CH708859A2 - Profile element for mounting of photovoltaic modules, solar system and in-roof / rooftop solar system arrangement. - Google Patents

Abstract

The invention relates to a first profile element (1b) for fixing photovoltaic modules (3) in the form of a hollow profile which is open on both sides and which has at least one support region and a groove at a first end and has a fastening groove at a second end. Furthermore, the invention relates to a second profile element (2) for fixing photovoltaic modules (3) in the form of a hollow profile which is open on both sides and which has at least one support region and a cover element at a first end, the cover element facing at its second end of the hollow profile Side has an engaging leg. A solar system according to the invention comprises a plurality of first profile elements (1b), a second profile element (2) and a photovoltaic module (3), which rests on the contact areas of the first profile elements (1b) and the second profile element (2) and is glued thereto. An in-roof or on-roof solar system arrangement comprises a plurality of solar systems, wherein the engagement leg of the second profile element (2) of a first solar system engages in the channel of a first profile element (1b) of a second solar system and this first profile element (1b) on the second profile element (2 ) opposite side of the second solar system (6) is arranged.

Description

description

The present invention relates to two different Profiielemente. Furthermore, the invention relates to a solar system comprising these two profile elements. Finally, relates to an in-roof or on-roof solar system arrangement, which has a plurality of inventive solar systems.

State of the art

Solar cells, especially photovoltaic elements for power generation, which are mounted on roofs, very often have a photovoltaic element enclosing frame. The same applies to electrothermal solar modules. The peripheral frame turns out to be a disturbing strainer. For example, rainwater does not run off completely due to this frame and the oblique arrangement of the solar modules, so that at the bottom of the frame due to the inclination of the solar elements very often backwater is formed, which may be cloudy and leaves dirt edges that affect the sun. DE 20 2010 000 940 U1 describes a profile element for fixing solar cells, which eliminates the aforementioned disadvantages and allows a flush completion of the solar cell with the peripheral frame, which does not allow a collection of waste water of the type described above. This profile element has a support region facing the solar cell and an adhesive region adjacent thereto. The support area and the adhesive area are formed by a solar cell facing U-shaped groove. A U-limb facing the solar cell has a slightly lower height and thus forms a support for the solar cell, while the U-limb facing away from the solar cell has a height which corresponds to the height of the small cell of the solar cell facing thigh plus the thickness of the solar cell ,

EP 2 541 618 A1 describes an in-roof solar system arrangement for photovoltaic solar modules in panel form with in-roof frames. This has substantially parallel to the ridge or eaves direction extending support rails with grooves, engage in the arranged on the solar modules springs. Due to the arrangement of the support rails perpendicular to the direction of roof skimming a virtually arbitrary arrangement of the solar modules is possible in ridge or eaves direction, without having to take into account the arrangement of the rafters.

WO 2013/056 769 A1 describes an in-roof or on-roof solar system arrangement for photovoltaic modules in panel form with roof frames or roof frames, which allows a large-scale in-roof arrangement of the solar modules on different roofs, without an adaptation of the solar modules to the roof construction is required. Furthermore, a Fassadensolarsystemanordnung is described, the frame consists of the same Profiliementen, which can also be used to produce the in-roof or on-roof solar system arrangement. These profile elements make it possible to arrange photovoltaic modules either in a tile-like overlapping manner or in the same plane.

While the frame systems described above for photovoltaic modules flush with the photovoltaic modules and thus avoid dirt accumulation on the frame, large quantities of rainwater still have to drain through the photovoltaic modules themselves. It is therefore the object of the present invention to provide an in-roof or roof-mounted solar system arrangement and the profile elements required for its production, which make it possible to purge any water that might penetrate into the frame.

Disclosure of the invention

This object is achieved by two different profile elements for fixing photovoltaic modules in the form of an open on both sides hollow profile. The first profile element has at least one bearing area and a groove at a first end and has a fastening groove at a second end. Preferably, the support area is limited by two legs, wherein the first leg is arranged on the side facing away from the channel of the profile element and the second leg is arranged on the side facing the channel of the profile element. The second leg has a greater height than the first leg. Furthermore, it has at its upper end in the direction of the first leg projecting lip. This makes it possible to glue a photovoltaic module on the support area so that the photovoltaic module is higher than the second leg of a profile elements formed according to the invention, wherein overflow of adhesive from the support surface is prevented on a profile element down by the projecting lip.

