WO2013186242A2

WO2013186242A2 - Solar panel and photovoltaic system

Info

Publication number: WO2013186242A2
Application number: PCT/EP2013/062093
Authority: WO
Inventors: Marco Peter; Inka Henze; Fabian Kessler
Original assignee: Fraunhofer-Gesellschaft zur Förderung der angewandten Forschung e.V.
Priority date: 2012-06-12
Filing date: 2013-06-12
Publication date: 2013-12-19
Also published as: DE102012105050A1; WO2013186242A3

Abstract

The invention relates to a solar panel, designed with a frame and a stand which constitute a plastic component, such that the stand forms an integral part of the frame.

Description

Solar module and photovoltaic system

description

FIELD OF THE INVENTION The invention relates to a solar module and a

Photovoltaic system. In particular, the invention relates to solar modules with an elevation, which are used in particular on flat roofs with a maximum inclination of 5 °.

Background of the invention

Solar modules with an elevation, as for

Photovoltaic systems are used are known. These are used off the equator to the solar module on flat roofs or flat surfaces to the south

by mounting it above an upright with a suitable angle of inclination. In particular, inclination angles between 10 ° and 40 ° are provided.

Well-known in the practice AufStänderungen usually consist of a welded or bolted

Metal construction and are expensive to assemble. Next known AufStänderungen, which must be designed for high winter loads, usually relatively heavy, which in many cases means that due to the maximum permissible roof load, the installation of a photovoltaic system not or only on a portion of the roof is possible.

Object of the invention

The invention is the object of the invention to provide a solar module or a photovoltaic system, in which the mentioned disadvantages of the prior art

at least reduce it.

It is a particular object of the invention to provide a simple mountable light solar module comprising an upstand. The object of the invention is already achieved by a solar module according to claim 1.

Preferred embodiments and further developments of

Invention are the subject of the dependent claims.

The invention relates to a solar module comprising a frame and an elevation. It is usually a photovoltaic module, ie a solar cell, which is surrounded by a frame, which has a

Elevation is inclined. It is understood that that

Photovoltaic module, ie the solar cell, is usually provided with a cover glass and / or a substructure. According to the invention, the frame and the support are formed as a plastic component connected to the solar module. According to the invention, therefore, a solar module is provided, which already has one with the frame

has connected elevation.

Preferably, the plastic component comprising frame and elevation is integrally formed. The

Aufständerung is therefore an integral part of the

Frame.

Preferably, the photovoltaic module is glued to the frame.

Next is in one embodiment of the invention

provided that the frame underside a reinforced

Has structure for supporting the photovoltaic module. These may be in particular spaced-apart webs. The attachment of a honeycomb structure on the underside, which is preferably also part of the plastic component, is conceivable.

As plastic for the plastic component, a thermoset is preferably used. Particularly preferred are fiber-reinforced resins,

in particular polyester resins, both BMC (Bulk

Molding Compound) as well as SMC (Sheet Molding Compound) can be used. Next can be fiber reinforced

Phenolic resins are used. Such thermosets have a high mechanical strength and an externally proven

Long-term stability.

In particular, unsaturated polyester resins can be used since they are resistant to UV radiation and thus the plastic component does not have to be protected, for example by painting.

Next, the plastics mentioned are lightweight and

inexpensive to produce.

In a further development of the invention, the solar module has at least one inflow surface for generating output in the case of wind.

The inflow surface is preferably connected to the frame and / or elevation.

So is particularly conceivable, the inflow than

Form part of the plastic component.

Preferably, the inflow surface but of the

Plastic component separable, in particular, this can on

Frame and / or be clipped on the uprising.

Since the inflow surface is not part of the supporting structure of the solar module, another material can be used for the inflow surface, ie for the elevation and the frame. In particular, simple

Plastic injection molded parts are used. The inflow surface preferably extends from one side of the elevation to the other side of the elevation, so that when the solar module flows from the side of the elevation ago an output is generated.

As a further aerodynamic embodiment, it is conceivable that the solar module is provided with openings above the photovoltaic module, that is to say above the solar cell, through which the air, which comes from the side of the solar cell, flows under the photovoltaic module, can exit upwards.

In a further development of the invention, the

Plastic component means for fixing the solar module.

In plastic components, preferably both in the

Aufständerung as well as in the context, are therefore integrated means for its attachment.

In the simplest case, these can be recesses through which, for example, a screw can be passed.

Preferably, the fastening means are form-fitting elements such as webs, which can be inserted into a rail and / or locked in a rail.

In a further development of the invention, the solar modules are stackable. It is therefore intended that the solar module with

Supports can be stacked on top of each other so that the frames and abutments abut each other. Thus, the solar module can be transported in a very simple manner together with the elevation.

The invention further relates to a photovoltaic system comprising at least one solar module, as above

described includes.

Furthermore, the photovoltaic system comprises mounting profiles on which the solar module is fastened. The mounting profiles are in particular as rails

trained, in which the solar modules can be inserted.

In particular, frame and elevation edge may include webs which engage in a corresponding groove of the rail. The solar module is thus form-fitting

attached, except for the direction along which the rails run. However, since no accidents occur in this direction, now the solar module can be fixed relatively easily on the rail, for example by means of a screw.

