DE202012100662U1 - Solar module with connection elements - Google Patents

Abstract

Solar module (1) having a module surface (2) and an at least partially hollow frame profile (6) for receiving the module surface (2), wherein the frame profile (6) has a module surface (2) laterally comprehensive side wall (8) having a connection surface when joining at least two solar modules (1, 100) forms, and with at least two connection elements (10, 20) for a cable connection for electrical contacting of at least two solar modules (1, 100), wherein at least one connecting element (10) with a positive and at least one connection element (20) is electrically conductively connected to a negative inner cable line of the solar module (1), characterized in that the side wall (8) is provided with at least one recess (9) for receiving the connection element (10), wherein the side wall (8) of the second solar module (100) also at the first solar module (1) opposite point with a recess (90) for receiving the korrespondie provided connecting element (20), so that when joining the two solar modules (1, 100), the two connection elements (10, 20) are electrically connected together.

Description

The invention relates to a solar module and a frame profile for a solar module with at least two connection elements for electrically contacting a solar module with a second solar module, wherein at least one connection element is electrically connected to a positive and at least one connection element with a negative inner cable line of the solar module.

A solar module or a photovoltaic module converts the sun's light directly into electrical energy. The module consists of solar cells, which are interconnected. Solar modules are available in flexible and rigid versions. Rigid solar modules usually consist of silicon-based solar cells and the solar cells are protected by the module against environmental influences such as rain and hail. Flexible solar cells are based on organic materials and are preferably used in the mobile sector.

In a photovoltaic system, the solar modules are interconnected individually or as groups and the power generated is then fed into the grid. The totality of all modules of a photovoltaic system is called photovoltaic generator or solar generator. In this case, photovoltaic systems can have one or more photovoltaic generators.

In addition to the characteristic curve (current / voltage) of the solar cells themselves, the mechanical structure of a solar module is significant for the life and efficiency of a solar module. Thus, a transparent, radiation and weather-resistant cover is important to protect the solar cells from mechanical influences. In addition, there should be robust electrical connections, which in turn must be protected from moisture. This also applies to the solar cells themselves. In addition, the solar module must have sufficient handling and mounting options.

A typical rigid solar module therefore consists of a glass pane facing the sun. Under the glass pane is a transparent plastic layer, in which the solar cells are embedded. These - either monocrystalline or polycrystalline - solar cells are electrically connected by solder strips. Then usually a back side lining is available from a weatherproof plastic composite film.

In addition, the solar module to protect the glass during transport, handling and installation on a roof or in the open field and for the attachment and stiffening of the composite is provided with a profile frame, which is usually made of aluminum. The frame provides sufficient stability to the module, so that it is not damaged by weather conditions such as rain and snow loads.

In order to combine several solar modules at the installation site to form a photovoltaic generator, the known solar modules of the various suppliers generally have a two-pole connection box on the back, via which an electrically conductive connection to the neighboring modules is produced. Here, the cables of the adjacent solar modules are connected to each other via a plug connection.

Disadvantages are the high wiring complexity during installation and the power losses due to the cable lengths and the high number of connectors, especially in larger photovoltaic systems. In addition, in extreme weather conditions, moisture can enter the cables as they are not protected from the environment. In addition, it often happens, especially in outdoor facilities, that martens bite or annoy the cables, which in addition to a failure of the system can also lead to dangerous short circuits and even to fire.

In the DE 20 2011 003 534 U1 a frame profile is described for a large-area solar module, which is characterized by a low weight and also has a high stability. However, there is no indication in this document as to how the problem of the electrical connection of the solar modules with one another could be solved by a suitable design of the frame profile.

The invention has for its object to provide a reduction in assembly costs and improve the electrical connection of solar modules with each other. In addition, the protection of the cable connections to the weather and marten bites should be increased.

This object is achieved in a solar module of the type mentioned by an at least partially hollow frame profile for receiving the module surface, in which the side wall is provided with at least one recess for receiving a connecting element for a cable connection for electrical contacting of at least two solar modules, wherein the side wall of the second solar module is also provided at the opposite side of the first solar module with a recess for receiving a corresponding connection element, so that when joining the two solar modules, the two connection elements are interconnected. In a solar module are at least two Connection elements for a cable connection for electrical contacting of at least two solar modules provided, wherein at least one connection element with a positive and at least one connection element is electrically connected to a negative inner cable line of the solar module. By pushing together or plugging the two solar modules via a plug or locking connection of the connection elements are electrically brought into contact with each other.

