DE10055617B4 - Photovoltaic insulating glass pane with bypass diode inside a connection element in circumferentially arranged spacer - Google Patents

Abstract

photovoltaic Insulating glass pane, consisting of at least one of the incident Light-facing outer pane and one spaced therefrom, forming a disc space Inner pane, with an edge structure which tightly connects both panes, which one with the discs by means of a permanently elastic Adhesive connected, formed from a hollow profile spacers exists, and where in the space between the panes, the incoming light facing and interconnected, arranged solar cells are isolated from which common connection cables and sealed from the space between the panes lead to the outside, with the edge area the disk composite circumferentially arranged spacers on a length of several centimeters is interrupted, and at this point a connecting element is arranged, which at its lateral ends in the outer contour adapted to the inner cross section of the spacer and with these lateral Ends inserted into the hollow profile of the spacer, and thus connecting the two ends of the spacer, and being in the connecting element Cable glands to lead out the flexible connection cable and Cable glands are designed for zugentlasteten laying of these cables, thereby ...

Description

The Invention relates to an insulating glass pane according to the preamble of the claim, which for installation in facade glazing, windows, conservatories, glasshouses or the like is provided, and generated by the photovoltaic power can be. Such an insulating glass pane is for example from JP 11-340 494 A known.

Such photovoltaic insulating glass panes have at least one front pane and a rear pane spaced therefrom. By a between the discs, at the outer edges slightly offset inwardly, circumferentially arranged spacers a closed disc space is formed, in which the solar cells are arranged. Outer and inner pane are glued to the spacer with a permanently elastic sealant. The space formed by the slightly inwardly offset arrangement of the spacer is filled with permanently elastic sealant. The spacer is usually a hollow profile made of aluminum. The solar cells are preferably embedded in transparent casting resin, transparent composite foil or the like attached to one of the discs and electrically interconnected by means of a flat conductor. from the terminal lugs of the solar cell network leads connecting cables to the outside, where they can be connected to the connecting cables of other photovoltaic insulating glass panes. The lead out of the connection cable from the disc interior can be done in different ways. So it is from the EP 1 006 593 A1 known to arrange on the inner plate connected to the solar cell connectors. In this solution, however, a corresponding opening must be introduced into the inner plate, which is expensive especially for inner plates made of glass.

In the DE 296 055 10 U1 a generic plate-shaped solar module is described in which the electrically connected to the solar cells connecting cable are guided in an arranged outside of the plate assembly insulating sleeve. The insulating sleeve is formed at its ends as a socket or as a plug and can be interconnected with adjacent solar modules. In addition, the insulating sleeve takes on a parallel to the connecting cables bypass diode.

From the DE 296 07 069 U1 is a photovoltaic insulating glass is known in which the leading away from the photovoltaic element conductors are connected to rigid current feedthroughs (threaded bolt). These threaded bolts are fixed in a hole projecting through the spacer by screwing and thus protrude as a rigid component disturbing out of the disk assembly out.

at the solutions described However, there is a risk that under The conditions prevailing on construction sites from the composite disc outstanding connection elements to be damaged can. The on an outer edge attached connection elements are often disturbing or prevent when inserting into existing frame structures the use due to the space completely.

In JP 11-340 494 A describes a generic solar module, in which the spacer is interrupted to a certain length, and in This area a connector inserted is, through which flexible connection cable are led to the outside. A disadvantage of this solution is, however, that the Connection cable obviously already in the production of the connection element inseparable in this must be fixed.

It is therefore an object of the invention, a photovoltaic insulating glass pane without outside of To create laminated composite arranged rigid connection components, in the integrated in the spacer housing a later accessible again and thus replaceable bypass diode is possible, the contacting the bypass diode with the flexible connection cables as well as the bushing and strain-relieved fastening of the connecting cables constructively and technologically simply guaranteed should be.

These Task is by a photovoltaic insulating glass pane with the Characteristics of the claim solved.

The Advantages of the invention are in particular that the entire Connecting element, including Bypass diode to be integrated into the circumferential spacer can, so that neither arranged in the disk interior, still outstanding from the disk composite rigid components are present. Arranging the bypass diode in one from the outside accessible Cavity allows for the defect of a simple replacement, without a large disassembly effort required is.

One embodiment The invention is illustrated in the drawing and will be described below described in more detail.

It demonstrate

1 a connection element in the plan view

2 a connection element in the side view in section

3 a connection element as in 2 but stocked

4 the edge structure of a photovoltaic insulating glass pane in the region of the connection point

In the case of the photovoltaic insulating glass pane according to the invention, a spacer (not shown) is spaced apart from the outer pane and inner pane (not shown) 1 interrupted by a length of several centimeters. At this point is a preferably made of insulating connecting element 2 arranged, which in its outer contour substantially the cross section of the spacer 1 is adapted. With its lateral ends, the connecting element 2 in the spacer formed from a hollow profile 1 , This is the connection element 2 at its ends the insertion depth corresponding to the inner cross section of the spacer 1 customized. A defined insertion is made by the trained stop surfaces 10 guaranteed.

terminal lugs 12 the solar cells, not shown, end in the space between the panes in the vicinity of the connecting element 2 , There they are with the uninsulated ends of connection cables 5 soldered. The uninsulated ends of the connection cables 5 be through cable glands 11 from the space between the panes in the connecting element 2 guided. In this area is a recess 7 formed, in which a bypass diode 8th is housed and their connecting wires to the connecting cables 5 are soldered. The connection cables 5 are through the cable glands 4 back in and through the cable glands 3 relocated to the outside. This wrap-around way of laying a secure strain relief is guaranteed. The bag-shaped recesses 6 and 9 allow advantageous one in the connection element 2 recessed laying of the connection cable 5 ,

The spacer 1 , with integrated connection element 2 is now glued with permanently elastic adhesive to the outer pane and inner pane. Advantageously, the circumferential spacer 1 dimensioned so that it is slightly offset from the space between the discs. Thus, the resulting circumferential space can be advantageously filled with permanently elastic sealant.

To replace a defective, parallel to the connecting cables 5 switched bypass diode 8th needs the sealant only in the area of the recess 7 to be removed. A simple refilling with sealant ensures the further tightness of the photovoltaic insulating glass pane.

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 (1)

Photovoltaic insulating glass pane, comprising at least one outer pane facing the incident light and an inner pane forming a space between the panes and an inner pane sealingly connected to both panes, which consists of a spacer made of a hollow profile connected to the panes by means of a permanently elastic adhesive, and wherein in the space between the panes, facing the incident light and interconnected, solar cells are arranged, of which common connection cables lead out and sealed from the space between the panes to the outside, wherein in the edge region of the disc composite circumferentially spaced spacers is interrupted over a length of several centimeters, and at this point, a connecting element is arranged, which adapted at its lateral ends in the outer contour of the inner cross section of the spacer and with these lateral ends in the hollow section d it is inserted spacers, and thus connects the two ends of the spacer, and wherein in the connecting element cable ducts for taking out the flexible connecting cable and cable bushings for zugentlasteten laying of these connecting cables are formed, characterized in that in the connecting element ( 2 ), an outwardly open recess ( 7 ) for receiving a bypass diode ( 8th ), the bypass diode ( 8th ) within the connection element ( 2 ) with the connecting cables ( 5 ), and the recess ( 7 ) is filled with a sealant.