WO2011054943A1

WO2011054943A1 - Solar module comprising a pivotable support wall

Info

Publication number: WO2011054943A1
Application number: PCT/EP2010/066948
Authority: WO
Inventors: Werner ILZHÖFER
Original assignee: Ilzhoefer Werner
Priority date: 2009-11-06
Filing date: 2010-11-05
Publication date: 2011-05-12
Also published as: DE112010004299A5; DE202010017971U1

Abstract

The invention relates to a solar module (S) in which a photoelectric surface is surrounded by a rectangular frame (1) having two long sides (2a, 2b) and two short sides (3). In order to facilitate assembly of the solar module (S), a support wall (4) that can be pivoted from a transported position into a supporting position is mounted on the frame (1), one of the long edges (5a) of said support wall (4) resting against a long side (2a) of the frame (1) in the supporting position.

Description

SOLAR MODULE WITH SWIVEL SUPPORT WALL

The invention relates to a solar module according to the preamble of patent claim 1.

Such a solar module is known for example from DE 20 2008 000 528 Ul. Supporting devices are provided for supporting the solar module on flat roofs, which have an elongated profile. On this profile toward ^¬ are behind the other more index gradient wedges. The Langge ^¬ stretched profile is composed of a lower and an upper edge ^¬ sheet. Spacers are provided between the lower and the upper edge plate, engage in the screws for fastening the slope wedges. - The solar module is supported on the long sloping sides of two adjoining sloping wedges. A remaining between the short sloping sides of the slope wedges opening can be closed with a Windableitblech.

The known solar module assembly requires a relatively high manufacturing and assembly costs. The production of the elongated profiles is complex. It first requires the production of a lower and an upper edge plate and subsequently a connection of the edge plates with intermediate circuit ^¬ spacers. For mounting the slope wedges, the production of several relatively complex screw is required. The object of the invention is to eliminate the disadvantages of the prior art. It should be particularly pointed a Solarmo ^¬ dul, which can be aufStändern quickly, easily and cost-effectively on flat roofs. After one Another object of the invention is a possible simple, fast and inexpensive feasible method for ^{producing a ¬} arranged on a flat roof solar module assembly can be specified.

This object is solved by the features of claims 1, 11 and 15. Advantageous embodiments of the invention will become apparent from the features of claims 2 to 10 and 12 to 14. According to the invention it is proposed that the frame is mounted from a transport position to a support position pivotable support wall, wherein the support wall in the support position with their one long edge against a long side of the frame. - The proposed solar module is particularly easy to stand up. For this purpose, it is le ^¬ diglich required to pivot the pivotally mounted on the frame support wall from the transport position into the support position. In the supporting position is one introduced to the support wall load of the solar module, which may be substantially increased for example by a snow load, along the long edge across the entire width of the support wall ablated ^¬ gene. This can in an advantageous manner, such as action of a snow load, unwanted deflection of the solar module can be avoided. The solar module has the further advantage that the retaining wall it ^¬ must be taken not separately buildin. This saves assembly work.

For the purposes of the invention, the term "frame" generally refers to a structural element which is connected to the photovoltaic surface. It may also be attached to the inner sides of the long and / or short sides of the frame webs, web sections and the like. act. According to an advantageous embodiment of the invention, the support wall on the two short sides of the frame is so ^{¬ introduced} that it rests in the transport position with their short edges on the short sides of the frame. In this embodiment, the support wall requires in the Transportpositi ^¬ on virtually no additional storage space. The solar module can - compared to known in the prior art solar modules - are transported without additional transport costs.

Advantageously, a first length of the long edges of the support wall corresponds to about a second length of the long sides of the frame. This allows a particularly simple Mon ^¬ days of the support wall on the outside of the frame. Furthermore, this allows a load transfer over the entire length of a long side of the frame.

According to a further embodiment of the invention, a third length of the short sides of the frame is greater than a fourth length of the short edges of the support wall. Ie. the

Support wall thus extends in the transport position only over a portion of the short sides of the frame. Suitably ^¬ ßigerweise is the third length more than twice as large as the fourth length.

