FR2937353A1 - Photovoltaic covering element i.e. photovoltaic panel, installing device for flat roof, has connection devices that are detachable from one of sides of panels such that panels occupy horizontal usage position and vertical raised position - Google Patents

Abstract

The device has an anchoring foot (3) including a lower part (4) implanted in orifices bored in a compression slab or a hard surface of a flat roof. Articulated connection devices e.g. connection hinges (5A, 5B), are detachable from one of sides of photovoltaic panels (1) such that the panels occupy a horizontal usage position in which the panels are connected to the anchoring foot, and a vertical raised position in which one of longitudinal sides of the panels is connected to the corresponding anchoring foot so to provide access to areas covered by the panels. An independent claim is also included for a method for installing photovoltaic panels on a flat roof.

Description

-1- Method and device for the installation of photovoltaic panels, and photovoltaic roof covering by applying. The invention relates to a method and a device for the installation of photovoltaic panels on flat or approximately flat surfaces, in particular on roofs devoid of heavy protection on the sealing structures. It also covers roofing roofs obtained by the implementation of this method and this device. Devices and methods are known for the installation of photovoltaic panels or photovoltaic roofs on roofs provided with heavy protection of the sealing structures constituted by a screed or by a reinforced concrete slab. According to these devices and processes, the photovoltaic panels are fixed on metallic load bearing structures of various more or less complex designs, themselves anchored in the heavy protection by means of various device and implantation methods. However, the installation of photovoltaic roofs on roofs without heavy protection of the sealing structures, poses special problems. The present invention aims to enable the installation of photovoltaic panels and more particularly photovoltaic blankets on flat roofs which do not have heavy protection on sealing structures, against ultraviolet rays (UV), c that is to say on roofs consisting essentially of a compression slab covered with layers of sealing materials (tars, asphalts, bitumens, etc.) and / or insulation (rockwool, foam of polyurethane, ...). The photovoltaic covering method of the invention is remarkable in that: photovoltaic modules are juxtaposed and rigidly assembled by means of at least two opposite side-frame elements, so as to produce photovoltaic panels. consisting of several photovoltaic modules; vertically anchoring feet in the compression slab of the roof, through openings previously formed in the sealing and / or insulation coating covering said compression slab; a sealing material is applied around the lower part of the anchoring feet emerging from the holes formed in the sealing and / or insulating coating, and on the edge of said hole, so as to make a tight connection between said lower portion and the edge of said hole; said photovoltaic panels are fixed on the upper part of the anchoring feet, by means of articulated connection devices equipping, respectively, said upper part of said anchoring feet and said lateral framework elements, the articulated connection device being detachable, on at least one side of the photovoltaic panels. According to an advantageous embodiment, the sealing connection between the lower part of the anchoring feet emerging from the hole formed in the sealing liner and the edge of the said hole is made by means of a sleeve placed around it. of said lower part and provided with a lower flange applied on the edge of said hole, the sealing material being applied to a portion of the lower part of the anchoring feet on the outer faces of the sleeve and the flange and on a portion of the sealing liner 25 disposed around the peripheral edge of said flange. The device according to the invention comprises: - a photovoltaic panel consisting of several juxtaposed photovoltaic modules (for example of two to four modules) rigidly assembled by means of two parallel longitudinal edge elements; At least four anchoring feet comprising a lower part arranged to allow their anchoring by expansion in orifices drilled in a compression slab or other hard surface; an articulated connection device equipping, respectively, the upper part of said anchoring feet and said longitudinal frame members, this articulated connection device being detachable, on at least one of the sides of the photovoltaic panels so that the latter can occupy at least two extreme positions, namely: a position of horizontal or near horizontal use to which they are connected to all of their anchoring feet, and a raised position close to the vertical, according to which only one of their longitudinal sides remains connected to the corresponding anchoring feet, so as to provide access to the surfaces normally covered by said panels. According to an advantageous embodiment, the hinged connection devices of at least one of the longitudinal sides