ITTV20130083A1 - MODULAR SUPPORT STRUCTURE FOR PHOTOVOLTAIC PANELS IN GROUND PLANTS - Google Patents

Description

MODULAR SUPPORT STRUCTURE FOR PANELS

PHOTOVOLTAICS IN GROUND SYSTEMS

[0001] The present invention relates to a modular support structure for photovoltaic panels in ground-mounted systems.

[0002] The innovation finds particular though not exclusive application in the sector of the production of support and anchoring structures for solar panels, in particular of the photovoltaic type, and in particular in the industry for the production of support and anchoring structures for solar panels to be placed in ground systems, as well as more widely, in the industry for the production of accessories for solar thermal and photovoltaic panels.

[0003] The current needs for differentiation of energy supply sources in recent times have led to a wide and constantly increased diffusion of technical solutions aimed at energy supply from renewable sources. Such a growing need, together with the prospect of exhaustion that seems reasonably foreseeable for some energy sources, in particular for those linked to the use of fossil fuels, as well as the increased sensitivity of the consumer regarding environmental problems as well as the economic need to contain the costs related to the use of electricity, have led to many people driving the use of electricity obtained from those that with a broad term are defined as alternative sources. Among the energy sources classified as renewable, due to the possibility of obtaining a supply that does not lead to the exhaustion of the resource from which it comes, the energy that can be obtained from solar radiation currently appears to be one of the most exploitable since the technology that allows it the use has reached a sufficiently high degree of development. Hand in hand with the evolution of technology in the sector of energy production deriving from the conversion of solar radiation into electricity, a whole technology has consequently developed to allow the correct and functional installation of the solar panels themselves that allow their conversion. . As a first approximation, with exclusive reference to the support structures for solar panels, whether they are thermal or photovoltaic, as a first approximation it is possible to distinguish, depending on the type of destination, support and anchoring structures to be used for the location on the ground and support and anchoring structures to be used for placement on roofs. With specific reference to the support and anchoring structures for solar thermal or photovoltaic panels to be placed on the ground, creating what are commonly defined as solar parks, including a multiplicity of static support structures that engage the photovoltaic panels in such a way that they are fixedly placed at a certain inclination that favors radiation. Limited to these fixed structures, not taking into account for the purposes of the present solution all those other solutions that define the solar trackers which provide the possibility that the support is structured in such a way as to include preferably automatic movement devices capable of allowing keep the orientation of the supported photovoltaic panel always in the best position of radiation depending on the precise position of the sun.

State of the art

[0004] With specific reference to support structures for solar panels, in particular photovoltaic ones, intended for placement on the ground which are of the static type not being equipped with devices suitable for allowing their regulation, different solutions are currently known, some of which are structured in such a way as to be constituted by a ballast element which variously engages uprights and longitudinal members consisting of metal profiles to which the photovoltaic panels are anchored by using known fixing means. Limited to the types of support structures for photovoltaic solar panels intended for equipping static ground systems, some solutions require that the structural elements that compose them, at least in their majority, are made of concrete. Also in the current patent literature it is possible to trace solutions of support structures for solar panels, particularly photovoltaic ones, made including concrete elements. Among the solutions found, by way of example, the following are cited:

OF: n. W02013020152 (Hilber)

D2: n. DEI 02008052600 (Rev. Renevable Energy Ventures)

D3: n. DEI 02008027300 (REV)

D4: n. DE202009003167 (Haslinger)

D5: n. DEI 02008027301 (REV)

D6: n. JP2003221906 (Mitsubishi)

[0005] D1 briefly describes an anchoring device for photovoltaic systems comprising a base ballast to which two mutually spaced supports are attached, in which at least the base ballast is made of concrete.

[0006] D2 briefly describes a system for generating electricity by means of photovoltaic modules anchored to support structures which comprise concrete support devices shaped in an "L" shape and in which, at least one support device shaped in an "L" shape, it comprises a rear part and a recessed part, the latter of which is connected to said rear part and in which the rear part is longer than the recessed part. Furthermore, a support portion is provided to be placed between one of said concrete shaped parts and the photovoltaic module.

[0007] In D3 briefly describes a system for the generation of electrical energy obtained from sunlight comprising photovoltaic modules engaged to a support structure. The support structure comprises walls to which the photovoltaic modules are engaged, said walls being made of concrete. Said walls are mutually connected by means of connection elements made of concrete, said walls and said connection elements forming a support frame. The foreseen walls comprise an inclined surface with an angle between 10 ° and 60 ° with respect to the horizontal plane.