The second profile element has at least one bearing area and a cover element at a first end. The cover member has on its side facing the second end of the hollow profile side an engagement leg. The support area is preferably limited by two legs, wherein the first leg is arranged on the side facing away from the cover of the profile element and the second leg is arranged on the cover element facing side of the profile element. The second leg has a greater height than the first leg. At its upper end, it has a protruding toward the first leg lip. This makes it possible to glue a photovoltaic module on the support region of the second profile element in the same advantageous manner as on the support region of the first profile element.

The solar system according to the invention comprises a plurality of first profile elements and a second profile element. A photovoltaic module rests on the contact areas of the first profile elements and the second profile element and is with

2 these glued. The solar system preferably has a first profile element and a second profile element arranged parallel thereto with a first length and two first profile elements with a second length arranged at a right angle to these two profile elements. The second length is different from the first length. If the second length is greater than the first length, this makes it possible to install in the system system according to the invention rectangular photovoltaic elements which have a length in the eaves of an in-roof or on-roof solar system arrangement which is greater than their width in the firing direction. If the second length is smaller than the first length, this makes it possible to install rectangular photovoltaic elements in the system system according to the invention which have a length in the eave direction of an in-roof or on-roof solar system arrangement which is smaller than their width in the firing direction.

Each profile element is connected in particular by means of two angle elements with two other profile elements. In this case, each angle element preferably has two engagement elements, which respectively engage in the hollow profile of a profile element. This allows a simple connection between the profile elements and the angle elements. It is particularly preferred that at least one profile element has at least one nose which projects into its hollow profile and contacts an engagement element of an angle element. As a result, unintentional detachment of an engagement element from a hollow profile is prevented.

The profile elements preferably have support elements on their second ends, wherein each support element faces the support element of an opposite profile element of the solar system. On the support elements a grid is placed. This grid can serve as a protective grid in an overhead arrangement of the photovoltaic module.

The grooves of all first profile elements are preferably connected to each other. As a result, the inventive solar system is provided with a continuous rainwater drainage. Particularly preferably, the interconnected grooves end in two outlet channels. The outlet channels are parallel to the cover of the second profile element. The interconnected grooves are connected to two inlet openings facing the outlet channels. This makes it possible to connect several solar systems according to the invention so that rainwater can leave the interconnected channels of a solar system through the outlet channels and can be fed through the inlet openings of a more deeply arranged further solar system in its interconnected grooves, so as to dissipate it along a roof slope ,

The inventive in-roof or on-roof solar system arrangement comprises a plurality of solar systems according to the invention. The engagement leg of the second profile element of a first solar system engages in the channel of a first profile element of a second solar system. This first profile element is arranged on the opposite side of the second profile element of the second solar system. As a result, the two solar systems can overlap from top to bottom, so that a flat surface is obtained, which has no edges, where dirt could get stuck.

It is preferred that the engaging leg of the second profile element of a first solar system engages the channel of a first profile element of a second solar system and this first profile element is disposed on the second profile element opposite side of the second solar system, wherein outlet channels of the first solar system with inlet openings of the second solar system are connected. The cover element of the second profile element of the first solar system particularly preferably covers the channel of the first profile element on the side of the second solar system opposite the second profile element. In this way, a rainwater runoff can be created in the eaves of the roof, the first side extending grooves of the first profile elements are used to attach the cover.

Preferably, the mounting groove of a first profile element of the first solar system is connected by means of a connecting element with the mounting groove of a first profile element of a third solar system, wherein the cover elements of the second profile elements of the first solar system and the third solar system lie on a common straight line. As a result, a connection of the solar systems in Firstrichtung is guaranteed. Particularly preferably, the connecting element has a base plate, which is connected by means of fastening elements with two connectors, wherein the first connector on a first side of the base plate projects beyond this and the second connector on a second, the first side opposite side of the base plate projects beyond this and wherein each connector each has a connecting groove which engages in the connecting groove of a first profile element. This allows a particularly effective connection of the fastening grooves of adjacent solar systems. The fastening elements are in particular screws.

