DE102012025410B4 - Carrying device for an energy generation module - Google Patents

Abstract

Carrying device (T) for an energy generation module (E) and for preferably anchoring-free use on a set-up area (AF), with: - a module carrying device (1) for carrying the energy generation module (E), and the installation surface (AF) and for carrying the module support device (1), - the support device (T) having a swiveling windshield (4) for reducing wind power, - the support device (T) having a support device (6) which is supported by a load case-dependent Pivoting or tilting movement of the support device (T) about an axis (A) can be placed temporarily on the installation surface (AF), and - the module support device (1) and the support bracket (2) being designed so that at least the top (1.1) the module support device (1) and the support frame (2) can be completely covered by the energy generation module (E), or - the support device (T) having a cover part (3) and the module support device (1), the support frame (2) and the cover part (3) are designed so that the module support device (1) and the support frame (2) can be completely covered by the energy generation module (E) and the cover part (3).

Description

The invention relates to a support device for an energy generation module, which is suitable for preferably anchoring-free installation on an installation surface.

For the state of the art, the DE 20 2009 017 043 U1 , the EP 2 479 512 A1 , the DE 20 2009 016 269 U1 , the US 8 324 496 B1 and the JP H10-51 019 A referenced. DE 199 06 464 A1 discloses a support device made of relatively sturdy support profiles for several energy generation modules with a module support device for carrying the energy generation modules and a support frame which is used for setting up on a mounting surface and for carrying the module support device.

Support frames for power generation modules are usually made of metal, in particular aluminum, profiles and are constructed in such a way that they are exposed to the elements, such as aggressive UV radiation, rainwater and snow. Aluminum profiles in particular are very weather-resistant for material-specific reasons. This ensures that the support frames can withstand the long service life of the energy generation modules, which is usually around 20 years, without the need for structural weather protection. However, aluminum is relatively expensive and very energy-intensive to manufacture and therefore has a very high level of so-called "gray energy".

One object of the invention is to create an alternative and / or improved support device for an energy generation module.

This problem can be solved with the features of the main claim. Advantageous further developments can be found in the subclaims.

The invention relates to the general technical teaching of designing a module support device, a support bracket and optionally at least one cover part in such a way that after the assembly of an energy generation module and optionally the cover part, the module support device and the support bracket can be covered by the energy generation module and optionally the cover part and thus protected from the elements .

The invention provides a support device for a power generation module, e.g. a photovoltaic module or a solar collector. The carrying device is expediently used for setting up on a slightly inclined (e.g. ≤ 20 °, 15 ° or 10 °) or horizontal installation surface, preferably without static anchoring in the installation surface being required. The carrying device is preferably designed to hold the energy generation module close to the installation surface.

The support device comprises a module support device for carrying the energy generation module and a support bracket which is used to set up on the installation surface and to support the module support device.

The support device is characterized in particular in that the module support device and the support bracket are designed such that the energy generation module at least almost completely covers the module support device or at least its upper side and the support bracket after assembly.

The support device can also have at least one cover part and is characterized in that the module support device, the support bracket and the cover part are designed in such a way that after assembly of the energy generation module and the cover part they at least almost completely cover the module support device and the support bracket. The cover part is preferably designed as a profile part (e.g. as a sheet metal profile, bracket, etc.) and is described below with reference to a profile part.

The invention enables constructive weather protection for the module support device and the support frame, produced by the energy generation module and preferably the profile part, which can thus be largely protected from direct rain and sunlight (e.g. from aggressive UV radiation). The module support device and the support bracket can therefore e.g. be made at least partially from wooden beams, although their functionality can be guaranteed over the service life of the energy generation module, which is usually about 20 years. The wood-based material can then be disposed of with virtually no residue, e.g. by composting or burning. Because the parts made of wood can be covered at least almost completely by the energy generation module and preferably the profile part, environmentally incompatible, e.g. strong chemical wood protection, can be omitted. The wooden beams can preferably be made by means of e.g. light, environmentally friendly wood protection, preferably a thermal treatment. The profile part is preferably used for mounting on an edge or face area and thus as weather protection for the same.

The module support device preferably comprises at least two support beams (e.g. a full profile, U-profile, I-profile, etc.). The support beams are aligned in particular at an angle to the support frame.

The support bracket is preferably constructed from individual supports that can be fastened to one another, for example wooden supports, and is expediently designed in the form of a frame. This ensures that air is flushed through, which in turn prevents permanent moisture accumulation under the carrying device.

The support device preferably comprises at least one profile part which is used to hold the energy generation module on the module support device and / or to attach it to an edge or end face area of the module support device. The profile part can also serve to create an edge or end face area, e.g. to cover the module support device in order to act as weather protection for this.