of the photovoltaic panels are provided with means for holding the photovoltaic panels in the raised position. The method and the device according to the invention make it possible in particular a rapid and solid installation of photovoltaic blankets on roofs devoid of heavy protection. According to a preferred embodiment, the anchoring feet have an adjustable height. According to another embodiment, the lower part of the anchoring feet is constituted by an expansion rod having a threaded upper portion screwed into a blind axial thread that has the lower part of a support bar. According to another embodiment, the hinged connection devices of at least one of the longitudinal sides of the photovoltaic panels are fixed to the upper part of a threaded rod screwed into a blind axial tapping which the upper part of said support bar. According to another embodiment, the articulated connection devices of at least one of the longitudinal sides of the photovoltaic panels are fixed to the upper part of a blind cylinder slidably mounted on the upper part of the support bar locking means for immobilizing said cylinder at the desired height. The adjustment system constituted by the aforementioned modes of execution has the particular advantages of allowing: - to adapt to the different heights of acroteria, to absorb possible roofing incidents, to regulate the shapes of slope, to adjust from precisely the inclination of groups of panels. According to another embodiment, a sealing sleeve provided with a lower flange is arranged around the lower part of the anchoring feet. The above and other objects, features and advantages will become more apparent from the following description and accompanying drawings, in which: Figure 1 is a perspective view of an exemplary embodiment of the device according to invention. Figure 2A is a detail view in perspective and on a larger scale illustrating a first embodiment of an adjustable anchor foot. Figure 2B is a detail view in perspective and on a larger scale illustrating a second embodiment of an adjustable anchor foot. FIG. 3A is a detail view in partial section illustrating the installation of a photovoltaic panel on a roof devoid of heavy protection, by means of anchoring feet according to FIG. 2A. Figure 3B is a view similar to Figure 3A and showing the implementation of a photovoltaic panel on a roof devoid of heavy protection, by means of anchoring feet according to Figure 2B. Figure 4 is a partial cross-sectional view showing a photovoltaic panel in a horizontal position of use. Figure 5 is a detail view showing the locking means of the panel in the lowered position of use. Figure 6 is a partial cross-sectional view showing the panel in the raised position. Figure 7 is a detail view showing the locking means of the panel in the raised position. Figure 8 is a partial cross-sectional view showing the panel in an inclined position of use. Reference is made to the drawings to describe an interesting, though in no way limitative, example of implementation of the method and of producing the device for laying photovoltaic blankets on a horizontal or approximately horizontal surface such as a flat roof, according to the invention. . A flat roof or a roof terrace of this kind may have a slight slope, generally between 1% and 5%. In the present specification and in the claims, the words upper, lower, vertical are used with reference to the functional positioning of the constituent elements of the claimed device. The device according to the invention mainly comprises: - a set 1 consisting of several juxtaposed photovoltaic modules 1a, 1b, 1c, 1d, (for example consisting of two to four modules) rigidly assembled by means of two elements of 2 parallel longitudinal framework; - At least four anchoring feet 3 having a lower portion 4 arranged 5 to allow their anchoring by expansion into holes drilled in a compression slab or other hard surface; an articulated connection device 5A and / or 5B fitted respectively to the upper part of the anchoring legs 3 and to said longitudinal frame members 2, the articulated connection device being detachable on at least one of the sides to photovoltaic panels . The photovoltaic modules 1a, 1b, 1c, 1d are, for example, mounted in groups of two to four units in a frame frame that can be made of aluminum or other stainless metal having the desirable strength. This frame comprises two longitudinal frame members 2 constituted by rails having a U-section and in which are engaged the transverse edges of said modules. On these longitudinal elements of frame is fixed, for example by screwing, one of the constituent parts of the articulated connection devices 5A or 5B, for mounting the photovoltaic panels 1 on the upper part of the anchoring feet 3A and / or 3B. The anchoring feet 3A and / or 3B comprise a lower portion 4 arranged to allow their anchoring by expansion in orifices drilled in a flat roof compression slab. According to the illustrated embodiment, said lower part 4 is constituted by a rod comprising a threaded upper part 4a screwed into a lower blind thread 6a that has a cylindrical support bar 6.

