DE202022101013U1 - Solar carport for the modular construction of a solar carport system from several solar carports - Google Patents

Abstract

Solar carport (0) for the modular construction of a solar carport system (10) from several solar carports (0) comprising a first support beam (1a), a second support beam (1b), and one of the first support beam (1a) and The surface or frame element (2) carried by the second support beam (1b) and arranged between the first support beam (1a) and the second support beam (1b) for holding at least one solar module (4), and at least one on the surface or frame element (2) arranged solar module (4) for providing electricity generated from solar energy.

Description

The invention relates to a solar carport for the modular construction of a solar carport system from several solar carports and a solar carport system according to the respective independent claim.

For charging electric or hybrid vehicles, it has proven useful to equip carports with solar modules, which provide the electrical power from solar energy for this purpose. The vehicle can be electrically charged at such solar carports while parked. This solution has proven to be ecologically advantageous.

A major hurdle that stands in the way of a greater spread of solar carports is the enormous effort involved in building them, which is associated with existing systems. This disadvantageous circumstance is the complicated roof structures used and/or the massive, oversized support elements, which can only be built up with the help of load cranes and always with the participation of specially trained construction personnel.

For example, from the disclosure document EP 2 292 877 A1 a solar carport using a single extremely massive central column. It is therefore essential to anchor this column extremely deep in a ground foundation. A very complex roof construction is also disclosed, which is formed from numerous struts in order to achieve the necessary stability. This makes it clear that such a complex construction is not easy for the user to implement and cannot be expanded in a modular way.

It is the object of the present invention to overcome the disadvantages of the prior art and in particular to provide a solar carport for the modular construction of a solar carport system from several solar carports, which is easy to build and expand, and also a solar -Provide a carport system with several solar carports.

This object is achieved by the subject matter of the invention according to the respective independent claim. Advantageous configurations form the subject matter of the dependent claims.

The invention comprises a solar carport for the modular construction of a solar carport system from a plurality of solar carports comprising a first support beam, a second support beam, and one supported by the first support beam and the second support beam and arranged between the first support beam and the second support beam Flat or frame element for the (overleaf flush) mounting of at least one solar module, and at least one solar module arranged on (or flush in) the flat or frame element for providing electric power generated from solar energy. The use of a surface or frame element for holding at least one solar module has a technical advantage over a roof or a roof structure for accommodating at least one solar module, in that the surface or frame element can be easily assembled and is lighter than the roof or the roof structure is. The surface or frame element can be designed in one piece. A square profile can be used for the design as a surface element. An L-shaped profile can be used for the design as a (load-bearing) frame element. The length and width of the surface or frame element is in particular a multiple of the length or width of the solar modules in order to insert them flush. Different mounting positions can be provided, in particular to realize different roof pitches.

According to a preferred aspect, the first support beam and the second support beam are each designed as two interconnected hollow profiles. This allows for easy assembly and provides increased load capacity and overall stability.

According to a further preferred aspect, a supporting projection is arranged on the planar or frame element, at least partially encircling an edge section of the planar or frame element and protruding from an upper side of the planar or frame element. By means of a contact surface (e.g. a section of an L-profile), the supporting projection prevents the at least one solar module from slipping off, in particular when the planar or frame element is arranged at an angle relative to the horizontal, by providing a stop surface for the at least one solar module.

According to a particularly preferred aspect, the supporting projection is U-shaped. The support projection formed in this way surrounds the at least one solar module in a U-shape.

According to an advantageous aspect, a supporting grid for the regular spacing and fixing of at least two solar modules, preferably at least four solar modules, is arranged on the surface or frame element. The grid can be designed as a frame cross that is firmly connected to the surface or frame element.

According to a further advantageous aspect, the solar carport comprises a first base (base), in which the first base is arranged the first support beam, and a second base, in which the second base is arranged the second support beam. For easy assembly, the first support beam can be connected to the first foot and the second support beam can be connected to the second foot by screwing.

According to a particularly advantageous aspect, the solar carport includes an integrated charging device (DC-AC inverter, charging control, charging cable), which is designed in such a way to use the electrical power generated and stored by the at least one solar module from solar energy for charging hybrid and / or provide electric vehicles. This charging control described above also includes the connection cable connection to the electrical building network, which provides the charging current for the electric vehicle at night and when there is little solar radiation. The structural design also includes the direct attachment of a solar inverter with charging cable connection for electric vehicles. It is particularly advantageous here that the connection of the solar module and the building or also the mains connection are optionally designed as plug-in connections. The invention means that even if there is no electric vehicle on the solar carport parking space or the electric charging connection adapter is not being used, the solar power can then be supplied via a mains connection line of the solar carport for the building's own electrical system or for feeding it directly into the regional supply network is used. A standard socket can also be provided. If an electric vehicle is parked on the solar carport parking space and is connected to the charging connection adapter, it is always charged. This charge is fed from the building connection and added to the currently generated solar energy of the connected solar carport. If there are several solar carports lined up next to each other, the solar energy of these is also added up if they are not being used to charge another electric vehicle. A rechargeable battery can also be provided for storing the electrical energy, which is particularly preferably installed in a vacuum-insulated container.

According to a preferred aspect, the solar carport comprises at least one crossbeam, which is connected to the first support beam at a first end section and to the second support beam at a second end section. The cross member is designed as two hollow profiles that are connected (bolted) to one another. The design as two interconnected hollow profiles allows easy assembly and provides increased load capacity.

The invention also includes a solar carport system comprising n solar carports as described above. Here n>1. The n solar carports are designed in such a way that the first support beam of the mth solar carport is identical to the second support beam of the m-1st solar carport. where 1<m≤n. This enables a simple expansion of a solar carport system by assembling individual solar carports in a modular manner. The advantage of this is that only a few basic elements are used to create a multiple carport directly lined up with single carports.

