DE202012006834U1 - Device for mounting solar modules on open spaces - Google Patents

Abstract

Device for elevating solar modules on open spaces, consisting of a large number of separate segments, each designed to support at least a portion of a separate solar module and which can be assembled into a modular elevation device for a large number of solar modules, characterized in that the separate segments are each as a module table (2; 3) with two contours (4; 5) of different heights are designed to support the floor in such a way that an inclined surface (6; 7) is formed between the two contours (4; 5), which is supported by the solar module to be supported (1 ) can be brought into operative connection, the device comprising at least two module tables (2; 3), in which the inclined surfaces (6; 7) are arranged at different heights, but running in a common oblique plane, and with the smaller contour ( 5) for ground support of the larger module table (2) and on the gr ßeren contour (4) attachments (8) are designed for bottom support of the smaller module table (3) respectively, with ...

Description

The invention relates to a device for Aufständerung of solar modules on open spaces, consisting of a plurality of separate segments, which are each designed to support at least a portion of a separate solar module and assembled to form a modular Aufständerungseinrichtung for a variety of solar modules.

The use of regenerative forms of energy has recently increased substantially both from an environmental point of view and considering only limited available other sources of energy (coal, oil, natural gas, etc.). A typical application in this regard is the use of solar energy to generate electricity using photovoltaic panels. In order to achieve a high efficiency of the photovoltaic panels, they are preferably oriented to the south and placed with such a tilt angle relative to the horizontal that incident sun rays hit as perpendicular to the collector surface. In addition to an optimal alignment of the installation surfaces, a stable support of the collectors is necessary. In this case, numerous Aufständerungssysteme are already known for the arrangement on roofs.

DE 100 25 538 A1 describes a system of mounting brackets with threaded rods which, in combination with associated brackets, allow longitudinally variable support of solar modules on roofs.

While this construction is primarily designed for pitched roofs, in DE 201 17 280 U1 a technical solution for the installation of one or more photovoltaic or other solar elements described, which is suitable for flat roofs or slightly inclined roof surfaces. This device comprises a block-shaped body made of thermal insulation material, on the upper side of which a device for fixing solar modules is mounted and whose underside can be fastened on a roof surface.

However, systems on flat roofs are usually limited to their base area and require by a variety of components a very high assembly, time and logistics costs. In addition, in installations without penetration of the roof skin due to the usually large wind attack surface, the elevations to attach the solar modules must also be complained with concrete blocks or water, for example according to DE 201 20 983 U1 ,

In addition to arrangements on roof surfaces, solar module elevations are also implemented on open spaces where they are predominantly anchored in the ground or weighted with concrete blocks.

So will in DE 10 2005 023 971 B4 a device for Aufständerung of solar modules described having a plurality of erected and anchored in a row post with an approximately parallel to the post row extending side rail. By embodiments of these side members adapted to the respective specific location conditions recording of solar modules is possible.

However, for example, former landfills and sealed areas are unable to use bottom penetration raising systems.

Object of the present invention is to provide a technical solution for Aufständerung of solar modules, preferably of photovoltaic panels on open spaces of different soil types and sites. A variable angle of inclination is supposed to make it possible to employ the solar modules optimally for the respective location and to achieve a high degree of effectiveness of the conversion of solar energy into electrical current. Furthermore, to be reduced by a mounting without bottom penetration and a low weight of the cost of installation and installation material over known constructions.

This object is achieved by designing segments of the device in each case as a module table with two differently high contours for ground support in such a way that an inclined surface is formed between the two contours, which can be brought into operative connection with a solar module. In this case, the device comprises at least two module tables, in which the inclined surfaces are arranged extending in mutually different heights, but in a common inclined plane. In addition, fastenings are respectively designed on the smaller contour for supporting the ground of the larger module table and on the larger contour for supporting the ground of the smaller module table, which can be brought into operative connection with a component connecting the two module tables. Advantageous embodiments are the subject of dependent claims, which are explained in more detail in one embodiment.

