DE3611543A1 - Solar module - Google Patents

Abstract

The invention relates to a solar module having photovoltaic cells (photocells) and a supporting plate on the rear side, which plate has a layer consisting of corrugated aluminium foil (5) or aluminium sheet (5a). <IMAGE>

Description

The invention relates to a solar module with photovoltaic Cells and a support plate on the back.

Known plate-shaped solar modules contain a large number of solar cells, i.e. wired together Semiconductor photo elements that are inadvertently Bending the module can easily break. Therefore the back of these modules from a very rigid Material that can absorb high bending forces. Such one However, high rigidity material has the disadvantage that it has a heat-insulating effect, i.e. that generated by the solar cells Heat is not dissipated sufficiently, so that the Effectiveness of the solar cells due to insufficient Cooling decreases significantly. These also have known modules heavy weight.

The object of the invention is to reduce a solar module To create weight and high rigidity for one ensures sufficient cooling of the solar cells.

This object is achieved in that the plate is a layer of corrugated aluminum foil or - has sheet metal.  

Such a layer made of corrugated aluminum foil or corrugated aluminum sheet has a very low weight high rigidity. The aluminum has a high Thermal conductivity and dissipates the heat from the solar cells to the back.

A particularly high rigidity of this aluminum back is achieved when on the corrugated layer an aluminum foil or sheet on both sides is. Alternatively, the corrugated layer can also be used aluminum foil or aluminum sheet on one side be. In this case it is an advantage if by a additional measure increases the rigidity of the module becomes. For this it is proposed that as the top layer a particularly iron-free hardened silicate glass as Stiffener is attached.

Preferably, the film or sheet on the top of the corrugated layer. It is also suggested that the layer comprising the solar cells with the corrugated layer by a hot melt adhesive, in particular a hot melt adhesive film is attached. Such Fastening method leads to simple manufacture small committee. The production is particularly easy then when the solar cells through a highly transparent Teflon film covered by a hot melt adhesive, in particular a hot melt adhesive film is attached. This also allows for mass production.

Is preferred for an efficient production suggested that a on the corrugated layer Hot melt adhesive film, on top of it the solar cell layer, on top a second hot melt adhesive film and then the Teflon film is placed and all layers are heated under vacuum until the hot melt adhesive films melt.

Two embodiments of the invention are in the Drawing shown and will be described in more detail below described. Show it:

Fig. 1 shows a cross section through a first embodiment and

Fig. 2 shows a cross section through a second embodiment.

The sun cells 1 are cast in a transparent plastic layer 2 . A layer or a film of highly transparent weather-resistant Teflon can be placed on top of this layer, this Teflon film being attached to layer 2 by a hot melt adhesive 4 . This hot melt adhesive can be placed between the two layers 2 , 3 in the form of an EVA film.

In the same way, a carrier layer 5 can be attached to the underside of the plastic layer 2 containing the sun cells 1 , which consists of corrugated aluminum 5 a and an attached top cover layer 5 b made of aluminum foil or aluminum sheet and an aluminum foil 5 c attached in the same way to the underside or sheet exists. The corrugated aluminum foil 5 a or the corrugated aluminum sheet can have continuous curvatures in accordance with a regular waveform or, as shown in the exemplary embodiment, can contain trapezoidal waves. The cover material 5 b , 5 c is preferably of a thickness of approximately 0.2 to 0.7 mm and the corrugated material 5 a of 0.1 to 0.5 mm. The thickness of the entire aluminum plate is approx. 3 to 10 mm.

In an alternative according to FIG. 2, the aluminum layer 5 has no lower covering material 5 c , so that the corrugated material 5 a forms a selected underside which is open at the bottom and has a large cooling surface. But also in the embodiment according to FIG. 1, the heat is not only released to the outside through the bottom layer 5 c , but the channels 6 located within the aluminum layer are open to both end faces, so that air can flow through and has a cooling effect.

In order to give the module sufficient rigidity in the absence of the bottom layer 5 c , an iron-free hardened silicate glass, in particular, can be attached as stiffening as the top layer.

The solar module is preferably manufactured in such a way that all layers together with the intermediate layers Hot melt adhesive film are placed loosely on top of each other and in a vacuum chamber to be evacuated, so that between there is no air in the layers. Then the layers in a vacuum to a temperature of 130 to 170 °, brought preferably 150 ° C and pressed together, so that all layers form a solid laminate.

Claims (8)

1. Solar module with photovoltaic cells and a supporting plate on the back, characterized in that the plate has a layer of corrugated aluminum foil ( 5 ) or sheet ( 5 a) . 2. Solar module according to claim 1, characterized in that on the corrugated layer ( 5 a ) on both sides an aluminum foil or an aluminum sheet ( 5 b , 5 c ) is fixed. 3. Solar module according to claim 1, characterized in that on the corrugated layer ( 5 a ) on one side an aluminum foil or an aluminum sheet ( 5 b ) is fixed. 4. Solar module according to claim 3, characterized in that the film or sheet ( 5 b ) on the top of the corrugated layer ( 5 a ) is solid. 5. Solar module according to one of the preceding claims, characterized in that the layer ( 2 ) having the solar cells ( 1 ) with the corrugated layer ( 5 ) by a hot melt adhesive, in particular a hot melt adhesive film ( 4 ) is attached. 6. Solar module according to one of the preceding claims, characterized in that the solar cells ( 1 ) are covered by a highly transparent Teflon film ( 3 ) which is attached by a hot melt adhesive, in particular a hot melt adhesive film ( 4 ). 7. Solar module according to one of the preceding claims, characterized in that as top layer a hardened iron-free one in particular Silicate glass is attached as a stiffener. 8. A method for producing a solar module according to one of the preceding claims, characterized in that on the corrugated layer ( 5 ) a hot melt adhesive film ( 4 ), then the solar cell layer ( 2 ), then a second hot melt adhesive film ( 4 ) and then the Teflon film ( 3 ) is placed and all layers are heated under vacuum until the hot melt adhesive films ( 4 ) melt.