The support device can in particular have several profile parts. A profile part can be attached to e.g. upper edge or end face area of the module support device and a profile part can be attached to a e.g. be executed lower edge or end face area of the module support device.

The support device also comprises a windshield which can preferably be swiveled backwards and which serves to reduce wind power, in particular to reduce wind suction and / or wind pressure. The windshield is preferably connected to the module support device via an articulated connection.

The support bracket expediently defines a receiving space for ballast to weigh down the support device. The support device can in particular be provided with at least one ballast block, e.g. one or more concrete slabs stacked on top of each other, which is designed to be held on and placed in the support frame. Likewise, the carrying device can be provided with a carrying trough for receiving ballast, e.g. Sand, gravel, concrete, etc., must be equipped to weigh down the carrying device. The carrying tray is also designed to be attached to and placed in the trestle.

The support device is expediently balanced in such a way that it can be pivoted or tilted depending on the load case about an expediently horizontal axis, preferably defined by the support frame. This allows the carrying device to yield to different loads in a targeted manner, as a result of which, as an advantage, supporting parts of the carrying device can be dimensioned to be more gentle on the material.

The support device has a support device which is normally spaced from the installation surface and can be temporarily placed on the installation surface by means of a load case-dependent, targeted pivoting or tilting movement of the support device and thus can generate an enlarged lever arm for load transfer. As a result, the support device represents a passive-adaptive support structure that reacts to different load conditions. The support device can e.g. can be implemented by a lower edge region of the module support device, at least one support projection arranged thereon, at least one support foot arranged on the support device or another suitable support element.

In particular, the module support device and / or the support frame can comprise one or more wooden beams (e.g. wooden strips, wooden beams, wooden profiles, etc.). The windshield can e.g. comprise a windshield, preferably provided with weather protection, e.g. a coating, a film, a chemical wood protection, a thermal treatment, etc., in order to be able to withstand the weather influences.

It is possible for the carrying device, in particular the module carrying device, to be designed to hold a single energy generation module. Conventional carrying devices are mostly used to carry several energy generation modules at the same time in order to be able to distribute ballast weight against wind suction forces over a larger number of carrying devices. The distribution of the ballast weight through the large number of support devices can, however, lead to twisting within the support devices, which can lead to a statically inadmissible load on the energy generation modules.

Overall, the module support device and the support bracket are expediently only very light in weight, e.g. under 10 kg or even under about 5 kg.

The cover part can preferably be designed as a profile part (e.g. metallic), a bracket, a sheet metal profile, a coating, a film, etc.

The invention also relates to an arrangement with at least one support device as described herein, wherein the support device carries a single energy generation module and the energy generation module and preferably the cover part completely covers the module support device and the support frame.

• 1 zeigt eine Seitenansicht einer Tragvorrichtung gemäß einer Ausführungsform der Erfindung,
• 2 zeigt eine perspektivische Ansicht der Tragvorrichtung der 1,
• 3 zeigt eine Seitenansicht der Tragvorrichtung der 1 und 2 zur Illustrierung der an unterschiedliche Lastzustände passiven Adaptivität der Tragvorrichtung,
• 4 zeigt eine Schnittansicht einer Ballastiervariante für eine Tragvorrichtung gemäß einer Ausführungsform der Erfindung, und
• 5 zeigt eine Schnittansicht einer Ballastiervariante für eine Tragvorrichtung gemäß einer anderen Ausführungsform der Erfindung.

The features and preferred embodiments of the invention described above can be combined with one another as desired. Other advantageous developments of the invention are disclosed in the subclaims or result from the following description of preferred embodiments of the invention in connection with the attached figures.

• 1 shows a side view of a support device according to an embodiment of the invention,
• 2 FIG. 11 shows a perspective view of the support device of FIG 1 ,
• 3 shows a side view of the support device of FIG 1 and 2 to illustrate the passive adaptivity of the carrying device to different load conditions,
• 4th shows a sectional view of a ballast variant for a support device according to an embodiment of the invention, and
• 5 shows a sectional view of a ballast variant for a support device according to another embodiment of the invention.

The embodiments described with reference to the figures are partially identical, similar or identical parts being provided with the same reference symbols, and for their explanation reference is also made to the description of other embodiments or figures, in order to avoid repetition.

1 shows a side view of a support device T for an energy generation module E. , e.g. a photovoltaic module or a solar collector. 2 shows a perspective view of the support device T of FIG 1 , but especially without an energy generation module E. and windshield 4th . The support device T is described below with reference to FIG 1 and 2 described.