It is preferred that the grooves of the interconnected first profile elements of the first solar system and the third solar system are covered by a cover module. This prevents dirt from entering the gutters running in the eaves direction of the in-roof or on-roof solar system arrangement. Particularly preferably, the covering module has a resilient element with which it is fastened between the grooves of the interconnected first profile elements of the first solar system and of the third solar system. This makes it possible to securely fix the cover module and still be able to remove it. In addition, the cover module can serve as a mechanical support, which ensures additional fall protection of glued photovoltaic modules.

Furthermore, it is preferred that the cover module has sealing elements which rest on the photovoltaic modules of the first solar system and the third solar system. In this way, the cover modules can also fulfill a sealing function.

3 Brief description of the drawings

An embodiment of the invention is illustrated in the drawings and explained in more detail in the following description.

Fig. 1 shows the cross section of a first profile element according to an embodiment of the invention.

Fig. 2 shows the cross section of a second profile element according to an embodiment of the invention.

Fig. 3a is an isometric view of a first angle member according to an embodiment of the invention.

3b is an isometric view of a second angle member according to an embodiment of the invention.

Fig. 4a is an isometric view of a third angle member according to an embodiment of the invention.

4b is an isometric view of a fourth angle member according to one embodiment of the invention.

Fig. 5 is an isometric view of a photovoltaic module, which is inserted into the four angle elements according to FIGS. 3a to 4b.

Fig. 6 is an isometric view of a solar system according to an embodiment of the invention.

Fig. 7 is a plan view of an in-roof or on-roof solar system arrangement according to an embodiment of the invention.

FIG. 8 is a sectional view taken along the line VIII - VIII of FIG. 7. FIG.

9 is a side view of the in-roof or on-roof solar system arrangement of FIG. 7 taken from the direction indicated by IX.

FIG. 10 is a side view of the in-roof or on-roof solar system arrangement of FIG. 7 taken from the direction indicated by X. FIG.

FIG. 11 is an isometric view of a connection element used in one embodiment of the in-roof or on-roof solar system arrangement according to the invention. FIG.

Fig. 12 is a side view of a cover module used in an embodiment of the in-roof or on-roof solar system assembly according to the invention.

Embodiments of the invention

A first profile element 1 made of aluminum according to an embodiment of the invention is shown in Fig. 1. It has an angled hollow profile 1 1 with two directed into its interior lugs 1 1 1, 1 12. At its top is a support area 12, which is bounded by two legs 121, 122. The second leg 122 has a greater height than the first leg 121. In addition, it ends in a projecting in the direction of the support area 12 lip 123. On the second leg 122 facing side of the hollow section 11 is a groove 13, the bottom is lower as the bottom of the support area 12. On one side, the channel 13 is bounded by the second leg 122. On the other hand, the groove 13 is bounded by another leg which ends at the same height as the first leg 121. At the end facing away from the support region 12 and the groove 13 of the hollow profile 1 1, this has a mounting groove 14 and a support element 15. The mounting groove 14 is located on the same side of the hollow profile 1 1 as the channel 13. The support element 15 is located on the same side of the hollow section 11 as the first leg 121 and thus lies opposite the mounting groove 14.

A second profile element 2 made of aluminum according to this embodiment of the invention is shown in Fig. 2. This also has a hollow profile 21 with two directed into its interior lugs 21 1, 212. At one end of the hollow profile 21 is a support region 22, which is bounded by a shorter leg 221 and a longer leg 222, which has a lip 223 facing the support region 22. In its design, this support region 22 is similar to the support region 12 of the first profile element 1. On the side of the second limb 222 facing away from the support region 22, this has a cover element 23. This projects in the direction away from the support area 22 and beyond the height of the second leg 222 also. An engagement leg 231 extends from the bottom of the cover 23 parallel to the second leg 222 extending in the direction of the second end of the hollow profile 21. It has a smaller length than the second leg 222. At the second end

4 of the hollow profile 21 is a support element 25. This is arranged on the same side of the hollow profile 21 as the first leg 221st