[0008] D4 briefly describes a modular support structure for supporting photovoltaic panels in ground systems without anchoring to the ground, comprising a base consisting of a support plate provided with a multiplicity of seats suitable for engaging at least one support leg suitably shaped in such a way as to provide, at the base, engagement bodies suitable for engaging the said seats of the support plate, the support leg being shaped in such a way as to make it possible to anchor the photovoltaic panel. Both the support plate and the said support leg are preferably made of concrete.

[0009] D5 briefly describes a solution of a system for the generation of electrical energy obtained from sunlight comprising photovoltaic modules engaged to a support structure. The solution provides that the support structure on which the photovoltaic panels are positioned is made up of modules made of concrete which are themselves shaped like a "U" whose two vertical walls are of different height so as to allow the photovoltaic panels are tilted.

[0010] D6 briefly describes a support pedestal solution for solar panels which has the advantages of representing a structure separated from the foundation and which can be easily moved in order to be relocated. Said support pedestal for solar panels comprises a load-bearing part for supporting the battery of solar panels, a fixed element placed in contact with the perimeter edge of the photovoltaic panel in such a way as to allow the anchoring of said photovoltaic panel itself to the load-bearing part, further providing that said pedestal comprises support legs which act as foundation parts.

Drawbacks

[001 1] All the known solutions of support devices for solar panels, particularly intended for the construction of ground-mounted systems, of which in the known art, have defects and / or limitations to varying degrees.

[001 2] A first limitation, in the applicant's opinion, characteristic of all known solutions of support devices for solar panels, in particular intended for ground-based systems, consists in the significant circumstance that said solutions

[0013] A second limitation, in the applicant's opinion, characteristic of all known solutions of

[0014] Another limitation, in the applicant's opinion, characteristic of all known solutions of devices

[001 5] There is therefore a need on the part of companies in the sector to identify optimal solutions to achieve the subsequent prefixed purposes.

Summary of the object of the finding

[001 6] These and other purposes are achieved with the present innovation according to the characteristics of the annexed claims by solving the problems set forth by means of a modular support structure (1) for photovoltaic panels (5) in ground systems comprising a base body (2) provided with a first grooved seat (25) and a second grooved seat (26) in which the first grooved seat (25) pivots the end of a support arm (3) in the manner of an open broken support (3) being constrained to the base in such a way as to be able to rotate relative to the fulcrum in which the second grooved seat (26) of the base body (2) engages the end of a support body (7), said second seat grooved (26) being provided with spaced positioning seats (27), the opposite end to the one engaged with the base body (2) of the support body (26) engaging the support arm (3) to rest, a variation of the in inclination of the support arm (3) due to the different engagement positioning of the support body (7).

Aims

[001 7] Aims and advantages are achieved through the considerable creative contribution whose effect constitutes an immediate technical progress.

[0018] A first advantageous object is to obtain a modular support device for photovoltaic panels in ground-mounted systems through whose innovative structure it is possible to obtain a modular device which is extremely adaptable to the contingent installation needs of the system.

[0019] A second advantageous object is that of obtaining a modular support structure for photovoltaic panels in ground-mounted systems, through whose innovative structure it is possible to significantly reduce the production and installation times and costs of the realized system.

[0020] Another advantageous object is to obtain a modular support device for photovoltaic panels in ground-mounted systems, through whose innovative structure it is possible to improve the stability of the system in unfavorable wind conditions and to facilitate its installation on any type of ground without the need to level it, further allowing to vary the inclination of the panels in a simple and economical way

[0021] These and other advantages will appear from the following detailed description of some preferential embodiment solutions whose execution details are not to be intended as limiting but only as examples.

Contents of the drawings

Figure 1 is a three-quarter overall view from above of the modular support device for photovoltaic panels in ground-mounted systems according to the invention, object of the present invention;

Figure 2 is a side orthogonal projection view of the modular support device for photovoltaic panels in ground-mounted systems according to the invention, object of the present invention;

Figure 3 is a side orthogonal projection view of the modular support device for photovoltaic panels in ground-mounted systems according to the invention, object of the present invention;

Figure 4 is an orthogonal projection plan view from above of the modular support device for photovoltaic panels in ground-mounted systems according to the invention, object of the present invention;

Figure 5 is a three-quarter overall front view from above of a photovoltaic system provided with the modular support device for photovoltaic panels in ground-mounted systems according to the invention, object of the present invention;

