocks are positioned between the stiffeners and centered on top and bottom of the module with respect to a roof slope, and comprise height identical to that of the walls and support solar panels (61, 62, 600). An independent claim is also included for an assembly comprising a chassis of dimensions corresponding to different parts of a solar panel modular integration device.

Description

The invention relates to a modular solar panel integration device on a roof. The invention relates more specifically to a photovoltaic solar panel integration device made in modules so that each module corresponds to a solar panel. The invention also relates to a photovoltaic solar panel integration device on a roof tile, steel tray, corrugated sheet, fiber cement, or directly on a metal frame or a timber frame. The invention also relates to an assembly formed by a solar panel and a device according to the invention. The invention further relates to a roof comprising one or more sets thus formed. In particular, the invention relates to a roof comprising a plurality of these sets arranged next to one another, horizontally, vertically or both at a time. The installation of solar panels on the roof of buildings is increasingly required, especially by professionals with large roofs. However, the integration of these on a roof is not always ideally carried out in that the installer must most often assemble a large number of parts delivered as a kit and whose assembly remains complex. This results in a longer installation time, higher costs for the end consumer, and most importantly, a higher risk of exposure to the risk of work accidents for roofers due to the large number of manipulations of kit parts and multiples. rooftop movements. Finally, it also results from many sealing problems when the installer has not mastered the complexity of the assembly. These questions arise in particular for existing buildings for which an installation of solar panels is sought, but also for new buildings. Furthermore, beyond the issues of implementation, waterproofing and safety, the question arises of how best to integrate these solar panels on the roof so that they are integral parts of the roof.

An object of the invention is therefore to provide a solar panel integration device on a roof, and more particularly for a solar photovoltaic type application, to overcome these disadvantages. An object of the invention is more precisely to provide a one-piece module made of thermoforming or other molding process and intended to receive a photovoltaic panel, this module integrating both a system for supporting and hanging the panel , as well as a system for draining rainwater and condensates. Another object of the invention is to ensure that the module can nest with other modules of the same type to form a homogeneous and sealed assembly when it receives the solar panel. Another objective is to propose an assembly formed by a solar panel and a device according to the invention. Another objective is still to provide a roof comprising at least one such assembly. Another objective is to propose a roof comprising a plurality of these sets, arranged next to one another, horizontally, vertically or both at a time. To achieve at least one of these objectives, there is provided a modular solar panel integration device 20 on a roof, in particular for solar photovoltaic, the solar panel comprising a frame, characterized in that it comprises, over its entire periphery, an L-shaped part, the upper part of the L serving as a support for the glass plate protecting the photovoltaic cells and the lower part for stiffening the assembly. The modular integration device is adapted to the dimensions of this frame in that it comprises a set of supports arranged under the solar panel intended to wedge the panel on the device, to support it so that it can receive the load of an operator and create a ventilation space under the panel to improve its operation. This set of supports is composed of the following elements: two vertical walls, parallel to each other, oriented in the direction of the slope of the roof and of predetermined height, whose function is to drain the rainwater and condensate as well as allow the passage of cables connecting the panels together. These two vertical parts are positioned at the left and right ends of the device. They are positioned parallel to the short sides of the chassis when the panel is installed in landscape format and parallel to the long sides of the chassis when the panel is installed in portrait format. - A third vertical wall, parallel to the two previous, positioned at the right end of the device, at a predetermined distance from the second wall to form with it a chute through a flat portion which connects them. This wall is intended to drain the rainwater mainly from the gap left between two panels mounted side by side. - Seven stiffeners of longitudinal shape, perpendicular to the walls and of predetermined height, surmounted by studs, whose cumulative height with that of the stiffeners is equal to that of the walls. These stiffeners surmounted by studs serve the dual function of stiffening the bottom of the device formed by a plate for draining rainwater and condensates, and also supporting the panel. - Two stiffeners shaped semicircle also surmounted by studs and whose shape and position is intended to avoid the risk of rainwater flow in the slots used to hang the module to the frame. - Two isolated pads, positioned between two stiffeners, centered on the upper and lower part of the module with respect to the slope of the roof and whose height is identical to that of the walls. The function of these studs is also to support the solar panel. In order to allow the fixing of the panels, the integration device can provide at least one of the following characteristics: - In the center of the chute formed by the two vertical walls located at the right end of the device, two chimneys of predetermined height , intended to receive a threaded insert in which can be placed a screw which will block, by means of a double jaw, the solar panel on the module and the neighboring panel lying astride the same chute. - On the left end of the modules located at the edge of the roof, the usual wall is completed by a piece of symmetrical shape to the chute to the right of the device and which is placed in overlap of the left wall of the device. This room therefore also includes two chimneys with inserts and intended to fix the panel at the edge of the roof by a simple jaw. - On the horizontal part of the device forming a plate for discharging rainwater and condensates, four slots protected at their periphery by a projection of low height, each divided into three parts, perpendicular to the walls when the device is in landscape format and parallel to them when the device is in portrait format, distributed in a balanced manner on the plate to allow a good fixing of the device on the roof. This attachment can be achieved in at least two ways: Through a U-shaped threaded rod that will take the form of a breakdown of the frame or a metal cross and whose two upper ends will pass through the slots of the device for be bolted on top with an intermediate washer. Directly by screwing a wood screw or self drilling machine and a washer through the slot of the device into a part of the frame. - In addition to these four slots arranged horizontally if the solar panel is installed in landscape or vertical format if the panel is installed in portrait format, two additional slots placed perpendicular to the other four in order to have a maximum of points. hangs for the device.