Since the connection elements are arranged within the frame profile of the solar module, the assembly effort can be significantly reduced. The assembly is simplified and also a faulty installation is no longer possible. By simply joining the solar modules, the solar connection cables are connected to each other. Advantageously, the solar connection cables are TYCO MC4 solar connection cables. The solar connection cables are located on the opposite sides of the frame profile of the solar module in each case in the same place, so that they are connected by pushing together, plugging or snapping and an electrical connection is made.

Since the connection elements and the cable lines are located within the frame profile, they are sufficiently protected against weather and environmental influences.

In an advantageous embodiment of the invention, the frame profiles are U-shaped, so that the required cavity for the accommodation of the connection elements is given.

In a further development of the frame profile but can also be provided to mold or install special accommodation spaces for the connection elements on the profile, so that other profile cross-sections are possible.

In particular, the frame is made of aluminum or an aluminum alloy because these materials are characterized by a low specific gravity and a high corrosion resistance.

In a further advantageous embodiment, a sealing element is provided which encloses the region of the connecting element of the solar connection cable and thus protects against the effects of weather such as moisture. The seal can be arranged in the frame profile. It is also conceivable, however, a seal which is mounted on the outer surface of the frame profile. Since the opposing connection element has a seal, meet when joining or mating of two adjacent solar modules, the two seals together and therefore provide adequate protection against weathering and corrosion.

In a further advantageous embodiment, at least one connecting element is provided with a spring element in order to simplify the merging of two connecting elements and in particular to compensate for inaccuracies in the production of the frame profile. In addition, tolerances can be compensated at the installation with respect to the height and the inclination of the solar modules, for example, unevenness of the roof surface on which the solar modules are mounted.

The spring may be formed as a conventional compression spring, which is arranged in the recess and is connected to the connection element of the solar connection cable. The suspension then allows a fault-tolerant pushing together of the solar modules and thus a simple construction of a photovoltaic generator.

Advantageously, the connection elements are designed as commercially available connectors such as a TYCO MC-4 solar connection cable. This allows a secure electrical contacting of the solar modules with each other.

In the following the invention will be described and explained with reference to an embodiment. In the drawing shows

1 Representation of interconnected solar modules according to the prior art,

2 Cross section of two adjacent solar modules with a frame profile according to the invention,

3 schematic representation of the assembly of two solar modules,

4 Top view of a solar module according to the invention,

1 shows three solar modules connected in series 1 According to the state of the art. The module area 2 is from a frame 3 usually consisting of four frame profiles, which are connected at the corners directly or via corner connectors. The frame profile may be, for example, an extruded profile. The material of the frame profile preferably aluminum or aluminum alloys are chosen because they are characterized by a low specific weight and high corrosion resistance.

The solar modules 1 are with a conventional cable connection 4 electrically connected to each other. At the cable connection 4 These are so-called solar cables, the 2-contact connector 5 be connected to each other. Not shown are the connection boxes of the cables to the solar modules, as they are located on the back of the module. Typically, solar modules have a width of 1000 mm at a height of 1700 mm, so that the required cable lengths for a solar generator are still considerable. In addition, the installation effort is very large, since the cables must be individually merged in the connectors. Furthermore, the cables 4 laid exposed so that they are exposed to weathering and possible marten attacks.

2 shows two solar modules 1 with a frame profile 6 according to the invention. The frame profile 6 is preferably formed as a U-shaped profile with two legs 7 and a floor covering the side wall 8th of the solar module 1 forms. But it can also be provided, in addition to a rather simple U-shaped profile other cross sections for the frame profile 6 to choose a suitable receptacle of the glass pane and the solar cells of the solar module 1 to enable.

The solar modules 1 be with their respective sidewalls 8th put together and then form in their entirety a solar generator. According to the invention, the side wall 8th with a recess 9 provided for receiving a connection element 10 for a solar cable 11 , In a U-shaped profile, the space for housing the connection element 10 and the cable 11 given by the cavity, with respect to its dimensioning to the dimensioning of the connection element 10 must be adjusted.

But it is also conceivable that in a non-U-shaped profile, a corresponding receiving space for the connection element 10 is provided, which is either formed on the profile or connected as a separate element with the frame profile. According to the invention it is provided that the connection elements 10 with the cable 11 within the frame profile 6 are arranged and no longer in the outer area of the solar module 1 , Preferably, the connection elements and the cables are conventionally used solar cables such. As a TYCO MC4 solar connection cable, as they are characterized by an easy-to-use latching connection.

