ES1071828U - Structure for solar plate support (Machine-translation by Google Translate, not legally binding) - Google Patents

Abstract

Support structure for solar panels, of the type comprising support modules (1a, 1b) available in transverse and longitudinal rows for securing solar panels (2) at their ends and inclined, comprising these modules (1a, 1b) a first higher support area (12) on which the upper part of the solar panel (2) is fixed, and a second lower support area (14) on which the part is fixed lower part of the solar panel (2) with a certain inclination, these solar panels (2) being arranged forming separate rows between them, characterized in that the modules (1a, 1b) are formed in flexible molded plastic bodies, and that they comprise in its front part a raised projection (11) with the first upper support zone (12) of a pair of solar panels (2) arranged in front, and in its rear part a recessed projection (13) with the second support area (14) of some plates lares (2) arranged behind; and in that both projections (11 and 13) have in their intermediate part a transverse rail (3), in whose bosom there is a sliding nut (31), which allows the fastening of the solar panels (2) through a fixation with a handrail (32) and upper screw (33); and in that between both projections (11 and 13) there is at least one housing (15) for ballast (4). (Machine-translation by Google Translate, not legally binding)

Description

Structure for support of solar panels.

Object of the invention

The present invention relates to a structure for support of solar panels, more specifically a structure for placing solar panels on roofs of buildings

Background of the invention

At present, buildings usually have of solar panel installations, mainly type plates photovoltaic, to generate part of the energy consumed by the users These solar panel installations are arranged in the roof of the building and require some supports or structures of support to fix the solar panels and orient them properly to obtain a good energy efficiency.

Currently support structures are known comprising support modules available in rows transverse and longitudinal plates for clamping solar at its ends and inclined. These modules, made mainly in a folded metal profile, they present a first higher support zone on which the part is fixed upper solar panel, and a second less support zone raised on which the lower part of the solar panel is fixed, so that the solar panels are left with a certain inclination. These solar panels are arranged configuring rows separated from each other, mainly so as not to shade they.

In some cases the modules support the plates of independently, so that each board is supported by one or two modules, requiring their proper placement. In other cases a module supports two solar panels, a previous one and another later, determining the length of the module the distance between plates.

The fixing of these modules is usually done by screwing to the deck, which represents a job mechanical that can damage it, facilitating the appearance of leaks.

In many cases, the inclination presented by the cover determines whether or not a structure of certain support, since certain structures serve only to horizontal roofs and not for sloping roofs.

These support structures are usually designed for a specific type of modules, being difficult the placement of modules of different dimensions when the anchor points. In addition, in many situations the structures of support do not have sufficient tolerances to allow Discordant assembly of aligned solar panels, as in covers that are irregular and not absolutely flat.

Description of the invention

The support structure for solar panels, object of this invention has some technical peculiarities intended to offer considerable simplicity of assembly, without damage the cover where it is placed, and enabling its installation in horizontal roofs as on sloping roofs, adapting to the environment and easy maintenance.

The support structure for solar panels includes support modules available in rows transverse and longitudinal for fastening plates solar by its ends and inclined, comprising these modules a first higher support zone on which it is fixed the upper part of the solar panel, and a second support zone less elevated on which the lower part of the plate is fixed solar with a certain inclination, these solar panels being arranged by setting rows separated from each other.

According to the invention the modules are formed in flexible molded plastic bodies, and that comprises in its previous part a raised projection with the first upper support area of a pair of solar panels arranged in front, and in its back a sunken projection with the second support zone of solar panels arranged behind. Both highlights have a lane in the middle transversal, mainly of aluminum, in whose sine it is a sliding nut, which allows the clamping of the plates solar by means of a fixation with a handrail and a screw higher. Between both highlights is at least one accommodation for solid ballast, such as gravel, sandbags or others.

