ITAN20100121A1 - SYSTEM FOR SUPPORTING AND FIXING ONE OR MORE FLAT PANELS OR PHOTOVOLTAIC MODULES ON HORIZONTAL, VERTICAL OR INCLINED SURFACES, WHICH ALLOWS THE DISPOSAL OF METEORIC WATERS - Google Patents

Description

DESCRIPTION of the invention with TITLE:

"SYSTEM FOR SUPPORTING AND FIXING ONE OR MORE PLANE PANELS OR PHOTOVOLTAIC MODULES ON HORIZONTAL, VERTICAL OR INCLINED SURFACES, WHICH ALLOWS THE DISPOSAL OF WEATHER WATER"

DESCRIPTION FIELD OF THE TECHNIQUE

The present invention is part of the field of structures which perform the function of support and fixing for flat panels such as for example photovoltaic modules or solar panels.

The present invention also falls within the field of structures which guarantee the disposal of rainwater from an inclined surface such as for example the surface of a pitched roof.

STATE OF THE TECHNIQUE

It is known that it is possible to install flat panels on the roofs of buildings of all kinds and in particular photovoltaic modules for the production of electricity and solar panels for the production of hot water.

It is known that the roofing surfaces with an inclination between 10 ° and 30 ° are particularly suitable for the installation of the aforementioned plant equipment.

The photovoltaic modules or solar panels can be made integral with the roof using various mounting systems which include a structure anchored to the support surface, generally consisting of extruded profiles, to support the panels, and a series of accessories, such as clamps, screws and bolts for anchoring the panels to the aforementioned structure.

It is also known that in the case of systems consisting of several photovoltaic modules or solar panels, the panels are arranged adjacent to each other, to form a regular grid. This configuration poses numerous problems in waterproofing the joints between the panels. These problems are accentuated in the case of low slope of the support layer.

The most common structures currently on the market guarantee the support and fixing of the photovoltaic panels or modules, without guaranteeing the disposal of rainwater. The aforementioned structures rest on the roof covering and delegate to the mantle the function of conveying the rainwater to the disposal system (gutters or downspouts).

The international patent application WO 03/007688 A2, published on 30/01/2003 describes a removable and calibratable system for the installation of a photovoltaic module or flat panel on an object consisting of a track and a series of accessories for Γ anchoring the track to the support surface. The track is equipped with at least two cavities with a longitudinal axis parallel to the longitudinal axis of the track itself, for Γ insertion of anchoring systems for photovoltaic panels or flat panels. This system rests on the roof and does not provide waterproofing of the joints between adjacent panels. The disposal of rainwater is delegated to the roof covering.

The international patent application WO 2004/055294 A1, published on 01/07/2004, concerns a frame made by assembling several profiles in shaped corrugated sheet, for waterproofing the edge of structures installed on an inclined surface. . The aforementioned profiles in shaped corrugated sheet have a "U" cross section to allow water drainage. The system includes a "capturing" part and a "draining" part; the "draining" part has the same inclination as the roof and is surmounted at the top by the "absorbing" part.

The European patent application EP 2012365 A1, published on 07/01/2009, describes an integration device for solar panels on a roof, in particular for photovoltaic modules, which provides a frame for each individual module.

All the modules lie on the same plane, consequently the system provides for the drainage of rainwater along the joints, between adjacent modules, in both directions (parallel direction and perpendicular direction to the eaves line).

The aforementioned framework consists of a surface with the same surface as that of the panel and a series of parts, to be applied to the perimeter of the aforementioned surface, for Γ waterproofing the joints between adjacent photovoltaic modules.

The European patent application EP 2034349 A1, published on 11/03/2009, describes an integration system for several solar panels on a roof, in particular for panels for the production of hot water, which provides a frame for each individual module. All the modules lie on the same plane, consequently the system provides for the drainage of rainwater along the joints, between adjacent modules, in both directions (parallel direction and perpendicular direction to the eaves line).

The aforementioned framework consists of an upper part, a lower part and a channel with a “U” cross section that creates the connection between the upper part and the lower part.