The support device T is particularly suitable for flat or slightly inclined installation surfaces AF such as terrain or flat roofs, e.g. of a garage, a carport or a hall. The support device T is also for anchoring-free installation on the installation surface AF executed.

The carrying device T is for carrying only a single energy generation module E. formed, whereby the flexibility of the support device T is increased and a torsion-free load transfer is made possible. Of course, several support devices T can be placed on the installation surface AF be set up independently of each other.

The support device T comprises a module support device 1 for carrying the energy generation module E. and a trestle 2 , the one for placing on the installation surface AF and for carrying the module support device 1 serves. The module support device 1 and the trestle 2 are designed so that the energy generation module E. is kept close to the installation surface.

The module support device 1 includes two support beams that are inclined to the support bracket 2 are aligned and preferably formed from wood material. The two support beams are uniformly identified by the reference number 1 Mistake.

The trestle 2 is frame-shaped from several horizontal beams, preferably made of wood 2.1 and several vertical beams, preferably made of wood 2.2 built up.

The module support device 1 and the trestle 2 are designed so that after assembly of the energy generation module E. the module support device 1 or at least its top 1.1 and the trestle 2 completely through the energy generation module E. are covered.

The support device T is also designed with two lower profile parts (cover parts) and two upper profile parts (cover parts), which are uniform with the reference oak 3 are provided. The profile parts 3 serve to hold the energy generation module E. on the module support device 1 and for attachment to edge or end face areas of the module support device 1 . The profile parts 3 are also used by the energy generation module E. possibly uncovered or sensitive areas of the module support device 1 to cover. The profile parts 3 thus not only act as retaining profiles, but also as weather protection. The profile parts 3 serve in the in the 1 and 2 Embodiment shown as face protection for the support beams. However, within the scope of the invention, the cover / profile parts are not limited to face protection, but can generally be used appropriately as a cover or weather protection where this is necessary. The invention also comprises embodiments in which the module support device and the support frame can be completely covered by one energy generation module alone.

The energy generation module E. and the profile parts 3 completely cover the module support device 1 and the trestle 2 and thus provide constructive weather protection for the same. Since the parts, which are preferably made of wood, are thus under the power generation module E. and optionally the profile parts 3 are arranged, a light, environmentally friendly wood protection, for example in the form of thermal treatment, is sufficient to ensure the functionality over a very long period of time, e.g. the functional duration of the energy generation module E. usually around 20 years. If necessary, wood protection can even be dispensed with entirely.

The assembly process of the energy generation module E. takes place as follows: The energy generation module E. will first focus on the Module support device 1 down to the lower profile parts 3 offset and then by means of the upper profile parts 3 on the module support device 1 mounted, eg using screws, clip or snap-in connections, etc .. The bracket for the energy generation module E. on the module support device 1 happens so that the manufacturer of the power generation module E. specified areas for the attachment of the same are strictly observed. This leaves the static load for the frame of the energy generation module E. within the permissible range.

The carrying device T is also equipped with a windshield, preferably made of wood 4th , which can be swiveled backwards, which is indicated by the double arrow on the windshield 4th is indicated schematically. The windshield 4th is via an articulated connection 5 with the module support device 1 connected. By means of the swiveling out of the windshield 4th the rearward-directed wind suction forces that may occur can be reduced and, in addition, a negative air pressure generated below the support device T can be built up, which ensures aerodynamic stabilization of the support device T.

The trestle 2 is designed so that it has a space for ballast B. to weigh down the support device T is defined. ballast B. is usually necessary to ensure the stability of the support device T, and contributes to the fact that the support device T is free of back anchoring and thus without back anchoring in the installation area AF is usable. However, the required ballast can be provided by the windshield 4th be reduced.

At the in 1 The embodiment shown is the ballast B. designed as stacked concrete slabs within the support frame 2 placed and on the trestle 2 from the installation surface AF are held spaced apart. The carrying device T can thus easily be adapted to different wind suction conditions on the installation surface AF be adjusted.

It should be mentioned that the module support device 1 , the support structure 3 and the windshield 4th Although they are preferably made essentially of wood material, metal or even plastic material is also possible for this purpose.

3 shows a side view of the support device T of 1 and 2 to illustrate the passive adaptivity of the carrying device T to different load conditions.

The support device T is balanced so that it is load-dependent about a horizontal axis A, e.g. Depending on the snow or wind load, it can be pivoted or tilted in a defined manner. As a result, the supporting device T represents a supporting structure that is passively adaptive to different load conditions.