The construction according to the invention comprises a module table made of UV-resistant and recyclable plastic and is stackable one inside the other as well as stackable. The use of plastic prevents corrosion and the easily deformable material allows for easy processing. Furthermore arise by the low weight of the construction a high transportability, a simple and fast assembly and disassembly and the installation without bottom penetration high mobility.

The module table designed as a complete system or plug-in system has an omission on the side with an integrated or to be latched tub. This omission serves functionally as wind inlet, so that a heat accumulation under the solar module prevents and a necessary cooling is guaranteed. The outlet with associated tub is used to weight the structure by causing the tub to increase in total weight by filling it with various materials (eg sand, gravel or water), preventing it from lifting off due to wind suction.

The edges of the module table form the actual support surface for the solar module, preferably photovoltaic panels are mounted. As an advantageous embodiment, it is proposed that integrated module fastenings are formed on the module table. Thus, the photovoltaic collector can be pushed into this fastening contour in a simple manner and only needs to be fixed in position.

As a further advantageous embodiment, it is provided that the individual module tables are joined together via associated ball hooks to form a modular unit. As a result, an additional stabilization is achieved, which allows a variable installation, especially on an uneven surface. By pushing in and fastening the collectors these ball hooks are anchored to each other.

It is also proposed that in the assembled state, the back of the module table is directly with the collector top edge. This results in an aerodynamically closed structure with a relatively low windage surface.

The technical solution according to the invention is suitable for mounting solar modules on open spaces of different floor types and sites, wherein an application for photovoltaic collectors is preferably provided. Due to the variable tilt angle (eg 15 °, 20 ° or 25 °) an optimal employment of the solar modules for the respective location is made possible and a high effectiveness of the conversion of solar energy into electrical current is achieved. Furthermore, by mounting without bottom penetration and by the low weight of the effort in terms of assembly and installation material is reduced over known constructions.

An embodiment of the invention will be described in more detail with reference to the drawing. Show it:

1 a first embodiment of the elevation in side view

2 the execution according to 1 in perspective view with solar module

3 a second embodiment with representation of two module tables in side view

4 the execution of a module table according to 3 in perspective view with solar module

The mobile support device shown in the drawing is for a Aufständerung of solar modules 1 , in particular photovoltaic panels 1 , designed for unpaved and paved open spaces without bottom penetration. Here, a plurality of separate segments is provided, each for supporting at least a portion of a separate solar module 1 designed and to a modular design device for a variety of solar modules 1 are zusammenfügbar. Such a structure is known per se, so that in this regard can be dispensed with further details.

However, it is essential in the context of the present invention that the separate segments each as a module table 2 and 3 are configured, which consist of a UV-resistant plastic such as PVC, carbon, PP, HD-PE, PET, GRP or the like. In this case, each module table 2 ; 3 two different heights 4 and 5 for ground support. These contours 4 ; 5 are designed so that between them an inclined surface 6 and 7 is trained. These surfaces 6 ; 7 be with the solar module to be supported 1 brought into operative connection. In this case, the device according to the invention comprises at least two module tables 2 and 3 in which the inclined surfaces 6 and 7 Although run in different heights, but in a common oblique plane. Thus, a continuous uniformly inclined surface for supporting the solar modules 1 created.

Furthermore, at the smaller contour 5 for ground support of the larger module table 2 and at the larger contour 4 for ground support of the smaller module table 3 each fortifications 8th designed. The fortifications 8th be with a component 9 brought into operative connection with each other, which is the two module tables 2 and 3 combines. Thus, an independent unit for mounting a solar module 1 created.

The connecting component 9 has a trough-shaped section 10 in which, taking into account the specific conditions of use materials can be introduced to stabilize the situation. For this purpose, for. As sand, gravel or water, with which the entire unit can be complained.

