DE202021104628U1 - Carrier system for holding several photovoltaic modules - Google Patents

Abstract

Carrier system for holding several photovoltaic modules, with several floor posts (5) and a module carrier which is received on the floor post (5) and which accommodates the photovoltaic modules (3), characterized in that the module carrier consists exclusively of several carrier strips (4) arranged in parallel, with each two adjacent support strips (4) accommodate at least one photovoltaic module (3), and that each support strip (4) is supported by at least two floor posts (5).

Description

The invention relates to a carrier system for holding a plurality of photovoltaic modules according to the preamble of claim 1.

From the DE 10 2018 114 621 A1 a photovoltaic device with a carrier system for receiving photovoltaic modules is known. The photovoltaic device comprises four posts arranged in a rectangle for anchoring in the floor and a support system with two transverse strips between two floor posts. The support system also includes a series of parallel longitudinal strips that rest on the transverse strips. The photovoltaic modules are held between the longitudinal strips. The cross beams are attached to the floor posts using a simple screw connection.

In the case of photovoltaic devices of this type, a high level of stability of the carrier system must be ensured in order to prevent the carrier system from sagging under the weight of the photovoltaic modules.

The invention is based on the object of securely accommodating photovoltaic modules, which may have a high dead weight, in a carrier system with simple structural measures and efficient use of materials.

This object is achieved according to the invention with the features of claim 1. The subclaims indicate expedient further developments.

The carrier system according to the invention serves to hold several photovoltaic modules and can be used in a photovoltaic device which is composed of the carrier system and several photovoltaic modules accommodated in the carrier system. If necessary, several or a multiplicity of such photovoltaic devices can be arranged next to one another and one behind the other. The photovoltaic devices are preferably anchored in a natural subsurface or ground.

An essential element of the photovoltaic device is the carrier system, which is used to hold several photovoltaic modules. The carrier system comprises several floor posts and a module carrier attached to the floor post for receiving the photovoltaic modules. The module carrier consists exclusively of several carrier strips arranged in parallel, of which in each case two adjacent, directly adjacent, but spaced apart carrier strips accommodate at least one photovoltaic module. Each support strip is supported by at least two floor posts.

The module carrier does not have any transverse strips, but only the carrier strips arranged parallel to one another. Accordingly, it is necessary that each support strip is supported by at least two floor posts. On the other hand, the transverse strips are dispensed with, which results in significant material savings. Since each support strip is supported by at least two floor posts, the weight to be borne by each floor post is correspondingly lower, so that the floor posts can be made smaller. This also results in a considerable saving in material.

Each support strip is supported by at least two floor posts. These are advantageously located adjacent to the ends of the carrier strip. However, it can be expedient to provide more than two floor posts per support strip, for example three or four floor posts, which are arranged evenly or unevenly distributed over the length of the support strips. In a further advantageous embodiment, all of the carrier strips of the carrier system are supported by the same number of floor posts. In an alternative embodiment, it is also possible for the carrier strips of the carrier system to have a different number of floor posts.

According to yet another advantageous embodiment, two directly adjacent, spaced-apart carrier strips are equipped to accommodate at least two photovoltaic modules lying one behind the other. Accordingly, the photovoltaic modules are located one behind the other as seen in the longitudinal direction of the carrier strips. Carrier strips arranged at the edge in the carrier system support photovoltaic modules only on one side, whereas carrier strips running at a distance from the edge side receive and support photovoltaic modules on both sides. This embodiment makes it possible to accommodate a field with longitudinally and transversely arranged photovoltaic modules in the carrier system, with a photovoltaic module or two or more consecutive photovoltaic modules being held between two adjacent carrier strips.

According to yet another advantageous embodiment, the floor posts have a C-shaped profile cross-section. In this version, the ground posts are rammed into the ground. This embodiment has the advantage that there is a high level of stability both in terms of pressure load and in terms of connection stiffness. This makes it possible to use relatively thin-walled floor posts. The floor posts are preferably made of steel. The support strips are made of metal, for example aluminum or steel.

In a further advantageous embodiment, the floor posts have a screw connection profile and can be screwed into the floor for anchoring. The floor posts are provided with a round profile cross-section and can be designed as a tube or as a solid profile. The screwing profile can be designed as an external thread in the manner of a screw or as a floor or rotating anchor with a spiral-shaped rotating plate arranged on the pipe or solid profile, which can be screwed into the ground for anchoring.