The expandable lower end 4b of the rod 4 may be constituted by an expansion pin of a type known per se, capable of withstanding large tearing forces, for example pulling forces of the order of 600 Kg per expansion rod 4. The upper part of the anchoring feet 3A, 3B can be arranged to allow adjustment of the height of the latter. According to the embodiment shown in particular in Figure 2A, the upper part of the anchoring feet 3A is constituted by a threaded rod 7 screwed into a blind axial thread 6b that has the upper part of the lo support bar 6 A system of nut and lock nut 8 axially displaceable on the threaded rod 7 and bearing on the upper end of the bar 6, allows the immobilization of said rod to the desired height. According to the embodiment illustrated in particular in Figure 2B, the upper part of the anchoring feet 3B is constituted by a blind cylinder 9 slidably mounted on the upper part of the support bar 6. Means allow to immobilizing said blind cylinder 9 at the desired height. These means can be constituted by removable pins 10 passing through stepped holes 9a formed in the side wall of the blind cylinder 9 and a transverse bore 6c that the upper portion of the support bar 20 6 has. The articulated connection device 5A or 5B comprises a hinge 11a-11b, one of the constituent elements 11a is integral with one of the longitudinal frame members 2 and the other 11b is attached to the upper element 7 or 9 of the feet of anchoring 3A or 3B, respectively, said constituent elements 11a, 11b being connected by means of a hinge axis 11c. The photovoltaic panel may be supported by four identical anchoring feet 3A according to the embodiment illustrated in FIG. 2A, or by four identical anchoring feet 3B in the embodiment shown in FIG. 2B. In any case, the articulated connection device ensuring the mounting of at least one of the longitudinal sides of the photovoltaic panel 1, is arranged so that it can be quickly and easily detached from the pair of anchor feet supporting said side. This result can be advantageously obtained by means of anchoring feet 3B according to the embodiment illustrated in FIG. 2B. It suffices to remove the pin 10 ensuring the assembly of the blind cylinder 9 and the upper part of the support bar 6, to be able to detach the corresponding side of the photovoltaic panel 1 of its supports 3B. It will be understood that the device according to the invention makes it possible to place the photovoltaic panels 1 in at least two extreme positions, namely: a position of use that is horizontal or close to the horizontal (FIG. 4) to which they are connected to the all of their anchoring feet, and a raised position close to the vertical (Figure 6), according to which only one of their longitudinal sides remains connected to the corresponding anchoring feet, so as to give access to the surfaces normally covered by said panels . It is also possible to orient the photovoltaic panels 1 in a more or less inclined position, between the horizontal and the vertical (Figure 8), depending on the sun. To do this, it is sufficient to raise the sliding sleeve 9 supporting the hinge 5B articulated connection. To allow this inclination resulting in an angular displacement of the axes 11c of the hinges 20 11a-11b, the element 11b of said hinges is connected to the sliding sleeve 9, by means of a hinge 12. When the photovoltaic panels are raised in the vertical position or close to the vertical, a locking means is provided to prevent their inadvertent fallout. This means can be constituted by a removable pin 13 engaged in a hole 14 provided in the element 11 has hinges 11a-11b and abutting against an edge of the other element 11b hinge when the panels are placed in a horizontal position or close to the horizontal (Figure 5), and against another edge of said other element 11 b, perpendicular to the previous one, when the panels are arranged in a vertical position or close to the vertical (Figure 7). Advantageously, the anchoring feet 3A or 3B are provided with a sealing sleeve 16 provided with a support flange 17 and arranged around said anchoring feet, more precisely around the bar of FIG. support 6. This sealing sleeve being movable along said bar. According to the method of the invention: photovoltaic modular panels 1a, 1b, 1c, 1d are juxtaposed. that is rigidly assembled by means of at least two opposite side frame members 2, so as to produce photovoltaic panels 1 of larger dimensions; O-holes of a depth of the order of 5 cm are drilled in the compression slab D after having made through holes T in the sealing coating R and, if necessary, in the thermal insulator I; the anchoring feet 3A and / or 3B are vertically implanted in the compression slab D of the roof, by means of the expansion rods constituting the lower part of said anchoring feet; a sealing material is applied around the lower part of the anchoring feet emerging from the hole T formed in the sealing liner and on the edge of the said hole, so as to make a tight connection between the said lower part and the edge of said hole; Said photovoltaic panels 1 are fixed on the upper part of the anchoring feet 3A and / or 3B, by means of articulated connection devices 5A and / or 5B equipping, respectively, said upper part of said anchoring feet and said elements of side frames, the articulated connection devices being detachable, on at least one side of the photovoltaic panels. According to an advantageous embodiment, the sealing connection between the lower part of the anchoring feet 3A and / or 3B emerging from the hole T formed in the sealing layer R and the edge of said hole is made by the intermediate of a sleeve 16 disposed around said lower portion and provided with a lower flange 17 applied on the edge of said hole, the sealing material 15 being applied to a portion of the lower part of the anchoring feet on the outer faces of the sleeve 16 and the collar 17 and on a portion of the sealing layer R disposed around the peripheral edge of said collar.