3a and 3b show a first angle element 4a and a second angle element 4b of aluminum according to the embodiment of the invention. The two angle elements 4a, 4b behave mirror images of each other. They each have two arranged at a right angle to each other engaging elements 41 a, 41 b, which are adapted to engage in the hollow sections 1 1, 21 of the profile elements 12. On their upper side they each have a support region 42a, 42b. This is limited by first and second legs, wherein the first leg, which faces the enclosed areas of the support areas 42a, 42b areas, have a lower height than the side facing away from the legs. On each side of the angle elements 4a, 4b, the support region 42a, 42b merges into a cover element 43a, 43b with an engagement leg, which corresponds to the cover element 23 of the second profile element 2. In the right angle to the cover 23a, 23b located side of the angle element 4a, 4b, a respective fastening groove 44a, 44b is arranged, which corresponds to the mounting groove 14 of the first profile element. This side of the angle element 4a, 4b has in each case a through opening 45a, 45b. Furthermore, an outlet channel 46a, 46b runs along this side.

4a and 4b show a third angle element 5a and a fourth angle element 5b of aluminum according to this embodiment of the invention, which also behave mirror images of each other. These have engagement elements 51 a, 51 b, which correspond to the engagement elements 41 a, 41 b of the first two angle elements 4 a, 4 b. On its upper side is in each case a support region 52a, 52b, which corresponds to a support region 42a, 42b of the first two angle elements 4a, 4b. The third and fourth angle element 5a, 5b has at the top on its outer side in each case a circumferential groove 53a, 53b, which is positioned to the support area 52a, 52b, as the groove 13 of the first profile element 1 to its support area 12. At the groove 53a , 53b opposite end, these angle elements 5a, 5b each have a circumferential fastening groove 54a, 54b. One side of each angle element 5a, 5b has a through opening 55a, 55b. The portion of the groove 53a, 53b extending at right angles to the through-opening 55a, 55b terminates in an inlet opening 56a, 56b, respectively.

The four angle elements 4a, 4b, 5a, 5b can be positioned in the manner shown in Fig. 5, to hang a photovoltaic module 3 on their support areas 42a, 42b, 52a, 52b.

Fig. 6 shows how the angle elements 4a, 4b, 5a, 5b by pressing their engagement elements 41 a, 41 b, 51 a, 51 b in the hollow sections 1 1, 21 of three first profile elements 1 and a second profile element. 2 can be connected to a frame, on the support areas 12, 22, 42a, 42b, 52a, 52b, the photovoltaic module 3 can be adhered. The angle elements 4a, 4b, 5a, 5b are sealed when pressed against the hollow sections 1 1, 21 with seals (not shown). In the case of a rectangular, non-square shape of the photovoltaic module 3, two first profile elements 1 a arranged opposite one another have a greater length than a further first profile element 1 b, which is arranged opposite the second profile element 2. The cover element 23 of the second profile element 2 adjoins the cover elements 43a, 43b of the first two angle elements 4a, 4b. The grooves 13, 23, 43a, 43b, 53a, 53b are connected to one another in such a way that they rotate around each other on the three sides of the solar system 6, which have no covering elements 23, 43a, 43b, and terminate in the two outlet channels 46a, 46b , Each outlet channel 46a, 46b faces an inlet opening 56a, 56b. The solar system 6 is intended to be positioned on or in a roof such that the outlet channels 46a, 46b face downwards in the eave direction. All through openings 45a, 45b, 55a, 55b then extend in the firing direction and make it possible to interconnect a plurality of solar systems 6 in the firing direction with cables which are guided through the through openings 45a, 45b, 55a, 55b.

Fig. 7 shows an in-roof or on-roof solar system arrangement according to the embodiment of the invention, which consists of six solar systems 6. As shown in Fig. 8, the solar systems are connected to each other in the eaves by the engaging legs 231 of a solar system 6 respectively in the grooves 13, 53 a, 53 b of the first profile elements 1 b and the third and fourth angle elements 5 a, 5 b in the eaves direction underneath lying solar systems 6 intervene. The cover elements 23, 43a, 43b cover these grooves 13, 53a, 53b in each case and partially cover the photovoltaic element 3 of this solar system 6 in the region in which it lies on the support region 12, 52a, 52b of the respective first profile element 1b. of the third or fourth angle element 5a, 5b rests. This allows easy installation of the in-roof or on-roof solar system arrangement, as slipping of the solar systems 6 is prevented. As shown in FIG. 9 for the connection between first and third angle elements 4a, 5a, the outlet channel 46a, of the first angle element 4a projects into the inlet opening 56a of the third angle element 5a. The same applies to the outlet channels 46b of the second angle elements 4b, which project into the inlet openings 56b of the fourth angle elements 5b (not shown). In this way, a fluidic connection between the circumferential grooves of the solar systems 6 is produced.