The international patent application WO 2008/145913 A1, published on 4/12/2008, proposes a structure to be applied to building cladding, whether vertical, horizontal or inclined, for the support and anchoring of flat and detail of photovoltaic modules. The structure consists of a primary frame, a secondary frame and a series of devices for anchoring the primary frame to the support surface, the primary frame to the secondary frame and the flat panels or photovoltaic modules to the secondary warping.

The primary framework is arranged on the support surface, with a longitudinal axis perpendicular to the eaves line and with a center distance equal to the center distance, in the same direction, of the flat panels.

The secondary framework is arranged on the primary framework, with a longitudinal axis perpendicular to the eaves line and center distance equal to the center distance, in the same direction, of the flat panels. Both frames are made with a cross section such that the profiles can perform the function of gutter. The presence of holes on the profiles that make up the secondary framework, at the intersection with the primary framework, allows the drainage of the water collected by the secondary framework on the primary framework.

European patent application EP 0531869 A1, published on 03/17/1993, describes an “S” section terminal. The system does not provide waterproofing of the joint between adjacent panels perpendicular to the eaves line. The aforementioned terminals fix the edge of the photovoltaic module parallel to the eaves line.

German patent application DE 10240939, published on 03/25/2004, describes a sealing element between the frame of photovoltaic panels or solar panels and the adjacent tiles. The invention concerns a profile that allows the seal between the frame of the photovoltaic panel and the solar panel, and the adjacent tiles, and has a U-shape that allows the evacuation of rainwater.

The European patent application EP 17345 8 8 A3, published on 20/12/2006, describes a fixing structure for solar modules on an inclined roof formed by a longitudinal T-shaped profile and a transversal S-shaped profile into which the edges of the modules .11 sistema also includes strips arranged with center-to-center distance equal to the width of the modules. The modules are then fixed directly on the battens.

TECHNICAL PROBLEM TO BE SOLVED

In relation to the state of the art and the solutions available on the market, the following technical problems were encountered:

The market does not offer universal solutions to the problem of integrating photovoltaic modules or solar panels. The great variety of panels on the market entails the need to resort to customized solutions, of artisanal production, for the integration of the system.

With reference to the European patent application EP 2012365 A1, published on 07/01/2009, since the flat panels or photovoltaic modules lie on the same plane, there are problems of waterproofing the joints both parallel and orthogonal to the eaves line. These problems are accentuated where the support surface has a low slope. By low slope we mean a slope of less than 30 °. In order to avoid Γ infiltration of water at the joints, it is necessary to take precautions that cause lengthening of installation times and therefore an increase in the final cost of the intervention. With reference to the international patent application WO 2008/145913 A1, published on 04/12/2008, the technical problem of waterproofing the joints between flat panels or adjacent photovoltaic modules has been solved by some solutions by providing for a double warping of longitudinal profiles arranged with axes perpendicular to each other. The first frame, positioned in contact with the support surface, consists of profiles arranged with a longitudinal axis perpendicular to the eaves line and center distance equal to the center distance, in the same direction, of the flat panels; this framework also has the function of a gutter, conveying the rainwater to the disposal system. The second frame, positioned on the first, consists of profiles arranged with a longitudinal axis parallel to the eaves line and center distance equal to the center distance, in the same direction, of the flat panels. This warping also performs the function of collecting the rainwater and conveying it to the first warping. The flat panels lie on the second frame. The two frames must be drilled at the intersections for anchoring them to the support layer. The two frames must also be drilled for anchoring the fastening systems. The presence of holes compromises water tightness and the ability to convey rainwater to the disposal system (gutters and downspouts). In addition, the second frame is equipped with holes at the intersection with the first frame for conveying the rainwater captured on the first frame.

With reference to European patent applications EP 2012365 Al, published on 07/01/2009 and EP 2034249 A1, published on 11/03/2009, the problem of waterproofing the joints between adjacent flat panels has been solved by means of frames from apply to the single panel, consisting of at least an upper part, a lower part, a connection between the upper part and the lower part and various types of fastening devices. In the case of systems consisting of several panels, it is necessary to provide a frame for each panel that makes up the regret. An increase in the level of complexity of the system causes the lengthening of the installation themes with a consequent increase in installation and maintenance costs. Furthermore, the difficulty of installing the system implies a greater probability of errors by the installer during the aforementioned phase.

