DE102021132581A1 - solar panel - Google Patents

Abstract

The invention relates to a solar module, comprising - a solar module laminate (1) with a front side (11) and a rear side (12) and laminate edges, and - at least one elongated reinforcing strut (2) which extends over the solar module laminate between opposite laminate edge sections and has optically transparent sections at least in sections.Furthermore, the invention relates to a solar module, comprising- a solar module laminate (1) with a front side (11) and a rear side (12) and laminate edges, and- at least one laminate edge section between opposite one another via the Cylindrical reinforcement strut (2) extending solar module laminate.

Description

The invention relates to a solar module. More particularly, the invention relates to a solar module that includes a solar module laminate having a front face and a back face and laminate edges, and at least one elongate reinforcing brace extending across the solar module laminate between opposing laminate edge portions. The front side represents a side facing the sun, ie the primary light incidence side of the solar module laminate, while the rear side represents a side of the solar module laminate that is opposite the front side and is averted from the sun. Solar cells are encapsulated between the front side and the back side of the solar module laminate and are designed to utilize incident light and convert it into electrical energy.

Such a solar module is in 1 shown. It has a solar module laminate 1 with a front side 11 and a back side 12 and laminate edges (not shown). The solar module also has an elongate reinforcing strut 2 which extends across the solar module laminate between opposite laminate edge sections. The reinforcing bar 2 is made of metal and formed with an H-shaped cross section. It is arranged on the rear side 12, which represents the side of the solar module laminate that faces away from the sun. Furthermore, a connection box 3 with an electrical cable 4 is arranged on the rear side 12 . A light incidence acting on the reinforcement strut 2 is indicated by arrows. The light cannot pass through the reinforcing strut 2 but is reflected by it.

The reinforcement strut therefore shades the rear of the solar module in sections. In the case of a monofacial solar module that is designed to exclusively use the direct incidence of light on the front side, shading does not play a significant role. In the case of a bifacial solar module that is designed to use both the direct incidence of light on the front side and the indirect incidence of light on the back, the shading of the reinforcement strut reduces the efficiency of the bifacial solar module.

It is an object of the present invention to provide a solar module, in particular a bifacial solar module, with an optimized degree of efficiency.

According to the invention, the object is achieved by a solar module having the features of patent claim 1 and by a solar module having the features of patent claim 8 . Advantageous developments and modifications are specified in the dependent claims.

The solar modules have at least one reinforcement strut, which causes less shading on the back. In one variant, this effect is achieved by sections of the reinforcing strut that are transparent to visible light.
In an alternative variant, this is achieved by a cross-section of the reinforcement strut that causes less shading in comparison to conventional reinforcement strut cross-sections.

• - ein Solarmodullaminat mit einer Frontseite und einer Rückseite und Laminatkanten, und
• - mindestens eine langgestreckte Verstärkungsstrebe, die sich zwischen einander gegenüberliegenden Laminatkanten-Abschnitten über das Solarmodullaminat erstreckt und zumindest abschnittsweise optisch transparente Abschnitte aufweist.

In one variant, the invention relates to a solar module

• - a solar module laminate with a front side and a back side and laminate edges, and
• - At least one elongate reinforcement strut, which extends over the solar module laminate between mutually opposite laminate edge sections and has optically transparent sections at least in sections.

The wording "optically transparent sections" means that the sections have >10% transmission for the wavelengths relevant to solar cells. The optically transparent sections preferably have >20% or >50% transmission for the wavelengths that are decisive for solar cells. Solar cells can utilize almost the entire spectrum of sunlight, but to a different extent. The wavelengths relevant to most solar cells range from the infrared range, which is invisible to the human eye, to the blue range that is still visible. The wavelengths are preferably in the range from 350 to 1200 nm.

The solar module laminate can have any shape, for example circular. The solar module laminate preferably has a rectangular shape.

In a preferred embodiment, the optically transparent portions are formed from an optically transparent polymer, glass, or air. The transparent polymer is, for example, acrylic. The glass or the optically transparent polymer can be designed as a profile structure.

The at least one elongate reinforcement strut preferably also has semitransparent and/or opaque structural elements. The semi-transparent and/or opaque structural elements serve to further stabilize the reinforcing strut.