Fig. 10 shows how two adjacent in the firing direction solar systems 6 are each connected to each other by means of a middle clamp as a connecting element 7. Each connecting element 7 simultaneously acts as a spacer. A further connection of these solar systems 6 takes place by cover modules 8. A middle clamp used in the inventive embodiment as a connecting element 7 is shown in Fig. 1 1. It comprises a rectangular base plate 71, in the middle of a screw 71 1 is introduced. A first rectangular connector 72 projects over a first side of the base plate 71 thereover. A second rectangular connector 73 projects beyond the second side of the base plate 71 opposite to the first side. The two connectors 72, 73 are each by means of screws

5

Claims (20)

as fastening elements 721, 731 connected to the base plate 71. Each connector 72, 73 has a connecting groove 722, 732, which engages in the mounting groove 14 of a first profile element 1 a. FIG. 12 shows a cover module 8. It has a resilient element 81 which engages between the grooves 13 of the first profile elements 1 a and from these is also herauslösbar again. Sealing elements 821, 822 on both sides of the cover module 8 rest on the solar modules 3. A cover plate 83 forms the top of the cover module 8 and protects the grooves 13 from the ingress of contaminants. When the cover modules 8 are removed again from the in-roof or on-roof solar system arrangement, a solar system 6 surrounded only by other solar systems 6 can be easily removed from the in-roof or on-roof solar system arrangement. The inventive in-roof or on-roof solar system arrangement has a smooth surface on which no impurities can accumulate and makes it possible to remove large amounts of rainwater entering the in-roof or on-roof solar system arrangement via their gutters. An increase of water due to capillary action is prevented by the shape of the outlet channels 46a, 46b. claims 1. profiled element (1, 1 a, 1 b) for fixing photovoltaic modules (3), in the form of an open on both sides hollow profile (1 1), at least a first support area (12) and a groove (13) has and at a second end a fastening groove (14). 2. profiled element (1, 1 a, 1 b) according to claim 1, characterized in that the support area by two legs (121, 122) is limited, wherein the first leg (121) on the gutter (13) facing away from the Profile element (1, 1 a, 1 b) is arranged and the second leg (122) on the said gutter (13) zugewanden side of the profile element (1, 1 a, 1 b) is arranged, and wherein the second leg (122) has a greater height than the first leg (121) and at its upper end in the direction of the first leg projecting lip (123). 3. profile element (2) for fixing photovoltaic modules (3), in the form of a hollow profile (21) which is open on both sides and which has at least one bearing area (22) and a cover element (23) at a first end, the cover element (23 ) has an engaging leg (231) on its side facing the second end of the hollow profile (21). 4. profile element (2) according to claim 3, characterized in that the support area (21) by two legs (21 1, 212) is limited, wherein the first leg (21 1) on the cover member (23) facing away from the profile element (2) is arranged and the second leg (212) on the said cover member (23) zugewanden side of the profile element (2) is arranged, and wherein the second leg (212) has a greater height than the first leg (21 1) and has at its upper end in the direction of the first leg (21 1) projecting lip (213). 5. solar system (6) comprising a plurality of first profile elements (1, 1 a, 1 b) according to claim 1 or 2, a second profile element (2) according to claim 3 or 4 and a photovoltaic module (3) on the support areas (1 1, 21) of the first profile elements (1, 1 a, 1 b) and the second profile element (2) rests and is glued thereto. 6. solar system (6) according to claim 5, characterized in that it comprises a first profile element (1 b) and a second profile element (2) arranged parallel thereto with a first length and two at a right angle to these two profile elements (1 b , 2) arranged first profile elements (1 a) having a second length, wherein the second length is different from the first length. 7. solar system (6) according to claim 5 or 6, characterized in that each profile element (1 a, 1 b, 2) by means of two angle elements (4a, 4b, 5a, 5b) with two other profile elements (1 a, 1 b, 2) is connected. 