In order to allow the flow of rainwater and condensates from the solar panels, the device can provide at least one of the following characteristics: A plate, formed by all the horizontal parts of the device and delimited on its ends left and right by the walls described previously. This plate will comprise the stiffeners, the pads and the fixing slots which will be formed in the mass of this plate at the time of molding. - A chute formed by the two walls and a flat portion joining them, located at the right end of the device. To achieve at least one of these objectives, there is also provided an assembly comprising a device according to one of the preceding features and other identical devices nested with each other in the vertical direction relative to the slope of the roof and juxtaposed with each other in the horizontal direction relative to the slope of the roof. The interlocking of the devices is achieved in the following way: With regard to the rainwater recovery plate, the two walls delimiting the left and right ends of this plate are narrower in their lower part when the device is placed in the slope of the roof, so that the walls form a funnel. Thus, when a device is installed on top of another with respect to the slope of the roof, the rainwater recovery plate of the upper device can be positioned in overlap of the plate of the lower device and the walls of the upper device. position itself inside the walls of the lower device, thus ensuring a perfect seal. Regarding the right side channel, the two walls defining the left and right ends of the chute are narrower in their lower part when the device is placed in the slope of the roof, so that the walls form a funnel. Thus, when a device is installed above another with respect to the slope of the roof, the trunking of the upper device can be positioned in overlap of the trough of the lower device and the walls of the upper device can be positioned inside. walls of the lower device, thus also ensuring a perfect seal.

To achieve at least one of these objectives, there is also provided an assembly comprising a device according to one of the preceding characteristics and a solar panel, in particular photovoltaic solar type, comprising a frame of dimensions corresponding to the different forms of the device , so that the panel comes to fit into the device being supported by the stiffeners and the pads. To achieve at least one of these objectives, there is further provided a roof 5 comprising a plurality of these sets, arranged next to each other, horizontally, vertically or both at a time. The roof thus formed may provide at least one of the following characteristics: the roof comprises several modules installed in the vertical direction with respect to the slope of the roof, these modules coming to fit into each other to ensure a perfect flow of rainwater and condensates. - The roof comprises several modules installed in the horizontal direction relative to the slope of the roof, these modules interlocking with each other, the tightness of the system thus formed being ensured by the covering of each panel straddled on two modules at a time. Indeed, according to the preceding features, the two walls located at the right end of the device are intended to each receive a solar panel, the first panel overlapping the entire device and the second having only end left covering the right outer wall of the device. Other features, objects and advantages of the present invention will appear on reading the detailed description which follows, and with reference to the appended drawings, given as non-limiting examples and in which: FIG. diagram showing for perspective a roof portion comprising four solar panels integrated into the roof via a device according to the invention; FIG. 2 is a diagram showing for perspective a roof portion comprising four devices installed according to the invention; FIG. 3 is a schematic perspective view of a single module according to the invention; - Figure 4 is a perspective view of the piece overlapping the left wall of the module when it is at the edge of the roof and which secures the panel. - Figure 5 is a schematic sectional view of this piece with a solar panel. - Figure 6 is a perspective view of the chute formed by the two straight walls of the module with the following detail: Figure 6a: perspective view of the chimney formed to accommodate a threaded insert.

