ES1290776U - Solar panel fastening system (Machine-translation by Google Translate, not legally binding) - Google Patents

Abstract

SOLAR PAISE SUBJECTION SYSTEM, Understanding a metallic belt (6), which is tied by hoping elements (8) in a clamping (2) application on a frame (3) provided with a protective layer of alumina, in which photovoltaic modules (1) that make up the solar panel to hold, characterized by the surface of the belt (6) are incorporated by which contact is made with the frame (3) in the subjection (2) Application, some outgoing (7) are determined, through which support is established against the frame (3) breaking its protective layer. (Machine-translation by Google Translate, not legally binding)

Description

DESCRIPTION

SOLAR PANEL FIXING SYSTEM

Technical sector

The present invention is related to the capture of solar energy by means of photovoltaic modules to produce electricity, proposing a system that allows solving the problems of electrical conductivity in the fastening of the photovoltaic modules with respect to the support structure on which they are arranged.

State of the art

Solar trackers are currently known that are used to capture the sun's energy as a source of electricity production, using photovoltaic modules that are held on a rotation axis associated with an orientation drive in relation to the position of the sun to obtain a maximum yield of solar capture at all times.

The fastening of the photovoltaic modules on the axis of rotation is conventionally established by means of joining pieces, called straps, which are fixed by means of screws or other fastening means on a frame in which the photovoltaic modules are incorporated and, therefore, On the other hand, on a supporting structure, which can be, for example, based on poles that position the mounting of the photovoltaic modules at a height that favors solar capture.

In this arrangement, it is important to ensure electrical equipotentiality between all the parts or elements that make up the solar tracker, to avoid possible risks of electrical discharges.

However, the photovoltaic modules of the solar trackers are incorporated in a frame that is made of anodized aluminum, that is, aluminum covered with a layer of alumina, which provides a protective coating, but constitutes an insulation that hinders electrical conductivity. between said frame of the photovoltaic modules and the support structure in the solar tracker.

On the other hand, the fastening straps of the photovoltaic modules are metallic, normally incorporating a coating made up of a metallic alloy, which provides protection against atmospheric corrosion superior to that offered by standard galvanizing, so that between these straps clamping and framing of photovoltaic modules does not produce efficient electrical conductivity.

To avoid the electrical conductivity problems that are produced by these structural causes of protection of the elements that intervene in the fastening of the photovoltaic modules of the solar trackers, the solution of incorporating among the component parts of the fastenings elements such as a serrated washer, which when tightening the fasteners breaks the anodizing of the photovoltaic module panel frame, thus ensuring adequate conductivity between the fastening straps and said photovoltaic module panel frame.

This known solution implies, however, the use of auxiliary elements in the fastening joints of the panels that incorporate the photovoltaic modules of the solar trackers, which makes it difficult to assemble the fastenings, resulting in an increase in the cost of materials and of the operating time necessary for the assembly of the solar tracker.

Object of the invention

In accordance with the present invention, a fastening system for the panels of the photovoltaic modules in the solar trackers is proposed, that is, between the fastening straps and the frame in which the photovoltaic modules are incorporated, with characteristics that allow ensuring the electrical conductivity in the fastening joint between said elements, without the need to incorporate auxiliary elements.

This contact system object of the invention is based on determining some projections on the surface with which the fastening straps rest against the frame of the panels of the photovoltaic modules in the fastenings, said projections being able to be made, for example, by drawing or stamping

By protrusion is meant a part of the belt that protrudes from its surface regardless of its shape, for example, a protrusion.

In this way, a contact between the component parts of the fasteners is obtained, with support by means of the projections, which, when tightening the fastener, break the anodized protection layer of the frame of the photovoltaic module panels, establishing direct contact with the aluminum body of said frame, which guarantees efficient electrical conductivity through the clamping. This ensures equipotentiality between all the parts or elements of the solar tracker to avoid possible electrical risks.

Therefore, a fastening with a guarantee of electrical conductivity between the parts that compose it is achieved, without the need to incorporate auxiliary elements to establish the conductivity, which has repercussions in improving the simplicity and speed of the assembly of the solar trackers. , with the consequent economic benefit.