Figure 6 is an overall rear view of three-quarters from below of a photovoltaic system provided with the support device for photovoltaic panels in ground-mounted systems according to the invention, object of the present invention;

Practical realization of the invention

[0022] Referring also to the contents of the drawings, a modular support device (1) for photovoltaic panels in ground-mounted systems is described which in a preferential embodiment solution as also resulting from the graphic representations of the drawings of figures from 1 to 7 comprises modules consisting of a base body (2) also having the function of ballast being made of concrete. The envisaged base body (2) in the embodiment that is described is shaped like a parallelepiped of suitable dimensions and weight in relation to the intended purpose. Furthermore, it is envisaged that said base body (2) is made of concrete of the reinforced type, being provided with a reinforcement, of the conventional type, made of metal rod, preferably of iron rod of the knurled and high resistance type and in to which the reinforcement made, in a known way, follows the perimeter shape of the support body (2). The base body (2), as shown in Figures 1 to 4, is shaped in such a way as to include a support face (21), intended for contact with the ground. In the example of embodiment described in Figures 1 and 2, the support face (21) of the base body (2) is shaped in such a way as to be mostly flat being provided with at least one recess (22 ), in the example shown in Figures 1 and 2, the recesses (22) being two in number, called recesses (22) creating a recess relative to the lying surface of the supporting face (21). The intended function of the said grooves is to contribute both to improving the support on the ground and to allow a better flow of the meteoric water by improving the overall laying stability of the modular support device (1).

[0023] Furthermore, the base body (2) is equipped, in order to allow it to be lifted for positioning on site, with two lifting hooks (23) positioned, recessed, within suitable seats (24). As illustrated in Figures 1 and 2, the base body (2) is provided, at the two longitudinal ends, with a first grooved seat (25) and a second grooved seat (26) which are preferably positioned, as in the example that is described, in such a way as to be on the median line represented by half the width of the base body (2). More specifically, the first grooved seat (25) is shaped and of such dimensions as to allow the placement of the end of a support arm (3) shaped in the form of an open segment comprising a first rectilinear portion (31) and a second portion rectilinear (32) mutually forming an angle, in which the first rectilinear portion (31) is shorter than the second rectilinear portion (32), the support arm (3) being made of reinforced concrete provided with a reinforcement, of the conventional type, made of metal rod, preferably of iron rod of the knurled and high resistance type and in which the armature made, in a known way, follows the perimeter shape of the support arm (3). The support arm (3) is made and structured in such a way as to be suitable for anchoring the metal longitudinal members (4) intended, in a known way, to engage the photovoltaic panels (5) making up the photovoltaic system, being for this purpose provided with fixing seats (33) for the engagement of threaded means of known type suitable for anchoring said metal longitudinal members (4). In the example of embodiment that is described, it is envisaged that the support arm (3) is structured in such a way that the angle formed between the first rectilinear portion (31) and the second rectilinear portion (32) is 115 sexagesimal degrees , in any case the support arm (3) is structured in such a way as to allow the inclined positioning of the photovoltaic panels. In order to allow the variation of the inclination of the positioning of the photovoltaic panels, it is envisaged that the end of the first rectilinear portion (31) of the support arm (3) is rounded in such a way as to allow it to perform semi-rotation movements around a fulcrum represented by a first constraint pin (6) of a known type, made of metallic material, in which the said end of the first rectilinear portion (31) of the support arm (3) is provided with a suitable seat for the first constraint pin (6) as well as the base body (2), in correspondence with the first grooved seat (25) is equipped with seats for the first constraint pin (6), which seats themselves, resulting in axis a positioning for the constraint of the support arm (3), allow the correct positioning of the first constraint pin (6). The first grooved seat (25) of the base body (2) is made in such a way that in addition to allowing the semi-rotating movement of the support arm (3) around the fulcrum represented by the first constraint pin (6), it allows the rounded end (311) of the first rectilinear portion (31) of the support arm (3) itself to rest on the base wall (251) of the first grooved seat (25).

[0024] In greater detail, the first grooved seat (25) comprises a base wall (251) substantially flat and parallel to the supporting face (21) of the base body (2), further comprising a first side wall (252 ) and a second side wall (253) mutually spaced and parallel, as well as a first bottom wall (254) which is oblique, in any case providing that the first bottom wall (254) is at a distance such as to allow movement in semi-rotation of the support arm (3) in order to implement the most convenient inclination for the best orientation of the photovoltaic panels in relation to the characteristics of the area where the system is located.