Figure 6b: sectional view of the fastening system of two solar panels. Figure 6c: detail for perspective of the nesting of two chutes. The solar panel integration device on a roof comprises a set 15 modules (Figure 3) assembled by interlocking and juxtaposition (Figure 2) on which are fixed solar panels (Figure 1). The interlocking assembly is realized with modules (10 and 11) aligned vertically with respect to the direction of the slope of the roof. During assembly, the lower part of the rainwater recovery plate (101) of the module (11) situated upstream with respect to the slope of the roof takes place on the upper part of the plate (102) of the module (10) located downstream with respect to the slope of the roof, thanks to a narrowing of the walls (201 and 301) bordering said plate and forming a funnel. During the assembly also, the interlocking of the two modules is made possible by a narrowing of the lower part of the wall (401) of the module (11) allowing the lower part of the chute (5011) to take place at the inside of the upper part of the chute (5012) of the module (10). The overlap assembly is performed with modules (10 and 13) aligned horizontally with respect to the direction of the slope of the roof. During assembly, the wall located at the left end of the device (200) is housed under the wall located at the right end of the device (400). Also, the assembly must be made from right to left of the roof and from the bottom to the top so that each left module (10) overlaps each right module (13) and each upper module (11) fit into each lower module (10). The fixing of all the modules to the roof is achieved by screwing or bolting a U-threaded rod directly onto the structural members, through the slots (600, 602, 603, 604) provided on the plate. runoff of rainwater. These slots are surrounded by a low wall (650, 651, 652, 653) to prevent the infiltration of water flowing on the plate. Fixing the panel on the module is done in two ways depending on its position on the roof: - When the module is installed at the left end of the roof, the panel is fixed by screwing a single jaw on its left side ( Figure 5) and a double jaw on its right side (Figure 6c). The screwing on the right part is carried out thanks to a hexagonal shaped insert disposed inside each chimney (Figure 6b) in a hexagonal-shaped housing also and held in place from below with a plate stuck in the conduit of the fireplace. This insert constituting the female part of the screw fixing device, the male part is provided by a screw inserted in a U-shaped jaw with flat upper edges which takes place between two panels for its U-shaped part and on the two panels for its flat parts. Thus, by vertical clamping of the jaw, the panels are plated on the modules (Figure 6b). The screwing on the adjoining room to take place on the left of the device at the edge of the roof is carried out in the same manner except that the attachment is provided by a simple jaw. - When the module is installed at the right end of the roof, the double jaw is replaced by a simple jaw. - When the module is installed everywhere else on the roof, the panels are fixed by screwing as described above, each panel is positioned astride two modules. Each module therefore shares its right chute with two panels, the right panel ensuring a covering of the junction area between two modules and thus allowing the device to be sealed.

The stability of each panel and its resistance to the load are ensured by at least seven stiffeners (800 to 806) and nine studs (700 to 708). The blocks, of cubic shape, have a function primarily of setting the panel and distribution of the load thereof. The stiffeners, of trapezoidal or semicircular shape (801, 805), ensure, in turn, the rigidity of the rainwater flow plate in order to receive the load of an operator during the assembly operation of the device. These stiffeners are installed in a direction perpendicular to the slope of the roof so as to protect the fixing slots of the device against possible infiltration of water. Between the stiffeners, however, there remain passages allowing the flow of rainwater and the circulation of air for cooling the panels. The device therefore comprises in the end a set of modules made by thermoforming or any other molding method, each module consisting of a single piece integrating the forms necessary for both the assembly of the modules together, for the flow of rainwater and condensate and for the support and attachment of solar panels. With such a device, there is no risk of improper layout of the modules between them. Thus, it prevents any risk of leakage due to improper installation. The device according to the invention also makes it possible to better integrate the solar panel with the roof. Indeed, its low height allows it to remain at a level equivalent to that of the roof itself and not appear protruding but really in perfect integration. Furthermore, the device allows a hanging of the panels almost glued to each other which gives the whole a very homogeneous appearance.