It is also conceivable to introduce a lockable stop in the rail. It is also conceivable that several

Solar modules are arranged one behind the other in a rail, with only a first and a last solar module must be locked in the rail. In a further development of the invention are on the

Mounting profiles junction boxes with the electrical

Connection of solar modules mounted.

In particular, it is provided that the junction boxes are inserted into the rail.

When mounted, the junction boxes are located

preferably below the solar module.

The photovoltaic system according to the invention can be easily mounted by two people. Description of the drawings

The object of the invention will be explained below with reference to the drawings Fig. 1 to Fig. 5, based on a schematically illustrated embodiment.

1 shows schematically a perspective view of a photovoltaic system 10. The photovoltaic system comprises a solar module 1, which comprises a photovoltaic module 4 in the form of a solar cell provided with a cover glass.

The photovoltaic module 4 is glued in a plastic frame 2, which is integrally connected to a Aufständerung 3 and in the side view looks essentially L-shaped. Frame 2 and elevation 3 thus form one

Plastic component, in which the elevation 3 is an integral part.

On the underside of the frame 2 reinforcing struts can be seen, through which the photovoltaic module 4th

is supported. Above the photovoltaic module 4 recesses are provided, can escape via the air, which flows in wind below the photovoltaic module.

On the edge side, the frame 2 has a passage through which an electrical connection for connecting the solar module 1 is led out.

The solar module 1 is mounted in mounting profiles 11. For this purpose, fastening means 7 in the form of webs are provided both on the frame and on the elevation, which engage in a corresponding groove of the mounting profile 11. Further, in the mounting profiles 11 junction boxes 12 can be mounted, in particular inserted, to which the solar module 1 can be connected by means of the electrical connection 8. FIG. 2 shows a further perspective view of a solar module 1, in which now the side of the elevation 3 facing away from the photovoltaic module can be seen. To recognize is the L-shaped frame 2 and elevation existing plastic component, which is inserted by means of the web designed as a fastening means 7 in the mounting section 11.

Next to recognize the reinforcing struts 5 of

Frame 2.

To generate an output under wind load is a

Onflow surface 9 is provided, which extends from one side of the elevation on the other side of the elevation.

The inflow surface is preferably designed as a removable, in particular latchable plastic element.

Corresponding latching means may for example be present on the frame 2 and on the reinforcing struts (not shown). It can also be seen that the solar module is provided on its underside with a honeycomb structure 14 for reinforcement.

Fig. 3 shows, shown schematically, a

Photovoltaic system in which a plurality of solar modules 1 are mounted on mounting profiles 11. The solar modules 1 adjoin one another directly, wherein in each case the

Bump into the frame of the following inclined solar panel 1.

Below the solar modules 1 are the junction boxes 12, which are mounted on the mounting profiles 11. Fig. 4 shows, schematically shown, a plurality of solar modules 1, which are stacked on each other, so that the frame 2 and 3 AufStände directly adjacent to each other.

On the integrated elevation 3 can such a

Variety of solar modules 1 are stacked and form a compact arrangement, which is easy to transport.

It can also be seen that, for transport, the inflow area shown in FIG. 2 has been removed, ie clipped out, in order to be able to form the solar modules 1 in a better stackable manner.

With reference to Fig. 5 is to be exemplified how the solar modules 1 can be transported.

Fig. 5 shows a transport box, in which a plurality of stacked solar modules 1 are transported.

Evident are the rear honeycomb structures 14 and the reinforcing struts between which the inflow surfaces 9 can be clipped.

The inflow surfaces 9 are taken out and can

be placed between the stacked solar modules 1.

The mounting profiles 11 for fixing the solar modules are also inserted into the transport box 13 and take the space, which between the elevation of the lowermost Solar module and the wall of the transport box 13 is present.

By the invention, an easily mountable

Solar module with integrated support, which is suitable for flat roofs and flat surfaces with a maximum inclination angle of 5 °.

LIST OF REFERENCE NUMBERS

1 solar module

2 frames

3 elevation change

4 photovoltaic module

5 reinforcement strut

6 recess

7 fasteners

8 connection

9 flow area

10 photovoltaic system

11 Mounting profile

12 junction box

13 transport box

14 honeycomb structure

Claims

Expectations :

1. Solar module comprising a frame and a

Elevation, with the frame and elevation as a plastic component connected to the solar module

are trained.

2. Solar module according to the preceding claim, characterized in that the plastic component consists of a

Duroplast is made.

3. Solar module according to the preceding claim, characterized in that the plastic component consists of a fiber-reinforced resin.

Solar module according to one of the preceding claims, characterized in that the frame is glued to a photovoltaic module.

Solar module according to one of the preceding claims, characterized in that the frame and elevation are formed in one piece.

6. Solar module according to one of the preceding claims, characterized in that the solar module has at least one inflow surface for generating downforce in wind.

7. Solar module according to the preceding claim, characterized in that the inflow surface is removable is trained.

8. Solar module according to one of the preceding claims, characterized in that the plastic component has means for fastening the solar module.

9. Solar module according to one of the preceding claims, characterized in that the solar modules are designed to be stackable.

10. Photovoltaic system, comprising at least one

Solar module according to one of the preceding claims and mounting profiles on which the solar module is attached.

11. Photovoltaic system according to the preceding claim, characterized in that the mounting profiles are designed as rails.

12. Photovoltaic system according to one of the above

Claims, characterized in that connection boxes for the electrical connection of solar modules are mounted on the mounting profiles.