This structure has a number of advantages. considerable techniques, since the configuration of the modules in plastic economizes manufacturing and allows storage and distribution of stacked modules occupying a small space. The modules, not being fixed to the cover by screws, facilitate assembly and minimize the risk of such a roof covering spoil by making holes, so that the structure of support can be placed on both passable and non-transitable covers passable and the space between the modules, allows easy rainwater circulation through said cover, facilitating its evacuation. The modules are equipped with projections and spaces that guarantee cooling of the module by natural convection by being able to pass the hot air through holes and grooves formed between the solar panels and said modules.

In turn, fixing with the handrail screwed to the sliding nut on the cross rail is Fully adjustable as needed. With what is not necessary that both adjacent solar panels match exactly on the module center, but the fixation is movable to one side. This fixing of the plates allows to place plates with thicknesses variables and you can even move the plates through the areas of support to prevent the shadow cast by a plate from affecting Another back plate.

This is how to increase the ease of assembly, being the structure much more adaptable to the conditions from the mounting location, including the fact that the modules, to be made of plastic flex smoothly by coupling to the irregularities of the roofs, minimizing problems of mounting tolerances, which are absorbed by those cited Fixings without any problem.

The modules can be easily cut, since they are made of plastic, allowing the realization of corners and lateral, eliminating unused parts at the anterior ends and later of the structure, and that can be reused in other locations with better use of parts.

It is also planned that the modules comprise modules of reduced width, intended for use in sides of the structure, holding the extreme solar panels of the rows.

The structure comprises a first plate or sheet arranged between two adjacent modules of the same row, and affixed to the back of the anterior raised projections of said modules constituting an air stream deflector incoming from the back of the solar panels located by over. These first plates prevent the entry of wind by behind the plates and divert it up, so it it also achieves a downward pushing force that compresses and stabilizes the structure against the roof of the building in days windy These first plates, for example a sheet of sheet metal Galvanized steel is fixed by screws of variable shape, allowing to vary the distance between two adjacent modules lateral, so that different solar panels can be mounted sizes and thicknesses, the difference in size being absorbed by the length of the first plate that can overlap more or less behind raised raised.

In turn, the structure also comprises a second plate or sheet arranged between two adjacent side modules of adjacent rows and fixed to the side of the proximal projections of said modules, constituting a deflector of the incoming air along the side of the solar plate located superiorly, completing the protection against the effect of
wind.

In addition these first plates allow easy access to the junction box of the solar panels, allowing that the wiring is protected in the space under the board solar.

The modules present their edges and edges rounded so as not to attack the surface of the roof during the installation. In addition it also facilitates storage and transport module manual during assembly.

The support structure and solar panels they form a network that favors the stability of the whole against actions of the wind in the building.

The height difference between the highlights is designed for the placement of solar panels with a inclination of approximately 10 degrees, which is optimal for the plate is cleaned with rain and does not accumulate much dirt with a adequate energy efficiency. In addition the plates can be placed in a longitudinal arrangement in the rows or in an arrangement transverse, suitable for placement on decks that are not completely horizontal, but have a certain inclination, thereby reducing the inclination of the plate as the rows of modules is compensated with the aforementioned inclination of the cover.

Description of the figures

To complement the description that is being performing and in order to facilitate the understanding of characteristics of the invention, is attached herein descriptive a set of drawings in which, for illustrative purposes and not limiting, the following has been represented:

- Figure 1 shows a plan view of a structure portion with solar panels.

- Figure 2 shows a perspective view anterior of a portion of the structure observing the second plates acting as baffle.

- Figure 3 shows a plan view of a module.

- Figure 4 shows a profile view of a module.

- Figure 5 shows a detail of the fixation of the solar panels on the cross rail.

Preferred Embodiment of the Invention

As can be seen in the referenced figures, the support structure for solar panels comprises support modules (1a, 1b) arranged in transverse and longitudinal rows for fastening solar panels (2) at their ends, said solar panels remaining ( 2) aligned in transverse sequences and inclined towards the brake
tea.