[0025] In order to allow adequate support of the support arm (3) in such a way as to allow it to be kept in position with the desired inclination, the modular support device (1) is provided to comprise a support body ( 7) made of concrete of the reinforced type provided with a reinforcement, of the conventional type, made of metal rod, preferably of iron rod of the knurled type and with high resistance and in which the reinforcement made, in a known way, follows the perimeter shape of the support body (7). In greater detail, the support body (7) is provided shaped, as illustrated in figure 2, in such a way as to have a lower end (71), preferably rounded, and an opposite upper end (72) straight, the measure of the thickness of the support body (7) being such as to allow at least the lower end (71) of the same to be placed within the second grooved seat (26). In order to allow engagement of the support body (7) to the base body (2), the support body (7) at the lower end (71) is provided with an engagement seat for a second constraint pin (8) of a known type, made of metallic material, the base body (2) being for the same purpose as the engagement of the support body (7), in correspondence with the second grooved seat (26) equipped with positioning seats (27) for the first constraint pin (6), which positioning seats (27) themselves, are arranged aligned on the same horizontal plane and spaced relative to each other, in the example that is described, the said positioning seats (27) providing each other equidistant. The second grooved seat (26) is envisaged to comprise a lower wall (261), substantially flat and parallel to the supporting face (21) of the base body (2), on which the lower end ( 71) of the support body (7) once it has been pivoted by the second constraint pin (8). Furthermore, the second grooved seat (26) comprises a third side wall (262) and a fourth side wall (263) mutually spaced and parallel, as well as a second bottom wall (264) which is almost oblique, being the second seat grooved (26) of such dimensions as to allow the positioning of the support body (7) so as to allow its engagement in any of the positions allowed by the said positioning seats (27). The provision of said positioning seats (27) by means of which it is possible to move the support body (7) in translation along the second grooved seat (26), allows to vary the inclination of the support arm (2) pivoted to the base body (2), so as to make the modular support structure (1) adaptable to the irradiation conditions dictated by the specific location of the system. In order to make the modular support structure (1) more stable, it is envisaged that the engagement of the support body (7) to the base body (2) can take place, as well as by means of the second constraint pin (8), also by anchoring with metal angles (9) engaged in a known way to the support body (7) and to the base body (2) by means of known threaded fastening devices (11) such as, by way of example, suitable screws and / or bolts . Furthermore, the engagement of the upper end (72) of the support body (7) resting on the second rectilinear portion (32) of the support arm (3) is also made stable by the engagement of metal sheets (10) of the type known to be engaged to the support body (7) near the upper end (72) and to the second rectilinear portion (32) of the support arm (3) by means of known threaded fastening devices (11) such as, by way of example, suitable screws and / or bolts. In order to facilitate the correct positioning of the support body (7) to the second rectilinear portion (32) of the support arm (3), said second rectilinear portion (32) is provided with suitable through holes (322) mutually spaced and aligned to allow the engagement of the threaded fastening devices (11) of the metal plates (10) so as to allow the positioning of the support body (7) according to the position allowed by the engagement of the support body (7 ) itself to the positioning seats (27).

[0026] As illustrated in Figure 5 and Figure 6, a photovoltaic system implemented by means of the use of the modular support structure (1) according to the invention, object of the present invention provides that a plurality of modular support structures (1) are arranged mutually aligned in such a way that they engage in anchoring in a known way the metal longitudinal members (4) anchored to the second rectilinear portion (32) of the support arm (3) by means of suitable fastening means of a known type, in the example consisting of dowel and screw. The side members (4) are of the metal type and consist of profiles of suitable section and shape, in the example of embodiment which is described with a shape in the shape of a "C" provided with edges facing inwards, on which side members (4) , in order to anchor the solar panel (50), clamps (8) and anchoring plates (9) are placed in engagement, of a known type being able to anchor the edge of the photovoltaic panel (5), said clamps being engaged to the side member (4) by means of conventional screws.