Furthermore, it has proved to be expedient that the short edges of the support wall in the support position with the short sides of the frame each form an angle of 50 ° to 130 °, preferably from 60 ° to 120 °. By changing the fourth length and / or the angle, a desired angle of attack of the solar module with respect to a horizontal background can be set. The angle of attack results at the place of installation from a mean solar irradiation angle. Advantageously, the support wall is pivotable about a pivot axis which extends through two opposite end ^¬ sections of the short sides of the frame. Ie. the support wall is pivotally mounted in the region of the corners of the short sides of the frame. With the proposed arrangement, a windage surface on the solar module can be minimized.

According to a further advantageous embodiment, the support wall in a near the one long side befind ^¬ union upper section a plurality of ventilation openings on. Thereby can be discharged on ^¬ heated air located below the solar module. It can thus be an undesired ^¬ tes heating of the solar module can be reduced, which has a reduction in the efficiency result.

According to a further advantageous embodiment, the support wall in the corner region of the other long edge in each case an opening for the passage of a connecting element. The connecting ^element can be, for example, a blind rivet, a screw or the like. act. The provision of the breakthrough further facilitates the erection of the solar module ^¬ , in particular a connection to a support structure located thereunder.

Conveniently, the support wall is made of a sheet Herge ^¬ provides, the long edges are formed as bends. In this case, an opening provided at the one long edge first bent portion with respect to the surface of the support wall a Abkan- tung angle ß on talking ent ^¬ substantially to the angle. A second fold on the other long edge is designed so that in the supporting position of the Supporting wall just rests on a substrate or a mounting surface of a support device.

According to a further advantageous embodiment, a profile is provided on the pivot axis opposite the other long side of the frame. It may be an extruded profile, for example a Z-profile, an L-profile or the like. , which is mounted on the other long side of the frame. The profile serves to engage in fastening means of a support device, on which the So ^¬ larmodul can be mounted.

In further accordance with the invention, a kit is provided, comprising: an inventive solar module and two square tubes, each of said square tubes having a support surface and an opposed mounting surface, and wherein on the mounting surface, a first fastening means for buildin ^¬ account the support wall and a second fastening means for Attachment of provided with the profile other long side of the frame are pre-assembled. - By a mounting of it ^¬ inventive solar module on one of the two Kantroh- ren formed support means storm a particularly rigid support device can be manufactured. To increase the resistance to storms, the two square tubes can also be anchored in the flat roof and / or provided with weights. According to a further particularly advantageous embodiment, the second fastening means are formed corresponding to the Pro ^¬ fil, so that the profile can be inserted therein and by pivoting the solar module in an operating position can be fixed. This further simplifies the assembly of the solar module ^¬ on the square pipes. To make a solid connection of the other long edge of the frame, it is only necessary to insert the profile in the second fastening means and to pivot. The attachment of separate fasteners or the like. is not required here.

Furthermore, it has proven expedient that support elements made of an elastomer are attached to the support surface. Which makes a balance of unebe ^¬ nen underground or flat roof. A secure support of the square pipes on the ground is thus guaranteed.

According to a further embodiment of the invention, the kit may comprise connecting means for connecting two cantilevers in the longitudinal ^¬ direction. It may be U-profiles, Kantrohrabschnitte or the like., Whose outer dimensions are chosen so that they inserted into an opening of the Kantrohre ^¬ and can be connected to them, for example by riveting. A connection or concatenation of several cantilevers in the longitudinal direction allows the production of large-area solar module. The proposed chaining a particularly high resistance to the attack of wind is achieved.

According to another aspect of the invention, a method is proposed for rebuilding a solar module according to the invention with the following steps: providing two cantilevers, each of which has a support surface and an opposite mounting surface, and wherein on the mounting surface a first attachment means for securing the support wall and a second attachment means is pre-mounted for attachment of the profiled other long side of the frame,

Placing the two cantilevers at a predetermined distance and approximately in parallel alignment with their support surfaces on a substrate,

Inserting the profile into the second fastening means,

Erecting the solar module and pivoting the support wall in the support position, and

Attaching the support wall to the first attachment means by means of fasteners.

