DE202008006120U1 - Junction box for placement on a module - Google Patents

Abstract

junction box (10) for mounting on a module, in particular on a solar module (11), comprising a first opening (21) for a Supply line (22) and a second opening for a connecting line (28) of the module, which has a first upper Material layer (12) and a lower second material layer (13) and at least one electrical connection line (28) between the first and second material layer (12, 13), wherein one over the other arranged edge regions of the first and second material layers (12, 13) form a module edge (R) and the connection line (28) module edge between the material layers (12, 13) emerges, characterized in that the junction box (10) a the exit area of the connecting cable (28) on the module edge (R) overlapping lip (26) is formed and the connecting lead (28) between the lip (26) and the module edge (R) in the junction box (10) is guided.

Description

The Invention relates to a junction box for mounting on a module, in particular on a solar module, comprising a first opening for a supply line and a second opening for a connecting line of the module, which is a first upper material layer and a lower second material layer and at least an electrical connection line between the first and second Has material layer, wherein aligned superimposed edge regions the first and second material layer form a module edge and the Connection cable on the module edge exits between the material layers.

Such junction boxes are well known from the prior art in a variety of variations. As an example, here is the DE 10 2005 025 976 B4 called. This discloses a generic junction box and forms this with respect arranged within the junction box connection contacts.

generic Junction boxes usually comprise a can bottom part, which a chamber for receiving various functional parts such as Terminals or bridging diodes, ausbil det. The bottom part also has an opening in its underside, through which emerges from the back of a solar module Connecting lines are introduced into the chamber. At least another opening is for one with the module side Connecting line to be connected supply line provided. With its underside is the bottom part on the back attached to the solar module, usually glued. After equipping the Chamber with the various functional parts is the bottom part with a Cover closed.

solar Panels usually have a layered structure. An upper, protects the light incident facing clear material layer the underlying solar cells, which via connecting conductors with each other are coupled, from above. A lower material layer protects the solar cells below. Especially with crystalline solar modules, but even with thin-film modules is the introduction of openings in the modules for taking out the connection lines with high expenses connected.

task The invention is a junction box for particular Provide solar modules ready for their use, the introduction a connection line outlet opening in a material layer of the Module is not necessary.

Solved The task is accomplished by a junction box with the characteristics of Main claim, in particular with the characteristics of the characterizing part, after which the junction box a the exit area of the connecting cable forming on the edge of the module overlapping lip and the connecting cable between the lip and the edge of the module into the junction box is.

A particularly preferred embodiment is characterized characterized in that the lip covering the module edge forms a channel for insertion of the connecting cable.

The Insertion of channels in the lip has the essential Advantage that even thicker than the usual band-like Foil conductor can be guided into the box.

Around to improve the hold of the junction box on the module is provided that the lip surrounds the module edge and forms a retaining strip, which rests on the material layer, that of the junction box opposite material layer.

Manufacturing tolerances, that formed from the sum of the strength of the material layers Modulate module thickness can be compensated by the surfaces in contact with a material layer of the module the junction box are provided with a sealing material, in particular if the sealing material in the area of the retaining strip thickness tolerances of the module.

at a particularly advantageous embodiment is provided that the sealing material is an adhesive, by means of which the junction box can be fastened on the module.

Further Benefits and a better understanding of the invention result from the embodiment shown below. Show it:

1 an inventive junction box mounted on a solar module,

2 the junction box according to 1 in open condition,

3 a sectional view of the junction box and the solar module according to section line III-III in 2 ,

In the figures, a junction box for mounting on a solar module 11 total with the reference number 10 designated.

The solar module 11 includes a first upper layer of material 12 and a second, lower material layer 13 , Between the first material situation 12 and the second material layer 13 is at least one, the electricity producing intermediate layer 14 embedded. Every material situation 12 . 13 and the liner 14 have a layer thickness M, which together form the module thickness D. The first and second material situation 12 . 13 protect those in the liner 14 embedded components from damage.

In 1 is the view on the lower material layer 13 or on the back of the solar module 11 shown. On the lower material layer 13 , so the back of the solar module is the junction box 10 Captively applied by means of an adhesive. The junction box 10 includes a lid 15 and a bottom part 16 ,

The bottom part 16 (see in particular 2 ) forms a chamber 17 for receiving various functional elements, wherein as functional elements in the context of this application, the parts within the junction box 10 should be understood, which participate in the voltage from the solar panel into the electricity grid.

