DE20218424U1 - Solar energy installation on lofts, or on flat, free surfaces - Google Patents

Abstract

The installation contains at least one combination of solar module (5), a support frame (3) for it and an anchor for the support frame. The photovoltaically generated current is fed to an accumulator or a converter. The anchor consists of a wire basket (2). The support frame is fastened to or in the wire basket, which is filled with mineral bulk material, pref. compressed ballast. The visible sides of the wire basket may be coated with mineral material, at least partly.

Description

WISMETH, Wolfgang

System for generating solar energy on slopes or flat open spaces

Description

The invention relates to a system for generating solar energy on slopes or on flat open spaces.

It is known to install solar modules using racks on roofs with or without a slope and on open spaces. Larger systems with several racks and a large number of solar modules have also been built for this purpose, which are either used to feed into the grid or to supply houses and smaller settlements with electricity. However, there are open spaces where the usual methods of anchoring such racks, such as concrete foundations reaching into the ground, cannot be used because the ground is sensitive for various reasons. One such reason is the presence of a landfill that is covered with foil and a layer of humus, for example. In this case, interfering with the ground can be problematic, as damage to the foil can lead to water penetration and cause significant environmental consequences. Many landfills also have slopes, so that shallower anchors, in order not to damage the cover, can in turn lead to the system slipping and thus also damage the cover.

The object of the present invention is to provide a system for generating solar energy on slopes or on flat open spaces, which is particularly suitable for the problematic open spaces mentioned above, which has little or no impact on the subsoil and which nevertheless offers a firm hold even on slopes.

This object is achieved with the features mentioned in the characterizing part of claim 1. Further developments and advantageous embodiments of the invention are included in the further claims.

According to the invention, a system for generating solar energy on slopes or on flat open spaces, wherein at least one assembly is present comprising at least one solar module, a support frame for the solar module and an anchor for the support frame, wherein means are present for supplying the photovoltaically generated electricity to a storage device or a converter, characterized in that the anchor consists of a wire basket, that the support frame is attached to or in the basketwork of the wire basket and that the wire basket is filled with a mineral fill. The fill consists, for example, of compacted gravel. The visible surfaces of the wire basket can be at least partially covered with mineral material for optical reasons.

According to a preferred embodiment of the invention, the wire basket is cuboid-shaped and has a wide, flat bottom.

Preferably, the wire basket is set in a slope such that its front edge is flush with the slope and its rear edge is set into the slope according to the inclination of the slope, the bottom of the wire basket having a substantially horizontal orientation.

For a flat or substantially flat surface, it is preferable to simply lay the wire basket on the slope or surface. Alternatively, the base of the wire basket may be inclined to the horizontal so that it rests on the hand but has a horizontal surface.

In less critical ground, the wire basket can be inserted into the slope with its entire circumference, at least partially.

Preferably, a plurality of wire baskets, each with a plurality of solar modules, are arranged at intervals from one another, wherein the electrical connections are connected in a star shape and/or in series.

The distances should be such that the rainwater is distributed between the wire baskets and no leaching can occur due to collected water. The solar module frames that extend beyond the circumference of the wire basket must not significantly impede or concentrate the rainwater ingress.

According to the invention, the solar system is used as a system on the slope of a sealed waste landfill, whereby the system can contribute to the stabilization of the landfill.

In the following, the invention is described in more detail with reference to drawings.

Fig. 1 shows a plan view of an assembly of solar modules, frame and anchoring;
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Fig. 2 shows a view of the assembly of Fig. 1 from the front on an enlarged scale.

Fig. 1 and 2 show a cuboid-shaped wire basket 2 that rests on a base 1 without being embedded in it. The wire basket 2 is filled with a compacted gravel fill and has dimensions of, for example, length = 2 m, width = 1 m, height = 1 m, so that a weight of over 2 t is achieved. Pipes 5 are built into the bottom of the wire basket 2 as edge protection. The support frame 3 for the solar modules 5 is anchored on top of, or in, the wire basket 2. This is done, for example, by embedding the lowest cross struts of the support frame 3 in a mortar bed 4 in the top few centimeters of the wire basket 2. The struts of the support frame 3 are designed as, for example, T- or L-shaped steel profiles. Vertical and diagonal

Struts, which in turn support the larger upper cross struts on which the solar modules 5 are attached, which are indicated in Fig. 1 as dashed fields, so that it can be seen that 18 solar modules are used here. In order to support the weight of the support frame 3, a tightenable metal band 6 is pulled around the top of the wire basket 2. This metal band 6, as well as the basket weave of the wire basket 2, can serve as additional anchors for the support frame 3, for example by providing the support frame 3 with strips or plates that are connected to the steel band or the basket weave, which can be done, for example, by simply plugging them in. The upper cross struts are horizontal here, as this design is intended for easy placement on a slope. On flat surfaces, the upper cross struts must have an incline to ensure optimal use of the solar energy. The electrical connections, which are known per se, are not shown here. However, it is easy to understand that if a system is designed accordingly, a solar power plant with an output of several MW can be built from many such assemblies.

Claims (10)

1. A system for generating solar energy on slopes or on flat open areas, wherein at least one assembly of at least one solar module ( 5 ), a support frame for the solar module and an anchoring for the support frame is present,
means are provided to supply the photovoltaically generated electricity to a storage device or a converter,
characterized ,
that the anchoring consists of a wire basket ( 2 ),
that the support frame ( 3 ) is fastened on, to or in the wire basket, and that the wire basket ( 2 ) is filled with a mineral fill. 2. Plant according to claim 1, characterized in that the fill consists of compacted gravel. 3. Installation according to claim 1 or 2, characterized in that visible surfaces of the wire basket ( 2 ) are at least partially covered with mineral material. 4. Installation according to one of the preceding claims, characterized in that the wire basket ( 2 ) is cuboid-shaped and has a flat bottom. 5. Installation according to claim 4, characterized in that the wire basket is set in a slope such that its front edge is flush with the slope and its rear edge is set into the slope according to the inclination of the slope, the bottom of the wire basket having a substantially horizontal orientation. 6. Installation according to claim 4, characterized in that the wire basket is placed on the slope or the open space. 7. Installation according to claim 4, characterized in that the bottom of the wire basket has an inclination to the horizontal. 8. Installation according to claim 4, characterized in that the wire basket is at least partially inserted into the slope with its entire circumference. 9. System according to one of the preceding claims, characterized in that a plurality of wire baskets, each with a plurality of solar modules, are arranged at distances from one another, wherein the electrical connections are connected in a star shape and/or in series. 10. Installation according to one of the preceding claims, characterized in that the slope is a slope of a sealed waste disposal site.