8. Solar system (6) according to claim 7, characterized in that each angle element (4a, 4b, 5a, 5b) has two engagement elements (41a, 41b, 51a, 51b), each in the hollow profile (1 1 , 12) of a profile element (1 a, 1 b, 2) engage. 9. Solar system (6) according to claim 8, characterized in that at least one profile element (1 a, 1 b, 2) at least one nose (11 1, 21 1) which projects into its hollow profile (11, 21) and a Engagement element (41 a, 41 b, 51 a, 51 b) of an angle element (4a, 4b, 5a, 5b) contacted. 10. solar system (6) according to one of claims 5 to 9, characterized in that the profile elements (1 a, 1 b, 2) at their second ends support elements (15, 25), wherein each support element (15, 25) the Support element (15, 25) of an opposite profile element (1 a, 1 b, 2) of the solar system (6) faces, and wherein a grid on the support elements (15, 25) is placed. 1 1. Solar system according to one of claims 5 to 10, characterized in that the grooves (13) very first profile elements (1 a, 1 b) are interconnected. 12. Solar system according to claim 1 1, characterized in that the interconnected grooves (13) in two outlet channels (46 a, 46 b) terminate, which extend parallel to the cover member (23) of the second profile element (2), and that with each other connected gutters (13) are connected to two inlet ports (56a, 56b) facing the outlet ports (46a, 46b). 6 13. In-roof or on-roof solar system arrangement comprising a plurality of solar systems (6) according to one of claims 5 to 11, wherein the engaging leg (231) of the second profile element (2) of a first solar system (6) in the channel (13) of a first profile element ( 1 b) of a second solar system (6) engages and this first profile element (1 b) on the second profile element (2) opposite side of the second solar system (6) is arranged. 14. In-roof or on-roof solar system arrangement comprising a plurality of solar systems (6) according to claim 12, wherein the engagement leg (231) of the second profile element (2) of a first Soiarsystems (6) in the channel (13) of a first profile element (1 b) of a second solar system (6) engages and this first profile element (1 b) on the second profile element (2) opposite side of the second solar system (6) is arranged, and wherein the outlet channels (46a, 46b) of the first solar system (6) with the Inlet openings (56a, 56b) of the second solar system (6) are connected. 15. In-roof or on-roof solar system arrangement according to claim 13 or 14, characterized in that the cover (23) of the second profile element (2) of the first solar system (6) the channel (13) of the first profile element (1 b) on the second profile element (2) opposite side of the second solar system (6) covers. 16. In-roof or on-roof solar system arrangement according to one of claims 13 to 15, characterized in that the fastening groove (14) of a first profile element (1 a) of the first solar system (6) by means of a connecting element (7) with the fastening groove (14) a first profile element (1 a) of a third solar system (6) is connected, wherein the cover elements (231) of the second profile elements (2) of the first solar system (6) and the third solar system (6) lie on a common straight line. 17. In-roof or on-roof solar system arrangement according to claim 16, characterized in that the connecting element (7) has a base plate (71) which is connected by means of fastening elements (721, 731) with two connectors (72, 73), wherein the first A connector (72) protrudes therefrom on a first side of the base plate (71) and the second connector (73) protrudes therefrom on a second side of the base plate (71) opposite the first side, and wherein each connector (72, 73 ) each having a connecting groove (722, 732) which engages in the fastening groove (14) of a first profile element (1 a). 18. In-roof or on-roof solar system arrangement according to claim 16 or 17, characterized in that the grooves (13) of the interconnected first profile elements (1) of the first solar system (6) and the third solar system (6) by a cover module (8). be covered. 19. In-roof or on-roof solar system arrangement according to claim 18, characterized in that the cover module (8) has a resilient element (81), with which it between the grooves (13) of the interconnected first profile elements (1) of the first solar system ( 6) and the third solar system (6) is attached. 20. In-roof or on-roof solar system arrangement according to claim 18 or 19, characterized in that the cover module (8) sealing elements (82) on the photovoltaic modules (3) of the interconnected first solar system (6) and the third solar system (6 ) rest. 7