DE3801989A1 - Insulating glass pane (screen) - Google Patents

Abstract

An insulating glass pane for façade building units, windows or the like consists of a plurality of glass panes, of which at least two bound an air-filled interspace and can be regarded with reference to a building, a conservatory or the like as front or rear pane, one pane preferably being constructed as a laminated glass pane (multilayer glass pane). In order to utilise the light which passes through (traverses) the insulating glass pane for generating electrical energy, the insulating glass pane has a photovoltaic solar generator whose solar cells which are interconnected in an electrically conductive manner by connectors are fitted on a glass pane. <IMAGE>

Description

The invention relates to an insulating glass pane according to the preamble of claim 1.

Such insulating glass panes find z. B. Use as facade construction elements, as a window or as a sloping element, whereby for the the latter case, the insulating glass panes as safety glass must be educated. A Luftge existing with the insulating glass panes filled space is delimited by two single disks, which means a profile frame arranged sealingly in its edge area is preferred be kept away from aluminum. For fastening the insulation glass panes on buildings, conservatories or similar facilities different frames or frame arrangements known.

The invention has for its object that the aforementioned Insulating glass panes penetrating light for the generation of electrical To use energy.  

The object is achieved in that the insulating glass pane has a photovoltaic solar generator, the one below the other Connector electrically connected solar cells on a glass pane are attached.

Embodiments of the invention are in the dependent claims 2 to 12 be wrote.

An advantage of the invention is that when using the Solar generator within an insulating glass pane its durability, d. H. Lifespan, is significantly increased compared to a conventional one solar generator attached to a building. The hermetic protection of this Solar generator against all damaging environmental influences (moisture, Oxygen, ozone, pollutant aerosols) is used without any special additional measure took scored. It is also advantageous that the one for insulating glass panes established installation and assembly techniques as well as the required Tools such as profiles, frames or the like continue to be used can. Advantageously, the manufacturing processes for manufacturing position of insulating glass panes are maintained. Also the possibility of installation on all objects on which Isolierver glazing can be used, previously unused facades, external walls or roof areas for better use of space and materials to lead. In addition, the use of previously used Isolierver glazing through the insulating glass panes according to the invention in a simple manner enables. Another advantage is that the insulating glass panes on from an architectural point of view, without light or sunlight entering these areas entire area is required or desired. Here deliver the z. B. partially distributed solar cells provide diffuse light because between sufficient for the solar cells and the edge areas of the insulating glass panes Scattered light can illuminate the rooms, e.g. B. even if from thermal engineering Direct sunlight is undesirable.

In the drawing, an embodiment according to the invention is shown, and shows sections of the

Fig. 1 and 2 are each a preferably as a facade component verwend bare insulating glass pane, which

FIGS. 3 and 4 are each an insulating glass pane, which is advantageously usable as a window, and

Fig. 5 and 6, insulating glass panes with integrated laminated glass panes.

In Fig. 1, there is an insulating glass pane essentially of two glass panes 2 and 10 , of which the glass pane 2 as the outer and the glass pane 10 as the inner glass pane was in relation to an object, not shown in the drawing, such as buildings, conservatories or the like. Both glass panes are held in their edge region by a circumferential profile frame 7 at a predetermined distance, so that between the glass panes 2 and 10 an air-filled space 14 is present. To achieve a sealed space 14 between the glass panes 2 and 10 and the profile frame 7 butyl rubber layers 1 and in the area of the outer end face of the profile frame 7, a sealant 6 , z. B. also arranged rubber. The frame 7 has holes for space 14 , which is filled with desiccant to remain completely dry. In the intermediate space 14 , a photovoltaic solar generator 15 is applied to the glass pane 2 , the solar cells 4 of which are electrically conductively connected to one another by connectors 5, preferably with an elastic adhesive 3 glued on. The electrical connection lines of the solar generator 15 , not shown in the drawing, can be led out of the insulating pane at the end.

