WO2020079016A1

WO2020079016A1 - Mounting frame for a photovoltaic module

Info

Publication number: WO2020079016A1
Application number: PCT/EP2019/077998
Authority: WO
Inventors: Hans-Günther Böhme
Original assignee: Hanwha Q Cells Gmbh
Priority date: 2018-10-17
Filing date: 2019-10-15
Publication date: 2020-04-23
Also published as: DE102018125742A1

Abstract

A mounting frame (100) for a photovoltaic module (200) is disclosed. On one side, the mounting frame (100) comprises an integrated junction box (110) designed to electrically contact the photovoltaic module (200) in the mounting frame (100) by means of the junction box (110).

Description

Mounting frame for a photovoltaic module

The present invention relates to a mounting frame for a photovoltaic module and a method for contacting a photovoltaic module

BACKGROUND

Photovoltaic modules are connected to a holding structure, for example, by means of a frame and fastened to a surface by the holding structure. For this purpose, the frame has U-shaped recesses / grooves into which the photovoltaic module can be inserted or inserted.

In addition, the photovoltaic modules are electrically contacted by means of so-called junction boxes / junction boxes in order to discharge the generated electricity. The junction box is usually attached to the back of the photovoltaic module so that the area of light incidence is not restricted. However, photovoltaic modules are also used on both sides for power generation, so that the junction box partially covers valuable light incidence.

There is therefore a need for further connection options for photovoltaic modules that ensure reliable electrical contacting without covering potential light incidence surfaces.

Brief description of the invention

At least some of the problems mentioned are solved by a mounting frame according to claim 1 and a method for contacting a photovoltaic module according to claim 9. The dependent claims relate to further advantageous refinements of the subject matter of the independent claims.

Embodiments of the present invention relate to a fastening supply frame for a photovoltaic module, wherein the mounting frame has on one side an integrated junction box, which is designed to electrically contact the photovoltaic module in the mounting frame through the junction box. Optionally, the junction box comprises a housing and the fastening frame two holding sections, between which the housing is formed. The housing and the holding sections can be formed from the same material or from different materials. At least part of the housing together with the holding sections can form an integral component (made from one piece). For example, high stability can be achieved in this way. In addition, the housing of the junction box can be flush on at least one side with the holding sections. This offers the advantage that existing holding concepts can be used without modifications.

Optionally, the junction box comprises a housing with a groove shaped in the longitudinal direction and the fastening frame comprises a holding section which is partially formed in the groove and extends through the housing. According to this embodiment, the holding section need not be divided, so that greater stability is achieved. The junction box therefore only needs to be pushed onto the holding section. Optionally, the photovoltaic module includes exposed contact points on one surface (to discharge the current) and the junction box includes connection contacts (e.g. sliding contacts), so that the photovoltaic module can be electrically contacted by inserting it into the mounting frame or automatically contacted by the example sliding contacts. Optionally, the junction box comprises at least one sealing element in order to establish a tight connection between the photovoltaic module and the junction box after it has been inserted. The sealing element can, for example, comprise a sealing ring around the contact points. Embodiments also relate to a photovoltaic module with exposed contact points that are designed to contact contacts in a junction box of a mounting frame, as previously defined.

Exemplary embodiments also relate to a method for contacting a photovoltaic module by means of a junction box. According to the method, the photovoltaic module is contacted in the mounting frame as previously defined. Optionally, the contact is made automatically when the photovoltaic module is inserted via sliding contacts.

BRIEF DESCRIPTION OF THE FIGURES

The embodiments of the present invention are better understood from the following detailed description and the accompanying drawings, which, however, should not be construed to limit the disclosure to the specific embodiment, but are for explanation and understanding only.

Fig. 1 shows a mounting frame for a photovoltaic module according to

Embodiment of the present invention.

DETAILED DESCRIPTION

Fig. L shows an embodiment for a mounting frame 100 for a photovoltaic module 200. The mounting frame 100 can be used for mounting on a support or support structure (not shown). The mounting frame 100 comprises an integrated connection box 110 on one side, which is designed to make electrical contact with the photovoltaic module 200 in the mounting frame 100 through the connection box 110.

