ES2275378B1 - INSTALLATION FOR OBTAINING SOLAR ENERGY ON EARRINGS OR ON FLAT FREE SURFACES. - Google Patents

Abstract

Installation for obtaining solar energy on slopes or on flat free surfaces, in which there is at least one structure that is constituted by at least one solar module (5), a support frame for one or several solar modules and an anchor for the support frame, in which means are present to feed the current obtained in a photovoltaic way to an accumulator or a transformer, characterized in that the anchor is constituted by a concrete plate (1) with at least two support pillars (1 '', 1 '' ''), and because the support frame is fixed on, together or on the support pillars.

Description

Installation for obtaining solar energy on slopes or on flat free surfaces.

The invention relates to an installation for obtaining solar energy on slopes or on surfaces free flat.

It is known to install solar modules through roof racks with or without inclination and on surfaces free. To this end, major facilities have been erected with several racks and with a plurality of solar modules, which or either they serve for the power supply of the network or feed current to houses and minor populations. However, there are surfaces free in which you cannot apply the usual methods to tie up such racks, such as through foundations of concrete that extend to the subfloor, since the subsoil It is sensitive for different reasons. One such reason is the presence of a garbage dump, which is covered, for example, with sheet and with a layer of mulch. Here an intervention in the subsoil can be problematic, since sheet damage they can lead to water penetration and consequences considerable pollution of the environment. Many dumps it also presents earrings, so that the smoothest anchors, so as not to damage the cover, they can lead back to Slipping of the installation and, therefore, also to damage of the cover. In the document DE-U-202 18 424 proposes a installation for obtaining solar energy on slopes or on flat free surfaces, in which at least one is present structure that is constituted by at least one solar module, a support frame for the solar module and an anchor for the support frame, means being present for feeding the comment obtained in a photovoltaic way to an accumulator or a transformer, the anchor being constituted by a trellis, the support frame being fixed on, together or on the trellis and the lattice being filled with a mineral filler. This solution It has already worked well - especially on flat surfaces - but you can always still find circumstances, which do not They may be suitable for. a use of trellises (pressure of press on the ground, dislocations, danger of overturning).

The purpose of the present invention is to create a facility for obtaining solar energy on slopes or on flat free surfaces, which is especially suitable for the problematic free surfaces mentioned above, which does not affect or little in the subsoil, which offers, however, a fixed retention also on slopes and showing a greater degree of sensitivity to the subsoil and flexibility during installation.

This task is solved with the characteristics mentioned in the characterization part of fa claim 1. Developments and embodiments advantageous of the invention are included in the other claims.

According to the invention, an installation is proposed for obtaining solar energy on slopes or on flat free surfaces, in which a structure is present which is constituted by at least one solar module, a rack of support for one or several solar modules and an anchor for the support frame, in which means are present for feed the current obtained in a photovoltaic way to a accumulator or a transformer, characterized in that the anchor It consists of a concrete plate with at least two pillars of support, and because the support frame is fixed on, together or on the supporting pillars. In this way, the installation It has a heavy foundation, which is formed by the concrete plate and presents a relatively deep center of gravity in comparison, for example, with the solution with baskets filled with pesos. The concrete plate and support pillars are made in a more convenient one-piece way by reinforced concrete. According to a preferred embodiment of the invention, the support pillars have a height different. In this way, the desired inclination can be adjusted of the support frame with the solar modules. For example, in the case of a rectangular arrangement of four support pillars, two adjacent support pillars could have a higher height elevated than the other two supporting pillars. In the case of a triangular arrangement of three supporting pillars, it can be select your height so that it can be adjusted practically any desired angle of inclination. In the case of a form triangular of the support frame, you can also get a envelope curve of the solar modules, which follows in a way The sun's path swings.

According to an embodiment preferred of the invention, at the upper ends of the Support pillars are inserted anchor rails. These they can be, for example, the so-called Halfen rails, which you screw through intermediate elements or directly with the support frame supports. According to a way of advantageous embodiment, the anchoring rails of the pillars of support present at least partly a different orientation. So, for example, during assembly you can take advantage of a game in the support frame plane to compensate for tolerances existing (concrete pillars). The difference in the alignment of the lanes is 90º, for example, in the case of a form of realization with four supporting pillars, between one pair and another of pillars The support pillars are preferably aligned perpendicular to the concrete plate, and may require certain Earrings an angular alignment.