With reference to the US patent application US 2003/0154680 A1, published on 21/08/2003, the waterproofing problem has been solved by some solutions available on the market, by applying a panel or a frame consisting of a one piece. The coupling to the aforementioned panel allows the photovoltaic module to function like a tile. This solution involves a fictitious integration as a layer is interposed between the extrados of the roof and the photovoltaic panel that covers the entire surface to be waterproofed. The aforementioned layer fulfills the function of a covering mantle and therefore of conveying the rainwater to the disposal system (gutters and downspouts). The need to insert an additional layer of plastic or metal material implies an increase in the cost of the system.

With reference to the European patent application EP 0531869 A1, published on 17/03/1993, the terminal blocks with "S" section, made by extrusion and consisting of a single part, in the case of maintenance or replacement of a single module photovoltaic systems require the uninstallation of all the panels in the same row, from the outer edge to the module subject to intervention.

With reference to the German patent DEI 0240939, published on 25/03/2004, a profile is introduced that allows the seal between the frame of the photovoltaic panel and solar panel and the adjacent tiles and has a U shape that allows Γ evacuation of water meteoric. This system has been specifically designed to have an anchoring system with adjacent tiles and does not lend itself to every roofing system.

With reference to the European Patent EP 1734588 A3, published on 21/12/2006, it describes a fixing structure of solar modules on an inclined roof formed by a longitudinal T-shaped profile and a transversal S-shaped profile into which the edges of the modules are inserted. This system, however, provides for the disposal of rainwater by overlapping the panels and does not take into account the possibility of water infiltration between the modules or between the module and the anchoring profile.

With reference to the German patent DE 20200500484, published on 30/06/2005, it describes a system that allows the overlapping of photovoltaic panels or modules through rails that have such a section as to limit their mounting height. Said tracks do not have a constant section and therefore their manufacturing cost is higher than profiles with a constant section made by extrusion.

The objectives of the invention are therefore to solve at least some of the problems mentioned above; in particular by proposing a device that allows quick and simple installation of solar panels, introducing a system that can ensure better waterproofing of the roof and the disposal of rainwater.

DESCRIPTION OF THE INVENTION

The present invention relates to a structure for supporting and fixing one or more flat panels or photovoltaic modules on inclined surfaces, which allows the disposal of rainwater, comprising at least some of the following parts:

• At least two longitudinal profiles positioned on the support structure which, installed with a longitudinal axis perpendicular to the eaves line of an inclined surface or roof, constitute the primary framework;

• At least two longitudinal profiles resting on the primary framework which, installed with the longitudinal axis parallel to the eaves line of an inclined surface or roof, constitute the secondary framework;

• At least one element, having an "S" section, which fixes the flat panel or photovoltaic module on the secondary frame, arranged along the side of the flat panel or photovoltaic module parallel to the eaves line;

• At least one or more elastomeric elements, capable of at least partially covering the frame or the inactive portion of the edge of each flat panel or photovoltaic module;

• Various types of accessories for fixing the longitudinal profiles that constitute Γ primary framework, to the support structure;

• Various types of accessories for fixing the longitudinal profiles that constitute Γ secondary frame, to the longitudinal profiles that make up the primary frame;

• Various accessories for fixing the "S" section element to the longitudinal profiles that constitute Γ secondary frame.

ADVANTAGES OF THE INVENTION

System for supporting and fixing one or more flat panels on horizontal, vertical or inclined surfaces, object of the present invention offers advantages in relation to all the problematic aspects previously exposed:

The proposed solution is applicable to any type of photovoltaic module or flat panel with frame. It is not necessary to resort to customized solutions, of artisanal production, for system integration.

The waterproofing of the joints between the adjacent flat panels is solved by adopting a longitudinal support profile with a suitably configured section to ensure the disposal of rainwater along the joint of the panels perpendicular to the eaves line. Ultimately, the waterproofing of the joints is solved by intervening on the configuration of the support structure and on the method of fixing the flat panels or photovoltaic modules.

