DE10055617A1 - Isolating glass panel for photovoltaic element for windows and glass houses has connecting element for cables in the pane separation region - Google Patents

Abstract

An isolating glass panel for a photovoltaic element has separated outer and inner panes with an elastic adhesive edge seal with solar cells in the gap. An insulating connecting element (2) fits into a gap of some cm in the edge seal and cable connections (5) pass through this element into the gap.

Description

The invention relates to an insulating glass pane, which for Installation in facade glazing, windows, conservatories, glass houses or similar, and with the photo voltaic way electricity can be generated.

Such photovoltaic insulating glass panes have at least least one front window and one spaced from it Rear window on. By one between the panes, at de outer edges slightly offset inwards, all around orderly spacer becomes a closed washer formed in the space in which the solar cells are arranged are. Outer and inner pane are with a permanent stical sealing compound glued to the spacer. The through placing the spacer slightly inward formed space is filled with permanently elastic sealing compound. The spacer is usually a Hollow section made of aluminum. The solar cells are preferred in transparent cast resin, transparent composite film or the like embedded on one of the disks and attached electrically interconnected using flat conductors. Of the connection lugs of the solar cell network lead connection cables to the outside, where they connect with the connecting cables of other photo voltaic insulating glass panes can be connected. Leading the connection cable out of the window interior can be done in different ways. So it is from the EP 1 006 593 A1 known, on the inner plate with the So Lar lar interconnected connectors to arrange. At this Solution must, however, a corresponding opening in the inner plate be introduced, which is particularly the case with inner panels made of glass is expensive. DE 296 05 510 is a gat described plate-shaped solar module in which the connection boxes electrically connected to the solar cells bel in an outside of the panel structure, arranged on its edge  Insulation sleeve are performed. The insulating sleeve is formed at its ends as a socket or as a plug and can be connected to neighboring solar modules. Au In addition, the insulating sleeve takes one to the connection cables allel switched bypass diode.

However, with both solutions described there is a risk that that under the conditions prevailing on construction sites damaging the pane connection outstanding connecting elements can be damaged. The attached to an outer edge final elements are when inserted into existing frame con structures often disruptive or prevent use due to of space entirely.

In contrast to the solutions with rigidly arranged on the outside closing elements, it is common to use the connecting cable as normal flexible cables using insulating sleeves through the spacer lead out. The flexible connection cables can be problematic matically in the rooms between photovoltaic insulating glass pane and the frame receiving it. per However, mecha is blemish in these constructions nically firm, strain-relieved and insulated attachment of the An end cable, the seal at the bushing point and the housing of the bypass diode.

It is therefore an object of the invention to provide a photovoltaic insulation Laminated glass pane without arranged outside the pane assembly Nete connecting components to create, where the flexible to end cable safely relieved of strain and elec can be led out isolated from the outside as well as a unproblematic sealing in the area of the cable entry is possible.

This task is accomplished through a photovoltaic insulating glass disc solved with the features of claim 1. before partial embodiments of the invention are in the Unteran sayings.  

The advantages of the invention are in particular that entire connection element including bypass diode in the circumferential spacer can be integrated so that we the one arranged in the interior of the window, still from the window outstanding rigid components are present. By the design according to claim 2 and 3 is in the closing element a sunk laying of the connection cable possible Lich. The arrangement of the bypass diode according to claim 4 enables easy replacement if they are defective, without that a large disassembly effort is required. The training the stop surfaces according to claim 5 serves the de Finished insertion of the connection element in the spacer ter and thus guarantees, among other things, a safe hand have the spacer in the manufacturing process.

An embodiment of the invention is in the drawing shown and is described in more detail below.