The modules (1a, 1b) are made up of flexible molded plastic bodies, in this case polyethylene of high density, which include a protrusion in its anterior part raised (11) with a first upper support zone (12) of a pair of solar panels (2) arranged in front, and in their part later a sunken projection (13) with the second support area (14) of solar panels (2) arranged behind, said solar panels (2) arranged inclined from the first zone of upper support (12) in the modules (1a, 1b) after the second  lower support area (14) in the modules (1a, 1b) above, this inclination being approximately 10 degrees. In the part intermediate of both projections (11 and 13) is a lane transverse (3), which in this case is made of aluminum, and in whose breast is a sliding nut (31), which allows the fastening of the solar panels (2) by means of a fixation with a handrail (32) and an upper screw (33), the two being fixed solar panels (2) by the perimeter frames. Between both highlights (11 and 13) there is an accommodation (15) for the deposit of ballast (4) that secures the module (1a, 1b) to the ground by weight. The edges and edges of the modules (1a, 1b) are rounded to avoid attack the surface of the roof of the building where they are installed solar panels (2).

In a specific embodiment modules (1b) they have a reduced width, for use at the ends sides of the structure, holding a single solar panel (2) by one side, while other modules (1a) have a greater width to establish greater stability in the fastening of two plates solar (2), one on each side. The modules (1a, 1b), being plastic are cut according to needs on sides and corners.

Between adjacent modules (2) of a row transversal is installed a first steel plate (5a) galvanized, resting on the back of the projections high (11), defining a rear deflector below the solar panels (2) upper, protecting the cables (no represented) and junction boxes under said plates solar (2).

The structure also comprises a second plate (5b) or sheet arranged between two adjacent modules (1a, 1b) sides of adjacent rows and fixed laterally to the part side of the projections (11 and 13) next to said modules (1a, 1b), constituting a deflector of the incoming air from the side of the solar panel (2) located superiorly at one end of the assembly of solar panels (2) that make up the structure.

Once nature is sufficiently described of the invention, as well as a preferred embodiment, for the appropriate purposes that the materials, form, size and arrangement of the elements described may be modified, as long as this does not imply an alteration of the essential features of the invention claimed in continuation.

Claims (4)

1. Support structure for solar panels, of the type comprising support modules (1a, 1b) available in transverse and longitudinal rows for securing solar panels (2) at their ends and inclined, these comprising modules (1a, 1b) a first higher support zone (12) on which the upper part of the solar panel (2) is fixed, and a second lower support zone (14) on which the part is fixed bottom of the solar plate (2) with a certain inclination, these solar panels (2) being arranged forming rows separated from each other, characterized in that the modules (1a, 1b) are formed in flexible molded plastic bodies, and comprising in its front part a raised projection (11) with the first upper support area (12) of a pair of solar panels (2) arranged in front, and in its back a sunken projection (13) with the second support area (14) of some solar panels it is (2) arranged behind; and because both projections (11 and 13) have in their intermediate part a transverse rail (3), in which there is a sliding nut (31), which allows the fastening of the solar panels (2) by means of a fixation with a handrail (32) and an upper screw (33); and because between both projections (11 and 13) there is at least one housing (15) for ballast (4). 2. Structure according to claim 1, characterized in that it comprises a first plate (5a) or sheet arranged between two adjacent modules (1a, 1b) of the same row, and fixed to the back of the raised raised projections (11) of said modules (1a, 1b) constituting a deflector of the incoming air from the rear of the solar panels (2) located above. 3. Structure according to any of the preceding claims, characterized in that it comprises a second plate (5b) or sheet arranged between two adjacent side modules (1a, 1b) of adjacent rows and fixed to the side of the projections (11 and 13) next to said modules (1a, 1b), constituting a deflector of the incoming air from the side of the solar panel (2) located above. 4. Structure according to any of the preceding claims, characterized in that the modules (1a, 1b) have their edges and rounded edges so as not to attack the surface of the roof during installation.