In addition, a number of contact areas 130 (for example in the form of sliding contacts) are provided in the junction box 110, for example. This contact areas can electrically contact contact points 230 of the photovoltaic module 200 when the photovoltaic module 200 is inserted. In the embodiment shown, the sliding contacts 130 are designed such that the photovoltaic module 200 automatically contacts them on the underside of the latter when it is inserted. In further exemplary embodiments, however, it is also possible for the contacting to take place on the top side or on both sides of the photovoltaic module 200. The contact from the bottom offers the advantage of better protection against moisture. However, if the photovoltaic module 200 is arranged (almost) vertically, the photovoltaic module can be electrically contacted from any side or on both sides.

On both sides of the junction box 110, one or more holding sections 120 are formed, which can extend, for example, around the photovoltaic module 200 in order to hold it along the circumference. The junction box 110 can, for example, have the same or a different material as the adjacent holding sections 120. For example, the holding sections 120 as well as the housing can be made of a fiber composite material or a similar insulating (plastic) material - as long as it offers sufficient hold for the photovoltaic module 200. A high degree of stability can be achieved in this way.

In further exemplary embodiments, the holding sections 120 are made of a metal (for example aluminum or steel), which are then attached to the junction box 110.

It is also possible for the junction box 110 to be pushed onto a continuously shaped holding section 120. For example, the junction box 110 can have a groove into which a flat metal piece of the holding section 120 is inserted. In addition, a stop can be provided so that the junction box 110 can no longer be pulled out after inserting the photovoltaic module 200.

In further exemplary embodiments, one or more sealing elements 140 can be provided, which reliably seal the electrical contacts 130, 230 provides. The sealing elements 140 can, for example, have a specific surface structure that prevents water or moisture from penetrating into the area between the photovoltaic module 200 and the junction box 110. It is also possible for the sealing elements 140 to have sealing rings made of rubber or a similar sealing material, which extend around the connection contacts 130 in the connection box 110.

Advantages of exemplary embodiments are, in particular, that the light incidence surfaces are used optimally and are not reduced by the connection box 110. Fast and automatic contacting when attaching the mounting frame is also possible.

The features of the invention disclosed in the description, the claims and the figures can be essential for realizing the invention both individually and in any combination.

REFERENCE SIGN LIST

100 mounting frames

110 junction box

120 holding sections

130 contacting areas (e.g. sliding contacts)

140 sealing element (e.g. sealing ring)

200 photovoltaic module

230 exposed contact points

Claims

EXPECTATIONS

1. fastening frame (100) for a photovoltaic module (200), wherein the fastening frame (100) on one side has an integrated junction box (110) which is designed to supply the photovoltaic module (200) in the fastening frame (100) to make electrical contact with the junction box (110).

2. Fastening frame (100) according to claim 1, wherein the junction box (110) comprises a housing and the fastening frame (100) has two holding sections (120), between which the housing is formed, the housing and the holding sections (120) is / are formed from the same material or from different materials.

3. Mounting frame (100) according to claim 2, wherein at least a part of the housing together with the holding sections (120) bil an integral component.

4. Mounting frame (100) according to claim 2 or claim 3, wherein the Ge housing of the junction box (110) on at least one side is flush with the holding sections (120).

5. The mounting frame (100) according to claim 1, wherein the junction box (110) comprises a housing with a longitudinally shaped groove and the mounting frame (100) comprises a holding section (120) which is partially formed in the groove and through which Housing extends.

6. Mounting frame (100) according to one of the preceding claims, wherein the photovoltaic module (200) on one surface side exposed de contact points (230) and the junction box (110) has contacting areas (130), so that the photovoltaic module (200) by insertion is automatically electrically contactable in the mounting frame (100).

7. mounting frame (100) according to any one of the preceding claims, wherein the junction box (110) has a sealing element (140) in order to produce a tight connection between the photovoltaic module (200) and the junction box (110) after its insertion.

8. photovoltaic module (200) with outwardly exposed contact points (230) which are designed to contact the fastening frame according to one of claims 1 to 7 during insertion.

9. The method for contacting a photovoltaic module (200) according to claim 8 by means of a junction box (110), with:

Inserting the photovoltaic module (200) into a mounting frame (100) according to one of claims 1 to 7;

Establishing an electrical contact between the exposed contact points (230) of the photovoltaic module (200) with sliding contacts (130) which are formed in the junction box (110).

10. The method according to claim 9, wherein the making of the electrical contact occurs automatically during the insertion of the photovoltaic module (200).