The invention is explained in more detail below with reference to drawings.

• 1 Schematische Abbildung eines Solar-Carports; und
• 2 Schematische Abbildung einer Solar-Carportanlage bestehend aus zwei Solar-Carports aus 1.

Show it:

• 1 Schematic diagram of a solar carport; and
• 2 Schematic illustration of a solar carport system consisting of two solar carports 1 .

1 shows a schematic illustration of a solar carport 0 for the modular construction of a solar carport system 10 (in 2 shown) from several solar carports 0. The solar carport 0 comprises a first support beam 1a, a second support beam 1b, and supported by the first support beam 1a and the second support beam 1b and arranged between the first support beam 1a and the second support beam 1b Frame element 2. In the embodiment shown, the frame element 2 is designed to hold four solar modules 4 . The four solar modules 4 shown are suitable for providing electrical power generated from solar energy. The electrical power generated is provided by a charging device 8 for charging hybrid and/or electric vehicles.

The frame element 2 for holding the solar modules 4 is much easier to set up and lighter than a roof or a roof construction, as in other solar carports from the prior art, and thus has a clear technical advantage for the simple construction.

The frame element 2 includes a grid 7 for the regular spacing and fixing of the solar modules 4. The grid is designed as a frame cross and is firmly connected to the frame element 2.

For the frame element 2 a simple L-shaped profile is used. A supporting projection 2b is arranged on the frame element 2 , running around an edge section 2a of the frame element 2 in a U-shape and protruding from an upper side of the frame element 2 . This supporting projection 2b prevents the solar modules 4 from slipping off, in particular when the frame element 2 is arranged at an angle relative to the horizontal, since the projection 2b provides a contact surface for the solar modules 4 .

The first support beam 1a and the second support beam 1b are each designed as two interconnected hollow profiles. This also simplifies the assembly compared to solar carports from the prior art with significantly more solid support beams, which can only be assembled with the help of a crane. At the same time, the interconnected hollow profiles of the invention offer a high load-bearing capacity.

In order to further increase the stability by simple means, a cross beam 5 is connected to the first support beam 1a at a first end section 5a and to the second support beam 1b at a second end section 5b. The cross member 5 is also designed as two interconnected hollow profiles.

The solar carport 0 further includes a first base 6a, in which the first base 6a of the first support beam 1a is arranged, and a second base 6b, in which the second base 6b of the second support beam 1b is arranged. For easy assembly, the first support beam 1a is connected to the first base 6a and the second support beam 1b is connected to the second base 6b by screwing.

In the example shown, a diagonal strut 9 is arranged between the base 6a, 6b and the edge section 2a, 2b of the surface or frame element 2 for absorbing or dissipating part of the weight.

2 shows a schematic representation of a solar carport system 10 consisting of two solar carports 0 ₁ , 0 ₂ 1 .

The two solar carports 0 ₁ , 0 ₂ are designed in such a way that the first support beam 1a ₂ of the second solar carport 0 ₂ is identical to the second support beam 1b ₁ of the first solar carport 0 ₁ . This enables a simple expansion of a solar carport system 10 by individual solar carports 0 ₁ , 0 ₂ being assembled in a modular manner.

QUOTES INCLUDED IN DESCRIPTION

This list of documents cited by the applicant was 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.

Patent Literature Cited

• EP 2292877 A1 [0004]

Claims (9)

Solar carport (0) for the modular construction of a solar carport system (10) from several solar carports (0) comprising a first support beam (1a), a second support beam (1b), and one of the first support beam (1a) and The surface or frame element (2) carried by the second support beam (1b) and arranged between the first support beam (1a) and the second support beam (1b) for holding at least one solar module (4), and at least one on the surface or frame element (2) arranged solar module (4) for providing electricity generated from solar energy. Solar carport (0) after claim 1 , wherein the first support beam (1a) and the second support beam (1b) are each formed as two interconnected hollow profiles. Solar carport (0) according to one of the preceding claims, wherein on the surface or frame element (2) an edge section (2a) of the surface or frame element (2) at least partially encircles and from a top side of the surface or frame element ( 2) protruding, supporting projection (2b) is arranged. Solar carport (0) after claim 3 , wherein the supporting projection (2b) is U-shaped. Solar carport (0) according to one of the preceding claims, wherein a grid (7) for the regular spacing and fixing of at least two solar modules (4), preferably at least four solar modules (4), is arranged on the surface or frame element (2). is. Solar carport (0) according to one of the preceding claims, comprising a first base (6a) in which the first base (6a) the first support beam (1a) is arranged, and a second base (6b) in which the second base (6b) the second support beam (1b) is arranged. Solar carport (0) according to one of the preceding claims, comprising a charging device (8) which is designed in such a way that the at least one solar module (4) from solar energy generated and stored electrical power for charging hybrid and / or electric vehicles to provide. Solar carport (0) according to one of the preceding claims, comprising at least one crossbeam (5) which is connected to the first support beam (1a) at a first end section (5a) and to the second support beam (1b) at a second end section (5b). is, and wherein the cross member (5) is designed as two interconnected hollow profiles. Solar carport system (10) comprising n solar carports (0 ₁ , 0 ₂ , ..., 0 _n ) according to one of the preceding claims, where n>1, which are designed in such a way that the first supporting beam (1am), of the mth solar carport (0 _m ), where 1<m≤n, is identical to the second support beam (1b _m-1 ) of the m-1st solar carport (0 _m - ₁ ).

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