Thanks to this mode of implementation, it is not necessary to fill the voids that could result from the holes T made in the sealing and insulating layer RI, after installation of the anchoring feet 3, these holes being in fact covered by the flange or washer 17 of the sleeve 16.

When the anchoring feet are made in accordance with the embodiments described above, the base of their support bar 6 is placed in abutment on the compression slab D of the roof, more precisely on the edge of the orifices O drilled in that this. The present invention also relates to photovoltaic roof covers without heavy protection on the sealing structures obtained by the implementation of the method and devices described above. 25

Claims (12)

REVENDICATIONS1. Device for the installation of photovoltaic panels on flat roofs devoid of heavy protection of the sealing and / or insulation structures, characterized in that it comprises: at least one photovoltaic panel (1) consisting of several photovoltaic modules juxtaposed (la, lb, 1c, Id) rigidly connected by means of two parallel longitudinal edge members (2); at least four anchoring feet (3) having a lower portion (4) arranged to allow their implantation by expansion in orifices drilled in a compression slab or other hard surface; an articulated connection device (5A or 5B) equipping, respectively, the upper part of said anchoring feet (3) and said longitudinal frame elements (2), this articulated connection device being detachable, on at least l one of the sides of the photovoltaic panels so that they can occupy at least two extreme positions, namely: a position of use horizontal or close to the horizontal according to which they are connected to all of their feet; anchoring, and a raised position vertical or near vertical, wherein only one of their longitudinal sides remains connected to the corresponding anchoring feet, so as to provide access to the surfaces normally covered by said panels. 2. Device according to claim 1, characterized in that the articulated connection systems (5A or 5B) of at least one of the longitudinal sides of the photovoltaic panels (1) are provided with means (13, 14, 11a, 11 b) for maintaining said photovoltaic panels in the raised position. 3. Device according to one of claims 1 or 2, characterized in that the anchoring feet (3A or 3B) have an adjustable height. 4. Device according to any one of claims 1 to 3, characterized in that the lower part of the anchoring feet (3A or 3B) is constituted by an expansion rod (4) having a threaded upper portion (4a) se screwing in a blind axial thread (6a) that has the lower part of a support bar (6). 5. Device according to any one of claims 1 to 4, characterized in that the articulated connection devices (5A) of at least one of the longitudinal sides of the photovoltaic panels (1) are fixed to the upper part of a threaded rod (7) screwed into a blind axial thread (6b) that has the upper part of said support bar (6). 6. Device according to any one of claims 1 to 4, characterized in that the articulated connection devices (5B) of at least one of the longitudinal sides of the photovoltaic panels (1) are fixed to the upper part of a blind cylinder (9) slidably mounted on the upper part of the support bar (6), locking means (10, 9a, 6a) for immobilizing said cylinder to the desired height. 7. Device according to any one of claims 1 to 6, characterized in that a sealing sleeve (16) provided with a lower bearing flange (17) is arranged around the lower part of the feet of anchoring (3A or 3B). 8. Process for the installation of photovoltaic panels on a flat roof devoid of heavy protection of sealing structures and / or insulation, characterized in that: photovoltaic modules (la, lb, 1c, 1d) are juxtaposed it is rigidly assembled by means of at least two opposite lateral frame elements (2), so as to produce photovoltaic panels (1) consisting of several photovoltaic modules; vertically anchoring feet ( 3A and / or 3B) in the compression slab (D) of the roof, through openings (0) previously formed in the sealing layer (R) and / or insulation (I) covering said compression slab ; a sealing material (15) is applied around the lower part of the anchoring feet emerging from the holes (T) formed in the sealing and / or insulating coating, and on the edge of said hole, so as to making a tight connection between said lower part and the edge of said hole; said photovoltaic panels (1) are fixed on the upper part of the anchoring feet (3A and / or 3B), by means of articulated connection devices (5A and / or 5B) equipping, respectively, said upper part of said feet of anchoring and said lateral frame members (2), the articulated connection device being detachable, on at least one side of the photovoltaic panels. 9. Method according to claim 8, characterized in that the sealed connection between the lower part of the anchoring feet emerging from the hole (T) formed in the sealing layer (R) and the edge of said hole, is formed by the intermediate of a sleeve (16) arranged around said lower part and provided with a lower flange (17) applied on the edge of said hole, the sealing material (15) being applied to a portion of the lower part of the anchoring feet, on the outer faces of the sleeve and the flange and on a portion of the sealing liner arranged around the peripheral edge of said flange 10. Method according to one of claims 8 or 9, characterized in that the base of the anchoring feet (3A and / or 3B) is placed in abutment on the compression slab (D) of the roof, more precisely on the edge of the orifices (0) drilled in it. 11. Method according to any one of claims 8 to 10, characterized in that the photovoltaic panels are fixed, on one side, on anchoring feet (3A) whose articulated connection device (5A) is fixed at the upper part of a threaded rod (7) screwed into a blind axial thread (6b) which is present in the upper part of said anchoring feet, and on the other side on anchoring feet ( 3B) whose articulated connection device (5B) is fixed to the upper part of a blind cylinder (9) slidably mounted on the upper part of said anchoring feet, locking means (10, 9A, 6A) to immobilize said cylinder to the desired height. 12. Photovoltaic roof covering without heavy protection on the sealing structures, characterized in that it is obtained by implementing the method according to claims 8 to 11 and / or by the implementation of the devices according to any of claims 1 to 7.