The chamber 17 is from an inner, to the lid 15 pointing collar 18 and a parallel outer collar 19 limited, the between them a circumferential annular gap 20 form. Inner and outer collar 17 . 18 are of cable entry openings 21 broken through which supply lines 22 in the chamber 17 the junction box 10 are guided. About the supply lines 22 becomes the of the solar module 11 produced electricity, possibly via other facilities, fed into an electricity grid.

The outer collar 19 has tab guides on two opposite outer sides 23 on, that of tool engagement holes 24 are broken. Inside one of the flap guides 23 limited space are each two wedge-shaped locking projections 25 arranged.

The bottom part continues to form a lip 26 from which the edge of the solar module 11 partially or completely covered. The in 1 illustrated lid 15 has locking tabs 27 on, in the closed state of the junction box, so if the lid 15 on the bottom part 16 rests, the locking projections 25 engage behind.

In 3 is a sectional view through the closed junction box 10 according to the section line III-III in 2 shown. The aligned superimposed edge regions of the first and second layers of material 12 . 13 form a module edge R. From the module edge R occur connecting cables 28 from the liner 14 out.

The junction box 10 is on the back of the solar module 11 , ie on the lower material layer 13 applied. One from the bottom part 16 trained lip 26 engages over the module edge R preferably in the outlet region of the connecting lines 28 from the liner. The connecting cables 28 be between the inner surface 29 the lip 26 and the module edge into the chamber 17 the junction box 10 led to there with the supply line 22 to be contacted electrically.

The inner surface 29 the lip 26 can form connection line guide channels not shown in detail. This is particularly advantageous if the connecting lines 28 exceed a certain thickness of material, not by serving as a sealing material adhesive, with which the junction box 10 on the solar module 11 is fixed, can be compensated.

In one embodiment, not shown engages around the lip 26 the module edge R in about hook-like and forms a retaining strip, which on the material layer 12 comes to the plant. This improves the hold of the junction box 10 on the solar module 11 ,

Tolerances in the thickness D of the solar module 11 can be compensated in this embodiment by a sealing material, in particular by the adhesive for fixing the junction box 10 on the solar module 11 ,

This junction box is preferred on dam film solar modules 11 arranged, but also in the field of crystalline solar modules 11 the use is conceivable. Crystalline solar modules 11 characterized by the fact that the first material layer 12 and the second material situation 13 consist of a crystalline material, in particular of glass. In both types of modules, there is the significant advantage that the material layer 12 or 13 does not have to be provided in a complex manner with an opening through which the connecting cables 28 be led to the can.

10

junction box

11

solar module

12

first, upper material layer of 11

13

second, lower material layer of 11

14

liner

15

cover

16

the bottom part

17

chamber

18

internal collar

19

outer collar

20

annular gap

21

Cable management slot

22

supply lines

23

Lasch guides

24

Tool engagement openings

25

wedge-shaped latching projections

26

lip

27

locking tabs

28

connecting cables

29

Inside surface of 26

M

layer thickness

D

module thickness

R

module edge

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• DE 102005025976 B4 [0002]

Claims (6)

Junction box ( 10 ) for arrangement on a module, in particular on a solar module ( 11 ), comprising a first opening ( 21 ) for a supply line ( 22 ) and a second opening for a connecting line ( 28 ) of the module, which has a first upper material layer ( 12 ) and a lower second material layer ( 13 ) and at least one electrical connection line ( 28 ) between the first and second material layers ( 12 . 13 ), wherein aligned superimposed edge regions of the first and second material layers ( 12 . 13 ) form a module edge (R) and the connecting line ( 28 ) module edge side between the material layers ( 12 . 13 ), characterized in that the junction box ( 10 ) one the exit area of the connecting line ( 28 ) at the module edge (R) overlapping lip ( 26 ) and the connecting line ( 28 ) between the lip ( 26 ) and the module edge (R) in the junction box ( 10 ) is guided. Junction box according to Claim 1, characterized in that the lip covering the module edge (R) ( 26 ) a channel for insertion of the connecting line ( 28 ) trains. Junction box according to claim 1 or 2, characterized in that the lip ( 26 ) surrounds the module edge (R) and forms a retaining strip, which rests on the material layer which is opposite to the material layer which supports the connection box. Junction box according to one of the preceding claims, characterized in that the surfaces of the junction box which are in contact with a material layer of the module ( 10 ) are provided with a sealing material. Junction box according to Claims 3 and 4, characterized that the sealing material in the area of the retaining strip thickness tolerances of the module. Junction box according to one of claims 3 to 5, characterized in that the sealing material is an adhesive, by means of which the junction box ( 10 ) is fastened on the module.