Finally, the device according to the invention is designed for quick, easy and secure mounting, with few parts to be assembled together, a simplified attachment of the modules to the roof by screwing or bolting, the possibility for an operator to move on the device at each stage of the assembly and a setting up and easy hanging of the panels on the modules with appropriate forms to receive the panels and elementary fastening means.

Claims (6)

REVENDICATIONS1. Modular integration device of solar panel (14) on a roof, in particular for solar photovoltaic, the device comprising a set of 5 identical modules, each module (10) being composed of a set of supports arranged under the solar panel and characterized in that it comprises: - Seven stiffeners (800 to 806) of longitudinal shape, perpendicular to the walls (200, 300, 400) and of predetermined height, surmounted by studs (700, 701, 702, 704, 706, 707, 708), whose cumulative height with that of the stiffeners is equal to that of the walls. These stiffeners surmounted by pads serve the dual function of stiffening the bottom of the device formed by a rainwater flow plate and condensates (100), and also support the panel (14). Two semicircular stiffeners (801, 805) also surmounted by studs (701, 707) and whose shape and position is intended to avoid the risk of rainwater flowing into the slots ( 600 to 603) serving as attachment of the module to the frame. - Two isolated pads (703, 705), positioned between two stiffeners, centered on the upper and lower part of the module with respect to the slope of the roof and whose height is identical to that of the walls. The function of these studs is also to support the solar panel. 2. Device according to the preceding claim, composed of a rainwater flow system and condensates from the solar panels, characterized in that it comprises: - two vertical walls (200, 300), parallel l to one another, oriented in the direction of the slope of the roof and predetermined height, whose function is to drain rainwater and condensate and allow the passage of cables connecting the panels together. These two vertical parts are positioned at the left and right ends of the device (10). They are positioned parallel to the short sides of the chassis when the panel is installed in landscape format and parallel to the long sides of the chassis when the panel is installed in portrait format. - A third vertical wall (400), parallel to the two preceding, positioned at the right end of the device (10), at a predetermined distance from the second wall (300) to form with it a chute (500) with a flat part that connects them. This wall is intended to drain the rainwater mainly from the gap left between two panels mounted side by side. - A plate (100), formed by all the horizontal parts of the device and bounded on its left and right ends by the walls described above. This plate will comprise the stiffeners, the pads and the fixing slots which will be formed in the mass of this plate at the time of molding. - A chute (500) formed by the two walls (300, 400) and a flat portion joining them, located at the right end of the device. 3. Device according to one of the preceding claims, composed of a panel fixing system, characterized in that it comprises: - In the center of the chute (500) formed by the two vertical walls (300, 400) located at the right end of the device, two chimneys (61, 62) of identical height to the walls, intended to receive a threaded insert (63) in which a screw (64) can be placed which will make it possible to block, by means of a double jaw (65), the solar panel (14) on the module (10). - On the left end of the modules located at the edge of the roof, the usual wall (200) is completed by a piece (900) of symmetrical shape to the chute located to the right of the device (500) and which is placed in recovery of the left wall of the device (200). This room therefore also comprises two chimneys with inserts and for fixing the panel at the roof edge by a single jaw (66). - On the horizontal part of the device (100) forming a plate for discharging rainwater and condensates, four slots (600, 601, 602, 603) protected at their periphery by a projection of low height, each divided into three parts, perpendicular to the walls when the device is in landscape format and parallel to them when the device is in portrait format, distributed in a balanced manner on the plate to allow a good fixing of the device on the roof. This attachment can be achieved in at least two ways: Through a U-shaped threaded rod that will take the form of a breakdown of the frame or a metal cross and whose two upper ends will pass through the slots of the device for be bolted on top with an intermediate washer. Directly by screwing a wood screw or self drilling machine and a washer through the slot of the device into a part of the frame. In addition to these four slots arranged horizontally if the solar panel is installed in landscape or vertical format if the panel is installed in portrait format, two additional slots placed perpendicular to the other four in order to have a maximum of hooks for the device. 4. An assembly comprising a device according to one of the preceding claims and a solar panel (14), in particular photovoltaic solar type, comprising a frame (140) of dimensions corresponding to the different parts of the device. Roof, characterized in that it comprises a plurality of assemblies according to the preceding claim, arranged horizontally next to each other. 6. Roof, characterized in that it comprises a plurality of assemblies according to claim 4, arranged vertically next to each other.