The proposed method is simple, fast and cost ^{¬ low} feasible. To raise a solar module according to the invention, it is only necessary to establish a connection between the support wall and the first attachment means, for example by means of blind rivet. This makes it possible to start up a large number of solar modules according to the invention in a short time.

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

1 shows an exploded view of the essential components of a solar module arrangement,

Fig. 2 shows the solar module assembly of FIG. 1 in mounted

Status,

3 shows the essential components of a kit, 4 is a schematic side view of a first Monta ^¬ step, Fig. 5 is a detail view of FIG. 4,

6 is a schematic side view of a second Mon ^¬ tageschritts, Fig. 7 is a schematic side view of a third Mon ^¬ tageschritts,

Fig. 8 is a schematic side view of a fourth Mon ^¬ tageschritts and

9 is a detail view of FIG

In FIGS. 1 to 3, a solar module S has a frame 1 with a first 2a and a second long side 2b and two short sides 3 connecting the long sides 2a, 2b. The frame 1 surrounds a photoelectric surface. With the reference ^¬ sign 4 is a, preferably hergestell ^¬ te from a metal sheet, referred to the support wall, which, 5b has a first long edge 5a and an opposite second long edge 5b and two long edges 5a joined short edges. 6 The first 5a and the second long edge 5b and the short edges 6 are designed as bends. At the one ends of the short edges 6 tabs 7 extend to

pivotable attachment of the support wall 4 on the short sides 3 of the solar module S. The tabs 7 can also be configured angled in a plane of the short edges 6 (not shown here). The reference numeral 8 denotes a Z-profile which is attached to the second long side 2b of the frame 1. Cantilever tubes 9 are provided on their (not visible here) support surface with support elements 10, which may be made of an elastomer, such as EPDM. On an Monta ^¬ M gefläche the square tubes 9 a first fastening means 11 and a second attachment means 12, mounted for example with ^¬ means of blind rivet. By the reference numeral 13 Ver ^{¬ connecting} means are referred to, which are executed for example in the manner of a U-profile and inserted into the cantilever 9. The connecting means 13 serve a concatenation of the cantilever tubes 9 in the longitudinal direction.

By the reference numeral 14 ventilation apertures in the support wall 4 are designated, which are provided in the region of the first lan ^¬ gen edge 5a.

FIG. 2 shows the solar module arrangement according to FIG. 1 in the mounted state. The Z-profile 8 engages in the second fastening means 12. The support wall 4 is connected in the region of the corners of the second long edges 5b with the first attachment means 11, for example by means of blind rivets. By the reference numeral 15 drilling screws are designated with which a pivotal connection between the tabs 7 and the short sides 3 of the frame 1 is made.

Fig. 3 shows the essential components of a kit according to the Invention ^¬. In this case, the support wall 4 is in a transport position in which the short edges 6 overlap the short sides 3 of the frame 1. From Fig. 3 it can also be seen that the second long edge 5b of the support wall 4 is designed as Ab ^¬ edging. A length of the second long edges 5 b is advantageously chosen so that the support wall 4 in Transport state an electrical connection box 16 does not overlap. As is apparent from Fig. 3, the Kant ^¬ pipes 9 are kept in the kit in a preassembled condition, with the first 11 and the second fastening means 12 are so-like support members 10 buildin ^¬ Untitled already to the square tubes 9.

Figs. 4 to 9 show the essential steps of a method of assembling the solar module assembly using the components of the kit shown in Fig. 3.

In a first assembly step, two preassembled Kant ^¬ tubes 9 are placed substantially parallel to a substrate. Subsequently, the solar module S is introduced with the Z-profile 8 by moving in a direction substantially parallel to the Kantrohren 9 direction in the second fastening means 12.

In a second assembly step, the solar module S is then pivoted in an abutment formed by the second fastening means 12. Then, in a third assembly step, the support wall 4 is pivoted from its transportation position into a supporting position and brought into abutment with the first buildin ^¬ actuating medium. 11 The short edges 6 of the support wall 4 form an angle with the short sides 3 of the frame 1. The angle here is between 80 and 110 °.

Subsequently, in a fourth assembly step, ^¬ example by means of blind rivets, the support wall 4 with the first loading attachment means 11 firmly connected. Thus, the assembly of the solar module assembly is completed. The proposed solar ^¬ module arrangement is stable, especially against wind or Storm influences. It is easy, inexpensive and quick to assemble.