According to yet another advantageous embodiment, the floor posts assigned to a carrier bar have a different length, so that the carrier bar is at an angle that is not equal to 90 ° and is, for example, 20 ° with the same deep anchoring of the posts in the floor with respect to the post longitudinal axis. The floor posts are connected to the support strips at a corresponding angle. This design makes it possible to arrange the entire carrier system at an angle with respect to the floor, so that the carrier system is not aligned parallel to the floor. In an alternative embodiment, it is also possible to use floor posts of the same length or possibly different lengths and to align the support system parallel to the floor.

According to yet another advantageous embodiment, all of the carrier strips lie in a common plane. This has the advantage that the support strips and the associated floor posts on the support strip are each designed in the same way and only have to be arranged offset parallel to one another in order to form the support system. In an alternative embodiment, it is also possible for at least some of the carrier strips to lie in a second, offset plane. This embodiment makes it possible, for example, to arrange a carrier system with photovoltaic modules within a photovoltaic device, which are located in different planes.

According to a further advantageous embodiment, the posts are fastened to the support strips by means of flanges which are screwed both to the post and to the support strips. These flanges can have a C-shaped profile cross-section. The flange design offers the advantage that the screw connection to the post on the one hand and the screw connection to the carrier strip on the other hand can take place on different flange sides.

The photovoltaic device according to the invention has a carrier system as described above and a plurality of photovoltaic modules received in the carrier system. By arranging several identical or similar photovoltaic devices next to one another and one behind the other, a field with a large number of such photovoltaic devices can be implemented.

• 1 eine Seitenansicht einer Photovoltaikeinrichtung mit einem Trägersystem und im Trägersystem aufgenommenen Photovoltaikmodulen,
• 2 die Photovoltaikeinrichtung in einer perspektivischen Ansicht,
• 3 eine Ansicht von vorne,
• 4 einen Schnitt längs durch die Photovoltaikeinrichtung,
• 5 einen Schnitt gemäß Schnittlinie V-V aus 4,
• 6 eine Photovoltaikeinrichtung in einer weiteren Ausführung mit insgesamt drei Bodenpfosten pro Trägerleiste des Trägersystems der Photovoltaikeinrichtung,
• 7 die Photovoltaikeinrichtung aus 6 in perspektivischer Ansicht,
• 8 einen Bodenpfosten des Trägersystems in einer Ausführungsvariante.

Further advantages and useful designs can be found in the further claims, the description of the figures and the drawings. Show it:

• 1 a side view of a photovoltaic device with a carrier system and photovoltaic modules received in the carrier system,
• 2 the photovoltaic device in a perspective view,
• 3 a view from the front,
• 4th a cut lengthways through the photovoltaic device,
• 5 a section according to section line VV 4th ,
• 6th a photovoltaic device in a further version with a total of three floor posts per carrier strip of the carrier system of the photovoltaic device,
• 7th the photovoltaic device 6th in perspective view,
• 8th a floor post of the support system in one embodiment.

In the figures, the same components are provided with the same reference numerals.

In the 1 until 5 is a first embodiment of a photovoltaic device 1 shown, which is designed as an outdoor facility and is placed directly on the ground.

The photovoltaic device 1 has a carrier system 2 to accommodate photovoltaic modules 3 on, the carrier system 2 several parallel carrier strips 4th and floor posts 5 includes over which the carrier system 2 and the entire photovoltaic facility 1 are anchored in the ground. The carrier system 2 consists exclusively of the carrier strips arranged parallel to one another and spaced apart 4th and the floor post 5 who have favourited the carrier strips 4th are assigned, as well as optionally existing support strips 14th that are angled between the support strips 4th and the floor post 5 are arranged. There are no cross bars provided between adjacent carrier bars 4th get lost. Per carrier strip 4th are four floor posts 5 available. The number of floor posts 5 per carrier strip 4th is at least two and depends in the individual case on various circumstances, for example on the length of the support strip, the weight taken up and the nature of the floor.

Between two adjacent carrier strips 4th are the photovoltaic modules 3 . In the exemplary embodiment, three photovoltaic modules are arranged one behind the other in the longitudinal direction of the carrier strips. The carrier strips on the edge 4th support photovoltaic modules on one side only 3 from, whereas the carrier strips that run at a distance from the edge side 4th photovoltaic modules on both sides 3 pick up and support. The photovoltaic modules 3 protrude beyond the support strips 4th at both ends of the support strips.