The outflow of rainwater occurs through the surface of the flat panels or photovoltaic modules, through the longitudinal profiles and through the profiles that are part of the fixing system. The specific conformation of the longitudinal profile allows the structure to have greater durability, limiting water infiltration. The fixing of the flat panels is carried out by means of an S-section profile which also allows the disposal of rainwater that infiltrates between the panels. The above fixing profile with S-section, in case of maintenance and / or replacement of a single flat panel or photovoltaic module, allows you to uninstall only the panel subject to intervention, without the need to uninstall, alter or move the adjacent panels.

longitudinal profile that constitutes the primary frame of the fastening system is equipped with a groove for Γ insertion of the appropriate fastening devices to the longitudinal profiles for Γ secondary frame; the aforementioned groove has an extension equal to the length of the profile and longitudinal axis parallel to the longitudinal axis; this groove is also equipped with holes with suitable pitch and dimensions to ensure the fastening of the longitudinal profile for Γ primary frame to the longitudinal profile for Γ secondary frame.

BRIEF DESCRIPTION OF THE DRAWINGS

Fig. 1A shows a three-dimensional view of the first phase of installation of the structure for supporting and fixing flat panels or photovoltaic modules;

Fig. 1B shows a three-dimensional view of the second phase of the installation of the structure for supporting and fixing flat panels or photovoltaic modules;

In Fig. 1C the third phase of the installation of the structure for the support and fixing of flat panels or photovoltaic modules is represented in three-dimensional view;

Fig.1D shows in three-dimensional view the fourth phase of the installation of the structure for the support and fixing of flat panels or photovoltaic modules;

In Fig. 1E the fourth phase of the installation of the structure for the support and fixing of flat panels or photovoltaic modules is represented in three-dimensional view;

In Fig. 1F the fourth phase of the installation of the structure for the support and fixing of flat panels or photovoltaic modules is represented in three-dimensional view;

Fig.2A shows the longitudinal section of the assembled structure for supporting and fixing flat panels or photovoltaic modules;

Fig.2B shows the longitudinal section of the structure, for the support and fixing of flat panels or photovoltaic modules exploded; Fig.2C shows in detail the exploded view of the structure for supporting and fixing flat panels or photovoltaic modules, seen in longitudinal section;

Fig.3A shows the cross section of the assembled structure for supporting and fixing flat panels or photovoltaic modules;

Fig.3B shows the exploded cross section of the structure for supporting and fixing flat panels or photovoltaic modules; Fig.3C shows in detail the exploded view of the structure for supporting and fixing flat panels or photovoltaic modules, seen in cross section.

DETAILED DESCRIPTION

Fig. 1A shows a three-dimensional view of the first phase of the installation of the structure for supporting and fixing flat panels or photovoltaic modules; in particular, Fig. 1A illustrates the following components: the support plane l and the longitudinal profiles that constitute Γ primary frame 2, positioned with the longitudinal axis parallel to the line of maximum slope of the roof or support plane 1. The support plane 1 is an inclined surface on which the profiles 2 are positioned with a longitudinal axis parallel to the line of maximum slope of the roof or support surface 1. .

Fig. 1B shows a three-dimensional view of the second phase of the installation of the structure for supporting and fixing flat panels or photovoltaic modules; in particular, Fig. 1B illustrates the following components: support plane 1, longitudinal profiles which constitute Γ primary frame 2 and the longitudinal profiles which constitute Γ secondary frame 3, positioned with a longitudinal axis perpendicular to the line of maximum slope of the roof or plane of support 1. The aforementioned longitudinal profiles that constitute Γ secondary frame 3 have a center distance equal to the length of the flat panels or photovoltaic modules 5.

Fig. 1C shows a three-dimensional view of the third phase of the installation of the structure for supporting and fixing flat panels or photovoltaic modules; in particular Fig. 1C illustrates the following components: support surface 1, longitudinal profiles for Γ primary frame 2, longitudinal profiles for Γ secondary frame 3, upper 10 and lower 11 elastomeric elements and fixing system 7.