For this function, the support projections that are defined in the straps of the fastenings can be made in correspondence with the holes for the passage of the fastening elements of the straps in the fastenings or else in positions separated from said holes, being foreseen the realization of the protrusions with a sharp shape on the crest, which favors the incidence of said protrusions to break and go through the protective anodizing layer of the frame of the photovoltaic module panels in order to establish electrical continuity between the component parts of the subjection.

For all these reasons, the contact system object of the invention has some advantageous characteristics for the conductivity function to which it is intended in the mounting fasteners of the photovoltaic modules of the solar trackers, acquiring its own life and preferential character with respect to the currently known solutions for that function.

Description of the figures

Figure 1 shows a partial perspective of the assembly of a solar tracker, where the fastening system is applicable to guarantee electrical conductivity according to the invention.

Figure 2 is an enlarged perspective detail of the arrangement of a photovoltaic module panel fastening strap provided with projections according to the invention to guarantee electrical conductivity in the structural assembly of a solar tracker.

Figure 3 is a profile view of a belt provided with support projections according to invention made in correspondence with the holes for the fastening elements in the application assembly.

Figure 4 is a plan detail of an area of the belt of the previous figure where projections are made in correspondence with the holes for the passage of the lashing elements.

Figure 5 is a detail of a cross section of the contact between a strap provided with support projections in correspondence with the holes for the fastening elements and the frame of a panel of photovoltaic modules of a solar tracker.

Figures 6 and 7 are respective views like those of figures 3 and 4, of a strap provided with support projections separated from the holes through which the lashing elements pass.

Figure 8 is a profile view of a belt provided with bearing projections formed with a sharp ridge.

Figure 9 is a perspective view of a section of belt according to the embodiment of the previous figure.

Figure 10 is an exploded perspective view of the assembly of a fastening according to the invention with a strap formed by a lower part and an upper part, between which the frame of the panel of photovoltaic modules to be fastened is arranged.

Figure 11 is an exploded perspective view of another embodiment of the invention.

Figure 12 is an exploded perspective view of another embodiment of the invention with an upper detail of the upper part of the strap and another lower detail of the lower part of the strap.

Figure 13 is an exploded perspective of another embodiment of the invention with a detail of the upper part of the strap.

Detailed description of the invention

The object of the invention refers to a contact system to guarantee electrical conductivity in the fasteners (2) of the photovoltaic modules (1) of a solar tracker formed by panels in which the photovoltaic modules (1) are arranged in a frame (3) provided with a protective coating of alumina, which is electrically insulating, holding said panels of the photovoltaic modules (1) on an axis (4) that has of a turning drive to orient the panels in a variable manner in relation to the position of the sun and which is located in height by means of support posts (5) to facilitate said orientation (figure 1).

In this concept, the fastenings (2) of the panels of the photovoltaic modules (1) are conventionally established by means of a metallic strap (6), which is tied at the bottom on the support structure formed by the posts (5), while the upper part is tied with passing elements (which can be screws, clamps, etc.) through the strap itself (6) or some wings (6.1) provided in it, the frame (3) of the panels of the photovoltaic modules (1).

According to the invention, to guarantee the electrical conductivity in the support between the strap (6) of the fasteners (2) and the frame (3) of the panels of the photovoltaic modules (1), in the assembly of the solar tracker of application, on the support surface of the belt (6) against the frame (3) some projections (7) are determined, to establish by means of them the support contact against the frame (3).

In this way, when the fasteners (2) are tightened, due to the tightening pressure, the projections (7) break the protective anodized layer of the frame (3), coming to make direct contact with the soul of said frame ( 3), which is conventionally made of aluminium, which guarantees good electrical conductivity between the frame (3) of the panels of the photovoltaic modules (1) and the strap (6) in the fasteners (2), thus avoiding the danger of electric shocks in the structure of the solar tracker.

According to one embodiment, the projections (7) can be made on the strap (6) in relation to the passage holes (8) for the lashing elements, that is, in coincidence with said lashing holes (8), preferably in the form flaring around the hole (8), as shown in figures 3 to 5. However, the projections (7) can also be made in positions separated from said holes (8) for the passage of the lashing elements, as shown in figures 6 and 7, since the essence is that there are some prominent conformations on the support surface of the belt (6), to establish through them the support against the frame (3) of the panels of the photovoltaic modules (1 ) in mounting the fasteners (2) and break the anodizing.