The carrier strips 4th are at an angle other than 90 ° with the floor post 5 connected, which also results in an angle to the ground that is not equal to 0 °. In the exemplary embodiment, the angle with respect to the floor is approximately 20 °.

4th it can be seen that the photovoltaic modules 3 about screws 7th with the support strips 4th are screwed.

According to the sectional view 5 is the attachment between the floor posts 5 and the support strips 4th using a flange 6th refer to. The flange 6th has a C-shaped profile cross-section. On one side of the flange 6th that are attached to the side face of the floor post 5 there is a screw 7th over which the floor post 5 with the flange 6th by means of a washer 8th and a mother 9 is bolted, with washer 8th and mother 9 within the C-shaped profile cross-section of the flange 6th are located. On another side of the flange 6th at a 90 ° angle to the mounting side of the flange to the floor post 5 is attached to the support strip 4th using a screw 10 through a recess in the carrier strip 4th is led and on the one mother 11 that is screwed on the opposite side of the flange 6th lies within the flange profile cross-section. In the recess in the carrier strip 4th is a conical disk 12th inserted through which the screw 10 is passed through.

Also the floor posts 5 have a C-shaped profile cross-section and are rammed into the ground for anchoring.

In the 6th and 7th is a further embodiment of a photovoltaic device 1 shown, which basically has the same structure as the above-described example according to the 1 until 5 so that in this respect reference is made to the description above. Is different at 6th and 7th however, the support via the floor post 5 . Per carrier strip 4th are a total of three floor posts 5 provided, whereas in the first embodiment only two floor posts 5 are arranged. The greater number of floor posts 5 according to the 6th and 7th enables a higher weight to be accommodated in the carrier system 2 without the risk of bending.

There are three photovoltaic modules in the exemplary embodiments 3 one behind the other between two parallel carrier strips 4th . However, it is optionally also possible to have a larger or a smaller number of photovoltaic modules 3 between two parallel support strips 4th to arrange.

It is also possible for each carrier strip 4th a larger number of floor posts 5 provide, for example, four or five floor posts.

In 8th is a floor post 5 shown in a variant in which the floor post 5 designed as a tube and with a conical tip 5a is provided. Adjacent to the top 5a is located on the outer surface of the floor post 5 a radially protruding, spiral-shaped rotating plate 13th that are firmly attached to the floor post 5 connected is. The turntable 13th , which forms a screw connection profile, can dig itself into the ground and secure and fix the ground post 5 in the ground. When burying the ground post 5 axially applied force so that the tip 5a penetrates the ground. At the same time, the floor post is 5 set in rotation, whereby the turntable 13th turns into the ground due to the spiral shape.

QUOTES INCLUDED IN THE DESCRIPTION

This list of the documents listed 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

• DE 102018114621 A1 [0002]

Claims (11)

Carrier system for holding several photovoltaic modules, with several floor posts (5) and a module carrier which is received on the floor post (5) and which accommodates the photovoltaic modules (3), characterized in that the module carrier consists exclusively of several carrier strips (4) arranged in parallel, with each two adjacent support strips (4) accommodate at least one photovoltaic module (3), and that each support strip (4) is supported by at least two floor posts (5). Carrier system according to Claim 1 , characterized in that each support strip (4) is supported adjacent to its ends by a respective floor post (5). Carrier system according to Claim 2 , characterized in that one or more support strips (4) are supported in the central area via an additional floor post (5). Carrier system according to one of the Claims 1 until 3 , characterized in that two support strips (4) lying next to one another receive at least two photovoltaic modules (3) lying one behind the other. Carrier system according to one of the Claims 1 until 4th , characterized in that the floor posts (5) have a C-shaped profile cross-section. Carrier system according to one of the Claims 1 until 4th , characterized in that the floor posts (5) have a screw connection profile (13). Carrier system according to one of the Claims 1 until 6th , characterized in that the floor posts (5) assigned to a carrier bar (4) have a different length, so that the carrier bar (4) is at an angle to the longitudinal axis of the post which is not 90 ° and is, for example, 20 °. Carrier system according to one of the Claims 1 until 7th , characterized in that all the support strips (4) lie in a common plane. Carrier system according to one of the Claims 1 until 8th , characterized in that the posts are fastened to the support strips (4) by means of flanges (6) which are screwed both to the post and to the support strips (4). Carrier system according to Claim 9 , characterized in that the flanges (6) have a C-shaped profile cross-section. Photovoltaic device with a carrier system (2) according to one of the Claims 1 until 10 and several photovoltaic modules (3) received in the carrier system (2).

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