The semitransparent and/or opaque structural elements are preferably incorporated into the optically transparent pension sections embedded. For example, the semitransparent and/or opaque structural elements are embedded in glass or the optically transparent polymer and serve to further stabilize these optically transparent materials.

Alternatively, the semitransparent and/or opaque structure elements preferably form a matrix for the optically transparent sections. In this case, the optically transparent sections are formed by means of the ambient air that surrounds the semi-transparent and/or opaque structure elements.

In a preferred embodiment, the semi-transparent and/or opaque structural elements are formed in the form of a lattice and/or honeycomb. These shapes are suitable for stabilizing the optically transparent sections.

The semi-transparent and/or opaque structural elements are preferably of cylindrical design. As a result, they cause less shading compared to other cross-sectional profiles.

The at least one elongate reinforcement strut is preferably formed from an optically transparent solid material. For example, the elongate reinforcing strut is formed from glass or from a transparent polymer such as acrylic.

• - ein Solarmodullaminat mit einer Frontseite und einer Rückseite und Laminatkanten, und
• - mindestens eine sich zwischen einander gegenüberliegenden Laminatkanten-Abschnitten über das Solarmodullaminat erstreckende zylinderförmige Verstärkungsstrebe.

In a further variant, the invention relates to a solar module comprising

• - a solar module laminate with a front side and a back side and laminate edges, and
• - at least one cylindrical reinforcement strut extending over the solar module laminate between mutually opposite laminate edge sections.

The reinforcing strut is cylindrical and therefore has a circular cross-section. If the reinforcement strut is made of an opaque material, it causes 1/3 less shading of the rear side compared to a corresponding reinforcement strut made of an opaque material with a rectangular, in particular a square cross-section. The shading is therefore much less and the efficiency of the solar module is correspondingly higher.

In a preferred embodiment, the reinforcing strut is made of metal according to the further variant. A metal strut provides good reinforcement of the solar module laminate due to its stability.

The at least one elongated reinforcement strut is preferably arranged in a central region of the solar module laminate between the laminate edge sections lying opposite one another. As a result, the solar module laminate is mechanically stabilized as best as possible.

This solar module is also preferably designed as a bifacial solar module.

The at least one reinforcement strut is preferably connected to the solar module laminate. For example, the at least one reinforcement strut is glued to the solar module laminate.

The solar module can also have a solar module frame that supports the solar module laminate at the laminate edges. The at least one reinforcement strut can be part of the solar module frame. The solar module frame is preferably part of the solar module if the solar module laminate has a plastic film as the rear and/or front side encapsulation element.

• 1 eine Teil-Querschnittsansicht eines Solarmoduls gemäß dem Stand der Technik;
• 2 eine Teil-Querschnittsansicht eines Solarmoduls gemäß einer ersten Ausführungsform;
• 3 eine Teil-Querschnittsansicht eines Solarmoduls gemäß einer zweiten Ausführungsform;
• 4 eine Draufsicht auf eine Verstärkungsstrebe;
• 5 eine Draufsicht auf eine weitere Verstärkungsstrebe;
• 6 eine Draufsicht auf eine weitere Verstärkungsstrebe;
• 7 eine Teil-Draufsicht auf ein Solarmodul gemäß einer dritten Ausführungsform; und
• 8 eine Teil-Querschnittsansicht eines Solarmoduls gemäß der dritten Ausführungsform.

The invention is explained below using exemplary embodiments with reference to the figures. Here are shown schematically and not to scale:

• 1 a partial cross-sectional view of a solar module according to the prior art;
• 2 a partial cross-sectional view of a solar module according to a first embodiment;
• 3 a partial cross-sectional view of a solar module according to a second embodiment;
• 4 a plan view of a reinforcing strut;
• 5 a plan view of a further reinforcing strut;
• 6 a plan view of a further reinforcing strut;
• 7 a partial plan view of a solar module according to a third embodiment; and
• 8th a partial cross-sectional view of a solar module according to the third embodiment.

1 shows a partial cross-sectional view of a solar module according to the prior art. To describe the in 1 solar module shown, reference is made to the introduction to the description.