The support device T comprises in particular a support device 6th which is normally, for example, about 10 mm to 30 mm from the installation surface AF is spaced and depending on different load conditions by means of a targeted pivoting or tilting movement of the support device T about the axis A temporarily on the installation surface AF is attachable.

This allows the support device 6th on the leeward side of the support device T on the installation surface AF put on, which allows an additional support and an enlarged lever arm for load transfer is achieved. In addition, the resistance of the support device T to horizontal and tipping-endangering wind forces increases considerably.

Preferably, the lower edge areas of the support beams 1 the support device 6th to disposal. The support device 6th can, however, alternatively be implemented using other suitable support elements, e.g. by means of additional support feet, etc.

4th shows a sectional view of a ballast variant for a support device T according to an embodiment of the invention. 4th shows that the ballasting, for example, by means of stacked concrete slabs B. can be represented that is within the support frame 2 arranged and by means of the trestle 2 from the footprint AF be kept spaced.

5 shows a sectional view of a ballast variant for a support device T according to another embodiment of the invention. 5 shows a carrying tray W for receiving ballast B. to weigh down the support device T. The support tray W is within the support frame 2 arranged and is eg by means of Z-shaped profiles 7th from the installation surface AF spaced on the support frame 2 held.

The invention is not restricted to the preferred embodiments described above. Rather, a large number of variants and modifications are possible which also make use of the inventive concept and therefore fall within the scope of protection. In addition, the invention also claims protection for the subject matter and the features of the subclaims regardless of the features and claims referred to.

Claims (12)

Carrying device (T) for an energy generation module (E) and for preferably anchoring-free use on an installation surface (AF), with: - A module support device (1) for supporting the energy generation module (E), and - A support frame (2) which is used to set up on the installation surface (AF) and to carry the module support device (1), - wherein the support device (T) has a swiveling windshield (4) for reducing wind power, - The carrying device (T) having a support device (6) which can be placed temporarily on the installation surface (AF) by means of a load case-dependent pivoting or tilting movement of the carrying device (T) about an axis (A), and - wherein the module support device (1) and the support bracket (2) are designed so that at least the top side (1.1) of the module support device (1) and the support bracket (2) can be completely covered by the energy generation module (E), or - wherein the support device (T) has a cover part (3) and the module support device (1), the support bracket (2) and the cover part (3) are designed so that the module support device (1) and the support bracket (2) through the power generation module (E) and the cover part (3) can be completely covered. Carrying device (T) after Claim 1 , characterized in that the module support device (1) comprises at least one support beam, preferably a wooden support beam, oriented obliquely to the support frame (2). Carrying device (T) after Claim 1 or 2 , characterized in that the support bracket (2) is constructed from individual supports (2.1, 2.2) that can be fastened to one another, preferably wooden supports. Carrying device (T) according to one of the preceding claims, characterized in that the carrying device (T) comprises at least one cover part (3), - which is used for attachment to an edge or end face area of the module support device (1), - which serves as an edge or Front face protection is designed for the module support device (1), and / or - which is used to hold the power generation module (E). Carrying device (T) after Claim 4 , characterized in that the support device (T) comprises at least two cover parts (3), one of which is a cover part (3) for attachment to an upper edge or face area of the module support device (1) and a cover part (3) for attachment to a lower edge - or the end face area of the module support device (1) is used. Carrying device (T) according to one of the preceding claims, characterized in that the carrying device (T) has a wooden windshield (4) that can be swiveled out. Carrying device (T) after Claim 6 , characterized in that the windshield (4) can be connected to the module support device (1) via an articulated connection (5). Carrying device (T) according to one of the preceding claims, characterized in that the cover part (3) is a profile part, preferably a bracket. Carrying device (T) according to one of the preceding claims, characterized in that the carrying device (T) has at least one ballast block (B) for weighing the carrying device (T), which is designed to be held on and placed in the support frame (2), or - Has a support trough (W) for receiving ballast (B) for weighing down the support device (T), which is designed to be held on and placed in the support frame (2). Carrying device (T) according to one of the preceding claims, characterized in that the carrying device (T) is designed so that it can be pivoted or tilted about an axis (A) depending on the load case and thus represents a passive-adaptive structure that reacts to different load conditions. Carrying device (T) according to one of the preceding claims, characterized in that the carrying device (T) is designed to hold a single energy generation module (E). Arrangement with at least one support device (T) according to one of the preceding claims, wherein the module support device (1) carries a single energy generation module (E) and - The energy generation module (E) completely covers the module support device (1) and the support frame (2), or - The energy generation module (E) and the cover part (3) completely cover the module support device (1) and the support frame (2).

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