To prevent penetration of liquid or other substances into the cavity of the frame profile 6 to prevent is a seal 12 between the connection element 10 and the edge surface of the recess 9 intended. Advantageously, the seal 12 ring-shaped.

How out 3 shows, is the counterpart 20 a connection element 10 at the corresponding corresponding location of the adjacent solar module 100 , The assembly of the solar modules 1 . 100 to a solar generator is thus considerably simplified, since the solar modules 1 . 100 by the mating or latching of the opposing connection elements 10 . 20 be brought into electrical contact with each other. This increases the security of the contact, as a faulty wiring is largely excluded.

In 4 is the whole frame 3 a solar module 1 with four connection elements 10 . 20 shown, each in the border areas 14 of the frame 3 are located. It is preferably provided that the connection elements 10 on one side of the solar module are formed as positive connection elements, while the connection elements 20 on the opposite side form the negative pole.

To manufacturing tolerances of the frame profile 6 or the connection elements 10 To be able to compensate itself, a spring, not shown here, is preferably provided, which is arranged in the frame and with the respective connection element 10 . 20 connected is. Preferably, this spring is designed as a compression spring and is when pushing together the solar modules 1 . 100 subjected to a force, so that a secure and stable contact of the connection elements 10 . 20 is ensured with each other.

Overall, the invention provides a solar module 1 created a simpler installation of the solar modules 1 . 100 enabled to a solar generator. In addition, the cables are protected in the frame profile and thus not exposed to the weather. This increases the life of the cables. In addition, martens now have hardly a chance to annoy the cables, since they are no longer freely accessible.

LIST OF REFERENCE NUMBERS

1

solar module

2

module area

3

frame

4

cable connection

5

connector

6

frame profile

7

leg

8th

Side wall

9

recess

10

connecting element

11

solar cable

12

poetry

14

border area

20

Connection element no. 2

90

Recess no. 2

100

Solar module no. 2

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 202011003534 U1 [0009]

Claims (11)

Solar module ( 1 ) with a module surface ( 2 ) and an at least partially hollow frame profile ( 6 ) for receiving the module surface ( 2 ), whereby the frame profile ( 6 ) one the module area ( 2 ) laterally comprehensive side wall ( 8th ), which has a connection surface when joining at least two solar modules ( 1 . 100 ), and with at least two connection elements ( 10 . 20 ) for a cable connection for the electrical contacting of at least two solar modules ( 1 . 100 ), wherein at least one connecting element ( 10 ) with a positive and at least one connecting element ( 20 ) with a negative inner cable line of the solar module ( 1 ) is electrically conductively connected, characterized in that the side wall ( 8th ) with at least one recess ( 9 ) for receiving the connecting element ( 10 ), the side wall ( 8th ) of the second solar module ( 100 ) also at the first solar module ( 1 ) opposite point with a recess ( 90 ) for receiving the corresponding connection element ( 20 ), so that when joining the two solar modules ( 1 . 100 ) the two connection elements ( 10 . 20 ) are electrically connected to each other. Solar module according to claim 1, characterized in that the frame profile ( 6 ) Is U-shaped. Solar module according to claim 1 or 2, characterized in that the frame profile ( 6 ) consists of aluminum or an aluminum alloy. Solar module according to one of claims 1 to 3, characterized in that the connection elements ( 10 . 20 ) within the cavity of the U-shaped profile ( 6 ) are arranged. Solar module according to one or more of claims 1 to 4, characterized in that the connection elements ( 10 . 20 ) are designed as plug-in connection or latching connection. Solar module according to one or more of claims 1 to 5, characterized in that as connecting elements ( 10 . 20 ) TYCO MC4 solar cable can be used. Solar module according to one or more of claims 1 to 6, characterized in that a seal ( 12 ) provided between the recess ( 9 ) and the connection element ( 10 . 20 ) is arranged. Solar module according to claim 7, characterized in that the seal ( 12 ) is annular. Solar module according to one or more of claims 1 to 8, characterized in that a spring element in the region of the connecting elements ( 10 . 20 ) is provided. Frame profile for a solar module, characterized in that the frame profile ( 6 ) is at least partially hollow-shaped and in the region of a side wall ( 8th ) at least one recess ( 9 ) for receiving a connection element ( 10 . 20 ) for the electrical contacting of at least two solar modules ( 1 . 100 ) having. Frame profile according to claim 10, characterized in that the frame profile ( 6 ) Is U-shaped.

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