2 shows a partial cross-sectional view of a solar module according to a first embodiment. This in 2 The solar module shown corresponds to that in 1 Solar module shown with the difference that instead of the elongated trained with H-shaped cross-sectional profile amplifier Kung strut made of metal has a reinforcing strut 2, which has at least partially optically transparent sections and which is formed with a rectangular cross section. The elongated reinforcement strut 2 has semi-transparent and/or opaque structural elements 21 which are embedded in the optically transparent sections. The optically transparent sections are formed from an optically transparent material such as glass or a transparent polymer. The incidence of light is indicated by an arrow. The incident light can pass through the optically transparent reinforcing strut 2 and be utilized by solar cells (not shown) encapsulated in the solar module laminate.

3 shows a partial cross-sectional view of a solar module according to a second embodiment. This in 3 The solar module shown corresponds to that in 2 shown solar module with the difference that the reinforcing strut 2 is formed from an optically transparent solid material such as glass or acrylic polymer, ie it has no semi-transparent and / or opaque structural elements. Here, a large part of the light can pass through the optically transparent material and penetrate to the solar cells in the solar module laminate.

4 shows a plan view of a reinforcing strut. The reinforcement strut 2 is a reinforcement strut, for example in 2 shown solar module can be used. The reinforcement strut 2 has semi-transparent and/or opaque structural elements 21 and optically transparent regions 22 arranged in between. The semi-transparent and/or opaque structural elements 21 are embodied in the form of a grid. The transparent areas 22 are formed from a transparent material. This optically transparent material can be a solid, a liquid or a gas mixture.

5 shows a plan view of a further reinforcement strut. In the 5 Reinforcement strut 2 shown corresponds to that in 4 shown reinforcing strut with the difference that the semi-transparent and / or opaque structure elements 21 are formed in a modified lattice shape.

6 Figure 12 shows a plan view of yet another reinforcing strut. In the 6 Reinforcement strut 2 shown corresponds to that in 4 shown reinforcement strut with the difference that the semi-transparent and / or opaque structural elements 21 are formed honeycomb.

7 shows a partial plan view of a solar module according to a third embodiment. This in 7 The solar module shown has a solar module laminate 1 with a front side 11, a rear side 12 and laminate edges 13 and a cylindrical reinforcing strut 2 extending over the solar module laminate 1 between mutually opposite laminate edge sections.

8th 12 shows a partial cross-sectional view of a solar module according to the third embodiment. This in 8th The solar module shown corresponds to that in 1 shown solar module with the difference that instead of the reinforcing strut with an H-shaped cross-section, it has the in 7 shown cylindrical reinforcing strut 2 having a circular cross section.

Reference List

1

solar panel laminate

11

front

12

back

13

laminate edge

2

reinforcement brace

21

semi-transparent structural element

22

transparent area

3

junction box

4

Cable

Claims (10)

solar module, comprising - A solar module laminate (1) with a front side (11) and a back side (12) and laminate edges, and - At least one elongate reinforcement strut (2) which extends over the solar module laminate (1) between mutually opposite laminate edge sections and has optically transparent sections at least in sections. solar panel after claim 1 , characterized in that the optically transparent sections are formed from an optically transparent polymer, glass or air. solar panel after claim 1 or 2 , characterized in that the at least one elongate reinforcement strut (2) also has semi-transparent and/or opaque structural elements (21). solar panel after claim 3 , characterized in that the semi-transparent and / or opaque structural elements (21) are embedded in the optically transparent sections or that the semi-transparent and / or opaque Structural elements (21) form a matrix for the optically transparent sections. solar panel after claim 3 , characterized in that the semi-transparent and/or opaque structural elements (21) are formed in the form of a lattice and/or honeycomb. Solar panel according to one of claims 3 until 5 , characterized in that the semi-transparent and / or opaque structure elements (21) are cylindrical. solar panel after claim 1 or 2 , characterized in that the at least one elongate reinforcing strut (2) is formed from an optically transparent solid material. solar module, comprising - A solar module laminate (1) with a front side (11) and a back side (12) and laminate edges (13), and - at least one cylindrical reinforcing strut (2) extending between opposite laminate edge sections over the solar module laminate (1). solar panel after claim 8 , characterized in that the at least one reinforcing strut (2) is made of metal. Solar module according to one of the preceding claims, characterized in that the at least one elongate reinforcing strut (2) is arranged in a central area of the solar module laminate between the opposite laminate edge sections.

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