Show it

Fig. 1 shows a connection element in plan view

Fig. 2 shows a connection element in side view in section

Fig. 3 but a connector as in Fig. 2

Fig. 4 shows the edge structure of a photovoltaic insulating glass pane in the area of the junction

In the photovoltaic insulating glass pane according to the invention, the spacer 1 connecting the outer pane and the inner pane, not shown, is interrupted over a length of several centimeters. At this point, a connection element 2 , preferably made of insulating material, is arranged, the outer contour of which is essentially adapted to the cross section of the spacer 1 . With its lateral ends, the connecting element 2 is inserted into the spacer 1 formed from a hollow profile. For this purpose, the closing element 2 is adapted at its ends to the insertion depth accordingly the inner cross section of the spacer 1 . A defined insertion is guaranteed by the trained stop surfaces 10 .

The connection lugs 12 of the solar cells, not shown, in the space between the panes in the vicinity of the connection element 2 . There they are soldered to the uninsulated ends of the connecting cables 5 . The uninsulated ends of the connecting cable 5 are guided through cable bushings 11 from the space between the panes into the connecting element 2 . In this area, a recess 7 is formed, in which the bypass diode 8 is housed un and the connecting wires are soldered to the connecting cables 5 . The connecting cables 5 are through the Ka cable bushings 4 back inwards and through the cable bushings 3 back to the outside. This looping laying method ensures safe strain relief. The sack groove-shaped recesses 6 and 9 made possible advantageously a sunk in the connecting element 2 Verle gene of the connecting cable 5th

Spacer 1 , with integrated connection element 2 , is now glued to the outer pane and inner pane with permanently elastic adhesive. Advantageously, the umlau fende spacer 1 is dimensioned so that it is slightly offset towards the space between the panes. The resulting circumferential space can thus advantageously be filled with elastic sealing compound.

To replace a defective bypass diode 8 connected in parallel with the connecting cables 5 , the sealing compound need only be removed in the area of the recess 7 . A simple refilling with sealing compound ensures the further tightness of the photovoltaic insulating glass pane.

LIST OF REFERENCE NUMBERS

1

spacer

2

connecting element

3

Cable glands

4

Cable glands

5

cable

6

recesses

7

recess

8th

Bypass diode

9

recesses

10

stop surfaces

11

Cable glands

12

terminal lugs

Claims (5)

1. Photovoltaic insulating glass pane consisting of at least one outer pane facing the incident light and a spaced-apart inner pane forming a space between the panes, with a rim structure sealingly connecting the two panes, which is connected to the panes by means of a permanently elastic adhesive, from one Hollow profile formed spacers be, and in the pane space, the incident light and interconnected solar cells are arranged, of which common connection cable iso liert and sealed lead from the space between the panes to the outside, characterized in that the circumferentially arranged in the edge area of the pane composite Holder ( 1 ) is broken for a length of several centimeters, and at this point a connection element ( 2 ), preferably made of insulating material, is arranged, which has the inner cross at its lateral ends in the outer contour section of the spacer (1) adapted and article holder with these lateral ends in the hollow profile of Ab (1) is inserted, and thus the two En the linking of the spacer (1), and that in the spacer (1) cable bushings (11) to lead out the connection cables ( 5 ) and cable bushings ( 3 ; 4 ) are designed to lay the connecting cables ( 5 ) with a reduced load. 2. Photovoltaic insulating glass pane according to claim 1, characterized in that the cable bushings ( 3 , 4 ) on the side facing the pane space on the connecting element ( 2 ) for the purpose of recessed laying of the connecting cable ( 5 ) each by a sack groove-shaped cutout ( 6 ) are connected. 3. Photovoltaic insulating glass pane according to claim 1 or 2, characterized in that the cable bushings ( 4 ) and ( 11 ) on the outwardly facing side of the connection element ( 2 ) for the purpose of sunken laying of the connecting cable ( 5 ) each by a sack groove-shaped savings ( 9 ) are connected. 4. Photovoltaic insulating glass pane according to one of the claims 1 to 3, characterized in that between the cable bushings ( 4 ) a recess ( 7 ) for receiving a bypass diode ( 8 ) is formed. 5. Photovoltaic insulating glass pane according to one of the claims 1 to 4, characterized in that the closing element ( 2 ) has stop surfaces ( 10 ) for defined insertion into the spacer ( 1 ).