The edges of the flat panels or photovoltaic modules 5 which are parallel to the eaves line, are also covered by an elastomeric element 10 consisting of two segments 10A and 10C parallel to the plane of the panel 5 and a segment 10B perpendicular to the plane of the panel 5 and by an elastomeric element 11 consisting of two segments 11A and 11C parallel to the plane of the panel 5 and a segment 11B perpendicular to the plane of the panel 5.

Figure 1D shows a three-dimensional view of the fourth phase of the installation of the structure for supporting and fixing flat panels or photovoltaic modules; in particular, the following parts are illustrated in Fig. 1: support surface 1, longitudinal profiles for Γ primary frame 2, longitudinal profiles for Γ secondary frame 3, elastomeric elements 10 and 11, flat panels or photovoltaic modules 5 and fixing system 7 .

Figure 1E shows a three-dimensional view of the fifth phase of the installation of the structure for supporting and fixing flat panels or photovoltaic modules; in particular, the following parts are shown in Fig.lE: support surface 1, longitudinal profiles for Γ primary frame 2, longitudinal profiles for Γ secondary frame 3, element with S-shaped section 4, elastomeric elements 10 and 11, flat panels or modules photovoltaic 5 and fixing system 7. Fig.lF shows a three-dimensional view of the sixth phase of the installation of the structure for supporting and fixing flat panels or photovoltaic modules; in particular the following parts are shown in Fig. photovoltaic 5 and fixing system 7 and 8.

Fig. 2A shows an assembled longitudinal section of the structure in which the support plane 1, the longitudinal profiles 2 for Γ primary frame, the longitudinal profiles 3 for Γ secondary frame, the elements 4 with S-section are highlighted, the panels planes or photovoltaic modules 5, fixing system 7 and 8, the elastomer 10 and 11 covering the seat of the edge of the flat panel or photovoltaic module 5.

Fig.2B shows an exploded longitudinal section showing the support plane 1, the longitudinal profiles 2 for Γ primary frame, the longitudinal profiles 3 for Γ secondary frame, the elements 4 with S-section, the flat panels or photovoltaic modules 5, fixing system 6, 7 and 8, Γ elastomer 10 and 11 for covering the seat of the edge of the flat panel or photovoltaic module 5.

Fig.2C shows an exploded view of the system in which you can see in detail all the components of each part that makes up the system. The figure shows the support plane 1, the longitudinal profile for Γ primary frame 2, on the top of which the lower part of the longitudinal profile for Γ secondary frame 3 is positioned. This lower part is composed of two side flanges 3 A and 3B . The flange 3 A is provided with holes 3F which allow Γ insertion of the screws 7A, fixed by means of the bolts 7B to anchor the lower part of the longitudinal profile for Γ secondary frame 3 to the longitudinal profile for Γ primary frame 2. The upper part of the longitudinal profile for Γ secondary frame 3 it is composed of three flanges, two of which are lateral 3C and 3E, and a central 3D one. The lower part and the upper part of the longitudinal profile for Γ secondary frame 3 are connected to each other by two vertical elements 3G and 3H. The space delimited by the flanges 3B and 3C and by the vertical element 3G houses the elastomeric element II and the flat panels or photovoltaic modules 5. The elastomeric element 11 has a substantially "C" section corresponding to the profile of the flat panel or photovoltaic module 5, this elastomeric element 11 is composed of at least one vertical side 11B and two horizontal sides 11A and 11C. This elastomeric element 11 is arranged at least on part of the inactive portion (i.e. the portion of the surface which is not available for solar cells) of the upper surface of the flat panel or photovoltaic module 5.

The central 3D flange is equipped with a groove having an extension equal to the length of the profile and longitudinal axis parallel to the longitudinal axis of the profile, for Γ insertion of the appropriate fastening devices of the closing elements 4 with S-section.

The upper lateral flange 3E of the profile for secondary frame 3 acts as a support seat for the elastomeric element 10 and the flat panels or photovoltaic modules 5.

The elastomeric element 10 has a substantially "C" section corresponding to the profile of the flat panel or photovoltaic module 5, this elastomeric element 10 is composed of at least one vertical side 10B and two horizontal sides 10A and 10C. This elastomeric element 10 is arranged at least on part of the inactive portion (i.e. the portion of the surface which is not available for solar cells) of the upper surface of the flat panel or photovoltaic module 5.