LEGEND

(1) modular support structure

(2) base body

(21) support face

(22) grooves

(23) lifting hooks

(24) locations

(25) first grooved seat (251) base wall

(252) first side wall (253) second side wall (254) first back wall (26) second grooved seat (261) bottom wall

(262) third side wall (263) fourth side wall (264) second back wall (27) positioning seat (3) support arm

(31) first straight portion (311) rounded end (32) second straight portion (322) through holes

(33) fixing seats

(4) side members

(5) photovoltaic panels

(6) first connecting pin

(7) support body

(71) lower extremity

(72) upper extremity

(8) second connecting pin (9) metal corner pieces

(10) metallic foils

(11) threaded fasteners

Claims (6)

CLAIMS 1. Modular support structure (1) for photovoltaic panels (5) in ground-mounted systems of the type with base body (2) made of concrete characterized in that the modular support structure (1) includes at least one base body ( 2) to which at least one support arm (3) shaped in such a way as to allow the inclined positioning of the photovoltaic panels (5) in which the support arm (3 ) can be moved in semi-rotation around the fulcrum since the support arm (3) is supported by at least one support body (7) with the lower end (71) engaged with the base body (2) and the upper end engaged with the arm support (3). 2. Modular support structure (1) for photovoltaic panels (5) in ground-mounted systems according to claim 1 characterized in that the support arm (3) comprising a first rectilinear portion (31) and a second rectilinear portion (32) reciprocally forming an obtuse angle in which the first rectilinear portion (31) is shorter than the second rectilinear portion (32), the support arm (3) being made of reinforced concrete and provided with fixing seats (33) for the engagement of side members (4). 3. Modular support structure (1) for photovoltaic panels (5) in ground-mounted systems according to at least one of the preceding claims characterized in that the base body (2) is at least equipped with a first grooved seat (25) and a second grooved seat (26) in which the first grooved seat (25) is shaped and of such dimensions as to allow the placement of the rounded end (311) of which the first rectilinear portion (31) of the support arm (3) is provided, the first grooved seat (25) being made in such a way that in addition to allowing the semi-rotating movement of the support arm (3) around the fulcrum represented by the first constraint pin (6), it allows the rounded end (311) of the first straight portion (31) of the support arm (3) itself to rest on the base wall (251) of the first grooved seat (25) itself. 4. Modular support structure (1) for photovoltaic panels (5) in ground-mounted systems according to at least one of the preceding claims characterized in that the second grooved seat (26) is equipped with positioning seats (27) for the first constraint (6), which positioning seats (27) themselves are spaced relative to each other. 5. Modular support structure (1) for photovoltaic panels (5) in ground-mounted systems according to at least one of the preceding claims characterized in that the support body (7) is shaped in such a way as to have a lower end (71 ) rounded and an opposite upper end (72) straight, the measurement of the thickness of the support body (7) being such as to allow at least the lower end (71) of the same to be placed within the second grooved seat (26 ). 6. Modular support structure (1) for photovoltaic panels (5) in ground-mounted systems according to at least one of the preceding claims characterized in that the first grooved seat (25) comprises a base wall (251) substantially flat and parallel to the face support (21) of the base body (2), further comprising a first side wall (252) and a second side wall (253) mutually spaced and parallel, as well as a first bottom wall (254) which is provided oblique , in any case providing that the first bottom wall (254) is at a distance such as to allow the semi-rotating movement of the support arm (3). modular support structure (1) for photovoltaic panels (5) in ground-mounted systems according to at least one of the preceding claims characterized in that the second grooved seat (26) is expected to comprise a lower wall (261), substantially flat and parallel to the face support body (21) of the base body (2), on which the lower end (71) of the support body (7) is intended to rest once it has been pivoted by the second constraint pin ( 8), further the second grooved seat (26) comprising a third side wall (262) and a fourth side wall (263) mutually spaced and parallel, as well as a second bottom wall (264) which is almost oblique, being the second grooved seat (26) of such dimensions as to allow positioning of the support body (7) so as to allow its engagement in any of the positions allowed by said positioning seats (27). 8. Modular support structure (1) for photovoltaic panels (5) in ground-mounted systems according to at least one of the preceding claims characterized in that the base body (2) is shaped in such a way as to include a supporting face (21 ) provided with at least one recess (22) forming a recess relative to the lying surface of the bearing face (21). 9. Modular support structure (1) for photovoltaic panels (5) in ground-mounted systems according to claim at least one of the preceding claims characterized in that the base body (2) is equipped with at least two lifting hooks (23) positioned , collected, in the context of appropriate offices (24). 10. Modular support structure (1) for photovoltaic panels (5) in ground-mounted systems according to claim at least one of the preceding claims characterized in that the modular support structure (1) comprises one or more of the technical characteristics referred to in the description and drawings.