The following is described in detail by way of example the invention with the help of drawings. In this case:

Figure 1 shows a representation in perspective of a rectangular concrete plate with pillars of support.

Figure 2 shows a top plan view on a triangular concrete plate with support pillars.

Figure 3 shows the upper end of a support pillar.

Figure 4 shows the upper end of a support pillar with a fragment of a support frame.

Figures 5 and 6 show two forms of alternative realization of the base plate.

Figure 7 schematically shows a solar power plant.

Figure 1 shows a concrete plate 1 with 1 ', 1' 'support pillars of an installation according to the invention. The concrete plate 1 is made rectangular and it presents in its corners, respectively, a support pillar 1 ', 1 '', which are configured in one piece with the plate concrete and extend perpendicularly from it upwards. To achieve the desired inclination for the support frame with solar modules, the two rear support pillars 1 '' they are longer than the two front support pillars 1 '.

Figure 2 shows a top plan view on a triangular concrete plate 2, which presents in its corners pillars and support 2 ', 2' '. In this embodiment, the front support pillar 2 'can be made shorter than the two rear support pillars 2 ''. But in the same way, also each support pillar can have a different length to offer a possibility of universal tilt adjustment of the support frame.

In the embodiment shown in the figure 3, at the top end of a 1 'pillar a rail is inserted Halfen 3. This is done at the factory during the manufacture of the concrete plate with the pillars and simplifies and accelerates the support frame mounting. Figure 4 shows an example of Such an assembly. With lane Halfen 3 (figure 3, I don't know shown in figure 4) a base plate 1 of metal, which features a sword type plate in the center vertical 5, which is beveled on its upper side, so that receives the inclination of the support frame. The frame of support consists of stringers 6 and sleepers 7, which retain in a known way the frames of the solar modules. The stringers are welded with the sword type plate and with the sleepers. But unions may also be present with screws and joints with rivets or similar. Figures 5 and 6 show different embodiments of the base plate 8, 8 ' with sword type plate 5. When the Halfen rails have, as indicated above, a 90º offset alignment each other, then this serves so that the base plates can shift over them to a certain extent, in order to align The support frame. To this end, the base plates have elongated holes, so that the union screws can be shift with respect to Halfen lanes both in these elongated holes as well as Halfen rails. Since the orientation of the blade type 5 blade must be maintained. advantageous that the elongated holes of the base plates are oriented in a different way, that is, on the base plate 8 parallel to the blade type 5 blade and on the base plate 8 'perpendicular to the blade type plate.

Figure 7 finally shows schematic a solar power plant, which is constituted by several installations according to the invention, which are arranged adjacent and behind each other, owning the racks of support, respectively, 8 solar modules 9. The technique is known of connection for the feeding of solar power to the network (by example, Photovoltaik Handbook III, GWU Solar GmbH, Fürth 1997) and It is not represented here.

Claims (7)

1. Installation for obtaining solar energy on slopes or on flat free surfaces, in which a structure consisting of at least one solar module (5), a support frame for one or more solar modules and an anchor is present for the support frame, in which means are present to feed the current obtained in a photovoltaic way to an accumulator or a transformer, characterized in that the anchor is constituted by a concrete plate (1) with at least two support pillars ( 1 ', 1''), and because the support frame is fixed on, together or on the support pillars. 2. Installation according to claim 1, characterized in that the concrete plate (1) and the supporting pillars (1 ', 1'') are made in one piece. 3. Installation according to claim 1 or 2, characterized in that the support pillars (1 ', 1'',2', 2 '') have a different height. 4. Installation according to one of the preceding claims, characterized in that anchoring rails (3) are inserted at the upper ends of the support pillars (1 '). 5. Installation according to claim 4, characterized in that the anchoring rails (3) of the support pillars have at least partially a different orientation. 6. Installation according to claim 5, characterized in that the difference is 90 °. 7. Installation according to one of the preceding claims, characterized in that the support pillars (1 ', 1'') are aligned perpendicularly to the concrete plate (1).