The closing device 4 with "S" section is composed of a vertical side 4B and two horizontal sides 4 A and 4C; on the horizontal side 4C there is a hole 4D for Γ insertion of the screw 6 A, which is fixed with nut 6B. In addition, the horizontal side 4A is partially coated by the side 10A of the elastomeric element 10.

Fig.3A shows the assembled cross section of the structure for supporting and fixing flat panels or photovoltaic modules, showing the support surface 1, the longitudinal profile for Γ primary frame 2, the longitudinal profile for Γ frame secondary 3, the closing device 4 with “S” section, the flat panels or photovoltaic modules 5 and the ventilation channel 9.

Fig.3B shows the exploded cross section of the structure for supporting and fixing flat panels or photovoltaic modules; in particular, Fig. 3B illustrates the following components: support surface 1, longitudinal profiles which constitute Γ primary frame 2 and the longitudinal profiles which constitute Γ secondary frame 3, the closing device 4 with "S" section, the flat panels or photovoltaic modules 5 and fixing systems 6,7 and 8.

Fig.3C shows in detail the exploded view of the structure for supporting and fixing flat panels or photovoltaic modules, seen in cross section. In particular, fig. 3C illustrates the following components: support surface 1, longitudinal profiles which constitute Γ primary frame 2, longitudinal profiles which constitute Γ secondary frame 3, closing device 4 with "S" section, flat panels or photovoltaic modules 5. Said profiles longitudinal for Γ primary frame 2 are equipped at the bottom with two flanges 2B and 2B \ The flange 2B is provided with holes for fixing 2C which allow Γ insertion of the screws 8A, fixed by means of bolts 8B to anchor the lower part of the longitudinal profile for Γ primary frame 2 to the upper plane of the support structure 1. The flange 2B 'is provided with holes for fixing 2C' which allow Γ insertion of the screws 8A ', fixed by means of the bolts 8B' to anchor the lower part of the longitudinal profile for Γ primary frame 2 on the upper plane of the support structure 1. The upper part of the longitudinal profile for Γ primary frame 2 is provided with holes for fixing 2A and 2A 'which allow Γ insertion of screws 7A and 7A' respectively, fixed by bolts 7B and 7B 'respectively to anchor the lower part of the longitudinal profile for Γ secondary frame 3 to the upper part of the longitudinal profile for Γ primary frame 2 The fixing of the lower part of the closing device 4 with “S” section on the upper central flange 3D of the longitudinal profile for Γ secondary frame 3 is done by means of screws 7A and bolts 7B.

The structure for supporting and fixing one or more flat panels or photovoltaic modules 5 can be prepared for panels with or without a frame. Likewise, the longitudinal profiles for Γ primary frame 2, the longitudinal profiles for Γ secondary frame 3, the accessories for Γ anchoring the above profiles for Γ primary frame to the support surface 1, the accessories for Γ anchoring the above profiles for Γ secondary frame 3 to the profiles for Γ primary frame 2 and the closing device 4 for fixing the aforesaid flat panels 5 to the longitudinal profiles for Γ secondary frame 3, are made of metal or polymeric material.

Claims (7)