Reference sign list

I frame

2a first long side

2b second long side

3 short side

4 retaining wall

5a first long edge

5b second long edge

6 short edge

7 tab

8 Z-profile

9 cantilever

10 support element

II first fastening means

12 second fastening means

13 connecting means

14 ventilation breakthrough

15 self-drilling screw

16 connection box

M mounting surface

S solar module

Claims

claims

1. Solar module (S), in which a photoelectric surface of a two long (2a, 2b) and two short sides (3) aufwei- sending rectangular frame (1) surrounded, characterized in that the frame (1) one of a transport position in a support position pivotable support wall (4) is mounted, wherein the support wall (4) in the support position with its one long edge (5a) on a long side (2a) of the frame (1) on ^¬ is.

2. Solar module (S) according to claim 1, wherein the support wall (4) on the two short sides (3) of the frame (1) is mounted so that they are in the transport position with their short edges (6) on the short sides ( 3) of the frame (1) is applied.

3. Solar module (S) according to claim 1 or 2, wherein a first length of the long edges (5a, 5b) of the support wall (4) about a second length of the long sides (2a, 2b) of the frame (1) ent ^¬ speaks.

4. Solar module (S) according to one of the preceding claims, wherein a third length of the short sides (3) of the frame (1) is greater than a fourth length of the short edges (6) of the support wall (4).

5. Solar module (S) according to one of the preceding claims, wherein the short edges (6) of the support wall (4) in the Stützpo ^¬ position with the short sides (3) of the frame (1) each ei ^¬ nen angle of 50 ° to 130 ° form.

6. Solar module (S) according to any one of the preceding claims, wherein the support wall (4) is pivotable about a pivot axis which extends through two opposite end portions of the short sides (3) of the frame (1).

7. The solar module (S) according to any one of the preceding claims, wherein the support wall (4) in a near the one long side (2a) located upper portion a plurality of ventilation apertures (14).

8. Solar module (S) according to any one of the preceding claims, wherein the support wall (4) in the corner region of the other long edge (5b) each having an opening (14) for performing a connecting means (13).

9. Solar module (S) according to any one of the preceding claims, wherein the support wall (4) is made of a sheet, de ^¬ ren long edges (5 a, 5 b) are formed as bends.

10. Solar module (S) according to any one of the preceding claims, wherein on the pivot axis opposite the other long side (2b) of the frame (1) has a profile (8) is provided.

11. Kit, comprising at least one solar module (S) according to one of the preceding claims and two cantilevers (9), wherein each of the Kantrohre (9) has a support ^¬ surface and an opposite mounting surface and wherein on the mounting surface, a first fastening means (11) for fastening the supporting wall (4) and a second fastening Means (12) for fixing the profile (8) provided with the other long side (2b) of the frame (1) are pre-assembled.

12. Kit according to claim 11, wherein the second Befestigungsmit ^¬ tel (12) corresponding to the profile (8) are formed so that the profile (8) can be inserted therein and fixed by pivoting the solar module (S) in an operating position.

13. Kit according to claim 10 or 11, wherein on the support surface

(4) support elements made of an elastomer (10) are integrally ^¬ introduced.

14. Kit according to one of claims 11 to 13, further comprising connecting means (13) for connecting two Kantrohre

(9) in the longitudinal direction.

15. A method for mounting a solar module (S) according to one of claims 1 to 10, comprising the following steps:

Providing two square pipes (9), each having a support surface and an opposed mounting surface on ^¬ has, and wherein on the mounting surface, a first Fixed To ^¬ restriction means (11) for fastening the support wall (4) and a second fastening means (12) for securing the with the profile (8) provided other long side (2b) of the frame (1) is pre-assembled,

Placing the two cantilever tubes (9) at a prevailing distance and approximately in parallel alignment with their support surfaces on a substrate, Inserting the profile (8) into the second fastening means (12),

Erecting the solar mode (S) and pivoting the support wall (4) in the support position, and

Fixing the support wall (4) to the first attachment means (11) by means of connecting means (13).