For this, the formation of the projections (7) can be done in any way that allows determining prominent conformations on the support surface of the belt (6), said formation of the projections (7) being able to be carried out, for example, by drawing or stamping, without this embodiment being limiting.

On the other hand, the conformation of the projections (7), according to an alternative embodiment, is provided with a sharp shape at the crest, as can be seen in figures 8 and 9, which favors the incidence of said projections ( 7) to break the protective anodizing layer of the frame (3) of the photovoltaic module panels (1), to guarantee electrical conductivity, in the mounting of the fasteners (2). In this case, the projection (7) is made at a distance from the mooring hole (8), however, it could also be made adjacent to said hole (8), although it could be less effective.

The concept of the projections (7) on the straps (6) of the fastenings (2) of the panels of the photovoltaic modules (1) of the solar trackers, is applicable with straps (6) of any configuration according to the conventional embodiments that are known in this type of applications, and may even be belts (6) made up of a lower part (6a) and an upper part (6b), between which the frame (3) of the photovoltaic module panels ( 1) to be fastened, as shown in figure 10, where they can be provided with projections (7), both the lower part (6a) and the upper part (6b) or both, to ensure electrical conductivity in the fasteners (2) application.

Thus, in figure 10 itself it can be seen how the upper support part (6b) comprises at its end some projections (7) bent towards the union with the frame (3) that after the union will break the anodizing.

In Figure 11, an alternative embodiment can be seen in which the projections (7) are arranged both on the upper support part (6b) and on the lower part (6a). In this case, as in the example of figure 10, the upper part (6b) comprises the projections (7) bent towards the union with the frame (3), and in turn the lower part (6a) in this case of arched configuration comprises the flaring-shaped projection (7) coinciding with the mooring holes (8).

According to another design option, Figure 12 shows a joint in which the upper part (6b), as can be seen in the upper detail of Figure 12, comprises ridge-shaped projections (7) on the lower wings. sharp as the embodiment of figures 8 and 9, and also comprises lower in the arched part of the upper part (6b) some projections (7) in the form of flaring in coincidence with the passage holes of a bracket. This design also allows other types of ties to be made between the strap (6) and the frame (3) such as the one shown in the lower detail of figure 12, in which some folded projections (9) can be seen as tabs that serve to fitting of the frame (3) that together with the pressure exerted by the upper support (6b) serve to retain the frame (3).

According to another example of embodiment according to figure 13, the projections (7) are arranged only in the upper part (6b) by means of lower ridges and flaring as in the embodiment of figure 12, in addition in this case they are proposed some conformations (10) in the upper part (6b) that serve to stiffen said upper part (6b) which ensures the maintenance of pressure in the union of parts to achieve the breaking of the anodizing of the frame (3).

Claims (7)

1. - Solar panel fastening system, comprising a metal strap (6), which is tied by means of pass-through elements through holes (8) in a fastening (2) for application on a frame (3) provided with a layer alumina protector, in which photovoltaic modules (1) are incorporated that make up the solar panel to be fastened, characterized in that on the surface of the belt (6) through which contact is made with the frame (3) in the fastening ( 2) of application, some projections (7) are determined, by means of which the support is established against the frame (3) breaking its protective layer. 2. - Solar panel fastening system, according to the first claim, characterized in that the projections (7) are formed with a sharp ridge. 3. - Solar panel fastening system, according to claims 1 or 2, characterized in that the projections (7) are in the form of a flare. 4. - Solar panel fastening system, according to any one of the preceding claims, characterized in that the projections (7) are formed on the strap (6) in relation to the holes (8) for the passage of the mooring elements in the bracket (2) on the frame (3). 5. - Solar panel fastening system, according to any one of the preceding claims, characterized in that the projections (7) are formed on the strap (6) in positions separated from the holes (8) through which the elements of fastening in the fastening on the frame (3). 6. - Solar panel fastening system of any one of the preceding claims, characterized in that the projections (7) are formed by drawing or stamping on wings (6.1) of the belt (6). 7. - Solar panel fastening system, according to any one of the preceding claims, characterized in that in a strap (6) composed of a lower part (6a) and an upper part (6b), between which is arranged the frame (3) of the solar module panel (1) to be fastened, the projections (7) can be formed in the lower part (6a), in the upper part (6b) or in both parts (6a) and (6b) components of the belt(6).