It is also above the trough-shaped section 10 a free contour provided, which functionally a wind inlet 11 formed. Thus, there is a sufficient flow of air at the back of the solar modules 1 guaranteed, so that adverse overheating can be avoided.

According to 1 and 2 is the one of two module tables 2 ; 3 and a component 9 existing unit configured as a multi-element plug-in system. Thus, a simple storage at the manufacturer and a simple transport to the site can be realized because the final assembly takes place only at the installation.

3 and 4 show an alternative embodiment in which the two module tables 2 ; 3 and a component 9 existing unit is designed as a compact unit. This is advantageous for storage as a stack ( 3 ) or if at the installation the final assembly of parts is difficult, for example, because of the geographical conditions.

Regardless of the design as plug-in or complete system will be on the inclined surfaces 6 and 7 each module clamps 12 designed with which the solar modules 1 be locked in position fixed by insertion or latching.

Furthermore, at the module tables 2 and 3 each movable spherical barbs 13 provided with which adjacent module tables are fixed in position connected to each other. Thus, a durable stable arrangement is achieved for large-scale Aufständerungssysteme.

LIST OF REFERENCE NUMBERS

1

Solar module / solar collector

2

module table

3

module table

4

high contour for ground support

5

low contour for ground support

6

inclined surface

7

inclined surface

8th

attachment

9

connecting element

10

trough-shaped section

11

wind inlet

12

module clamps

13

ball anchor

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 10025538 A1 [0003]
• DE 20117280 U1 [0004]
• DE 20120983 U1 [0005]
• DE 102005023971 B4 [0007]

Claims (8)

Device for elevation of solar modules on open spaces, consisting of a plurality of separate segments, each designed to support at least a portion of a separate solar module and assembled to form a modular Aufständerungseinrichtung for a plurality of solar modules, characterized in that the separate segments each as a module table ( 2 ; 3 ) with two different high contours ( 4 ; 5 ) are designed for ground support such that between the two contours ( 4 ; 5 ) an inclined surface ( 6 ; 7 ) formed with the solar module to be supported ( 1 ) can be brought into operative connection, wherein the device at least two module tables ( 2 ; 3 ), in which the inclined surfaces ( 6 ; 7 ) are arranged at mutually different heights, but running in a common oblique plane and wherein at the smaller contour ( 5 ) to the bottom support of the larger module table ( 2 ) and at the larger contour ( 4 ) to the bottom support of the smaller module table ( 3 ) each fortifications ( 8th ) are designed with one of the two module tables ( 2 ; 3 ) connecting component ( 9 ) can be brought into operative connection. Device according to claim 1, characterized in that on the inclined surfaces ( 6 ; 7 ) each module terminals ( 12 ) for a clamping attachment of the associated solar modules ( 1 ) are configured. Apparatus according to claim 1, characterized in that the module tables ( 2 ; 3 ) connecting component ( 9 ) a trough-shaped section ( 10 ) for receiving materials for position stabilization. Apparatus according to claim 1, characterized in that the module tables ( 2 ; 3 ) connecting component ( 9 ) as a wind inlet ( 11 ) has configured free contour section. Apparatus according to claim 1, characterized in that at the module tables ( 2 ; 3 ) each movable spherical barbs ( 13 ) are arranged, with which adjacent module tables ( 2 ; 3 ) Are each fixed in position connected to each other. Device according to claim 1, characterized in that the module tables ( 2 ; 3 ) consist of a UV-resistant plastic such as PVC, carbon, PP, HD-PE, PET, GRP or the like. Device according to at least one of claims 1 to 6, characterized in that the two module tables ( 2 ; 3 ) and one of these module tables ( 2 ; 3 ) connecting component ( 9 ) existing device is designed as a multi-element plug-in system. Device according to at least one of claims 1 to 6, characterized in that the two module tables ( 2 ; 3 ) and one of these module tables ( 2 ; 3 ) connecting component ( 9 ) existing device is designed as a compact unit.

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