CLAIMS: 1. Structure for supporting and fixing one or more flat panels or photovoltaic modules on horizontal, vertical or inclined surfaces, which allows the disposal of rainwater, consisting of the following parts: to. At least two longitudinal profiles positioned on the support structure which, installed with a longitudinal axis perpendicular to the eaves line of an inclined surface or roof, constitute the primary framework; b. At least two longitudinal profiles resting on the primary frame which, installed with the longitudinal axis parallel to the eaves line of an inclined surface or roof, constitute the secondary frame; c. At least one element, having an "S" section, which fixes the flat panel or photovoltaic module on the secondary frame, arranged along the side of the flat panel or photovoltaic module parallel to the eaves line; d. At least one or more elastomeric elements, capable of at least partially covering the frame or the inactive portion of the edge of each flat panel or photovoltaic module; And. Various types of accessories for fixing the longitudinal profiles that constitute Γ primary framework, to the support structure; f. Various types of accessories for fixing the longitudinal profiles that constitute Γ secondary framework, to the longitudinal profiles that constitute the primary framework; g. Various types of accessories for fixing the "S" section element to the longitudinal profiles that constitute Γ secondary frame. 2. Structure for the support and fixing, as per claim 1, in which the longitudinal profile for the primary framework is equipped, in the upper part, with a groove for Γ insertion of the appropriate fastening devices to the longitudinal profiles for Γ secondary framework ; the aforementioned groove has an extension equal to the length of the profile and longitudinal axis parallel to the longitudinal axis of the profile. The longitudinal profile for Γ primary frame is also equipped with two lateral channels having an extension equal to the length of the profile and longitudinal axes parallel to the longitudinal axis of the profile; the aforementioned side channels perform the function of capturing rainwater. 3. Structure for support and fixing, as per claim 1, in which the longitudinal profile for the secondary framework is equipped with: (a) a lower flange (3A), suitably sized and configured in such a way as to allow the fixing of the same on the longitudinal profiles for the primary framework, by means of appropriate mechanisms; (b) an additional lower flange (3B), which, together with an opposite upper flange (3C) and the side (3G), form the support seat for the flat panel or lower photovoltaic module. Said upper flange (3C) has the function of draining rainwater and protecting the flat panels or photovoltaic modules from atmospheric agents; (c) an additional upper flange (3E), which allows Γ support of the flat panel or upper photovoltaic module; (d) a groove (3D), placed on the upper part of the longitudinal profile for Γ secondary frame, having an extension equal to the length of the profile and longitudinal axis parallel to the longitudinal axis of the profile, for Γ insertion of the appropriate fastening devices of the closure with "S" section. 4. Support and fixing structure, as per claim 1, equipped with an "S" section closure device, consisting of a lower part and an upper part, which parts are sized and configured in such a way as to keep the flat panels or photovoltaic modules in position and in such a way that the edges of the flat panels or photovoltaic modules parallel to the eaves in their final position are not coplanar. 5. Support and fastening structure, as per claim 1, equipped with one or more elastomeric elements, capable of at least partially covering the contact areas between the longitudinal profiles and the "S" section closure elements; which elastomeric element performs the function of improving adherence between the contact surfaces, in particular between the profiles and the flat panels or photovoltaic modules. The elastomeric element also performs the function of protecting flat panels or photovoltaic modules. 6. Method for installing a structure for supporting and fixing one or more flat panels, in particular photovoltaic modules, as per claim 1, said method comprising the following steps: (a) Provide at least two longitudinal profiles and arrange them on the plane of the support structure, parallel to each other and aligned according to the direction perpendicular to the eaves line; (b) Provide at least two longitudinal profiles aligned according to the direction parallel to the eaves line and position them parallel to each other on the top part of the underlying longitudinal profiles arranged parallel to each other and aligned according to the direction perpendicular to the eaves line; (c) Fix the lower part of the longitudinal profiles, aligned according to the direction parallel to the eaves line on the top part of the underlying longitudinal profiles, aligned according to the direction perpendicular to the eaves line, using suitable fastening devices; (d) Place the lower edge of the flat panels or photovoltaic modules in the appropriate space delimited by the lower and upper flange of the longitudinal profile for Γ secondary frame aligned according to the direction parallel to the eaves line; (e) Position the fastening elements with "S" section so that the upper edge of the flat panels or photovoltaic modules is placed in the appropriate space delimited by the lower and upper part of the said "S" section fastening elements. The positioning of the "S" section fastening elements must also take place in such a way that the lower part of the same rests on the upper part of the longitudinal profile for Γ secondary frame and so that the holes provided on the lower part of the fastening elements, to insert the screws to be fixed, they lie near the special groove on the upper part of the longitudinal profile for secondary Γ frame; (f) Fasten the "S" section fasteners to the longitudinal profiles for secondary frame Γ using suitable fastening devices. 7. Assembly comprising a structure for fixing one or more flat panels or photovoltaic modules, as per the preceding claims, and at least one flat panel or photovoltaic module.