The insulating glass pane shown in FIG. 2, like that from FIG. 1, can be used particularly as a vertical facade component. Here, too, the solar generator 15 is fastened to the front pane 2 by means of an elastic composite adhesive 11 , although a cover film 12 is additionally provided to cover the solar generator ( 15 ). It is also conceivable that the solar generator 15 is completely embedded in the melt adhesive layer 11 ; it can also be covered by a cover sheet 12 .

The insulating glass panes shown in FIGS. 1 and 2, in which the solar generators 15 can also be fastened on the rear pane 10 , can also be used as windows. For this application, it is expedient that the glass pane 2 or 10 serving as a support for the solar generator 15 is not completely but only partially covered with solar cells 4 . Also then - as the examples shown in FIGS. 3 and 4 show - an oblique arrangement of the insulating glass panes conceivable, so that use in the roof area of a building is made possible. The same reference numerals are used for the individual components in FIGS. 1 to 4; this also applies - as far as possible - to the insulating glass panes shown in FIGS. 5 and 6.

In FIGS. 5 and 6, the insulating glass panes in each case three glass 2, 8 and 10 slices, of which the glass panes 8 and 10 by means of an elastic laminated glass sheet 9 to a (Fig. 5) or two (Fig. 6) laminated glass panes are summarized. A solar generator 15 is embedded in the elastic composite film 9 of the composite pane, which can be used either as a front pane or as a rear pane. Its electrical connection lines can advantageously be led out from the front side of the composite side.

Claims (12)

1. Insulating glass pane for facade components, windows or the like consisting of several glass panes, of which at least two delimit an air-filled space and can be seen as a front or rear pane in relation to a building, winter garden or the like, preferably a pane being designed as a laminated glass pane is characterized in that the insulating glass pane has a photovoltaic solar generator ( 15 ), the solar cells ( 4 ) of which are connected to one another electrically by connectors ( 5 ) and attached to a glass pane ( 2, 10 ). 2. Insulating glass pane according to claim 1, characterized in that the solar generator ( 15 ) is in the space ( 14 ) formed by the front pane ( 2 ) and the rear pane ( 10 ). 3. insulating glass pane according to claim 1 or 2, characterized in that the solar generator ( 15 ) is arranged on the front pane ( 2 ). 4. Insulating glass pane according to claim 2, characterized by a solar generator ( 15 ) attached to the rear pane ( 10 ). 5. insulating glass pane according to claim 1, 2, 3 or 4, characterized in that the solar generator ( 15 ) with an elastic composite adhesive ( 3, 11 ) on a glass pane ( 2, 10 ) is glued. 6. Insulating glass pane according to claim 1, 2, 3, 4 or 5, characterized by a hot melt adhesive layer ( 11 ) covering the solar generator ( 15 ). 7. insulating glass pane according to claim 1, 2, 3, 4, 5 or 6, characterized in that the solar generator ( 15 ) is covered by an additional cover film ( 12 ). 8. Insulating glass pane according to claim 1, which has a bund glass pane consisting of two individual panes with an elastic composite film serving as an intermediate layer, characterized in that the solar generator ( 15 ) is arranged in the composite film ( 9 ) between the individual panes ( 8, 10 ). 9. insulating glass pane according to claim 8, characterized by the use the laminated glass pane as the rear pane of the insulating glass pane. 10. insulating glass pane according to one of claims 1 to 8, which is used as a facade component or window application, characterized in that the solar generator ( 15 ) partially serves as a support glass pane ( 2, 10 ). 11. insulating glass pane according to one of claims 1 to 8 for use as a facade component, characterized by a complete covering of the glass pane serving as a carrier ( 2, 10 ) by the solar generator ( 15 ). 12. Insulating glass pane according to one of claims 1 to 11, characterized in that the electrical connecting lines of the solar generator ( 15 ) are guided out of the insulating glass pane or the laminated glass pane on the end face.