JP2000068543A - Solar cell module - Google Patents

Abstract

PROBLEM TO BE SOLVED: To allow low-cost manufacturing and easy filing of material for good fluidity, for improved yield of a finished product by using a hot-melt board resin material as the filling material. SOLUTION: A hot-melt based resin material whose main component is either ethylene vinyl acetate copolymer (EVA). Polypropylene(PP), or polyamide(PA) is used as an output hole filling material 5 of an output hole 4 of a substrate- type solar cell module or as a filling material constituting a resin cover 4' formed, by coating, around the drawn-out part of a conductive wire 8 a super- straight-type solar cell module. Here, since any hot-melt based resin material whose main component is EVA, PP, or PA material has theremo-plastic property, form-correction after filling is easy, while damage to a peripheral solar cell element constitution material of peeling/falling of the filling material is prevented.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a solar cell module of a superstrate type and a substrate type, in which a conductor for output is led out from one end of the solar cell module, or a conductor in a substrate type solar cell module. The present invention relates to an output hole portion formed in a substrate that is inserted and led out.

[0002]

2. Description of the Related Art FIG. 1 shows an example of a typical substrate type solar cell module. A plurality of solar cell elements 1 are electrically connected via an interconnector 2, and an end of a solar cell element row 10 is shown. Is connected to a terminal plate 3 for taking out electric power, and a lead wire connected to the terminal plate 3 is inserted into an output hole 4 formed in a substrate 6. The power is led out to the side opposite to the light receiving surface of the solar cell module to extract power. The output hole 4 formed in the substrate 6 from which the conductor 8 is inserted and led out is provided with an output hole filling material 5.
Is filled.

FIG. 2 shows an example of a typical superstrate type solar cell module, in which a plurality of solar cell elements 1 are electrically connected via an interconnector 2, and Filling material (output terminal formation) is provided around the lead-out portion of the conductor 8 derived from the connection portion 3 ′ in which the end of the interconnector 2 connected to the located solar cell element 1 is electrically connected to the conductor. Lumber 5
The resin cover 4 ′ covered by ′) is formed.

Conventionally, the output hole filling material 5 for the output hole 4 in the above-mentioned substrate type solar cell module.
And a resin cover 4 formed around the lead-out portion of the conducting wire 8 of the super straight type solar cell module.
As the output terminal forming material 5 'used for low temperature, low flow silicone or epoxy resin material is used.

[Problems to be solved by the invention]

However, the filling materials used in these conventional methods have the following problems. That is, low-flow silicone has poor flowability due to low flowability, and has a problem that workability is poor at the time of filling into an output hole, and its curing time is generally as long as 24 hours or more, which increases the work cost. Further, in the case where the hardness after the curing is relatively high, when a slight movement such as pulling of the conductor for outputting electric power occurs when the solar cell module is installed, the conductor and the cured filling material are used. There is a problem in that a gap is formed between the solar cell modules, or the hardened filler material falls off from the output holes of the substrate type solar cell module, resulting in deterioration of the waterproof and moisture-proof performance of the solar cell module.

In addition, when an epoxy resin material is used as a filling material, its hardness is generally large, and the substrate or transparent filler in a substrate type solar cell module to which the epoxy resin material adheres, or a superstrate type solar cell module is used. Due to the difference in thermal expansion coefficient between the transparent filler and the transparent filler in the battery module, the peeling of the filler layer caused by the stress between the two materials causes the waterproof and moisture-proof performance of the solar cell module to deteriorate, and in some cases, There is a problem of causing breakage such as cracking of an adjacent solar cell element or the like. Furthermore, since the epoxy resin material is a thermosetting material, if it is cured once even during the manufacturing process, there is also a problem that it is not easy to correct, for example, the direction in which the output conductor is taken out.

[0007]

SUMMARY OF THE INVENTION In order to solve the above-mentioned problems of the conventional method, the present invention relates to a method of connecting a lead wire connected to a terminal plate of a substrate type solar cell module to a light receiving surface of the solar cell module. A resin cover formed as a filling material to be filled in an output hole formed in a substrate, or for covering around a lead-out portion of a lead in a super-straight type solar cell module, to be inserted when being led out to the opposite side. As a filling material used for the solar cell module, it has good flowability due to its good fluidity, and it can be used as a transparent filler and conductive wire for solar cell modules, as well as substrates for substrate-type solar cell modules, such as the solar cell module, to which it adheres. The filler after curing hardly peels off due to soft contact, or damages other constituent materials such as surrounding solar cell elements Without Rukoto and those also to use a resin material of the hot-melt as a material easy for minor modifications of shape after filling in the manufacturing process or the like.

That is, according to the present invention, a plurality of solar cell elements are electrically connected via an interconnector, and power is taken out from the solar cell element located at the end of the connection circuit by the interconnector. In a solar cell module electrically connected to a conducting wire through the terminal of the above, the conducting wire is led out of an output hole formed in the substrate and the filling material is filled in the output hole, a hot-melt resin material is used as the filling material. Has been used.

According to a second aspect of the present invention, a plurality of solar cell elements are electrically connected via an interconnector, and the solar cell element located at the end of the connection circuit is electrically connected to a conductor by the interconnector. In a solar cell module in which the periphery of a lead-out portion of a lead wire led out of a connected portion is covered with a resin cover made of a filling material, a hot-melt resin material is used as a filling material. It is.

According to a third aspect of the present invention, as the filling material used in the first or second aspect, the main component is ethylene-vinyl acetate copolymer (EVA), polypropylene (PP), or polyamide ( PA) is used.

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the solar cell module of the present invention will be described in detail with reference to the drawings.

FIG. 1 shows an example of a typical substrate type solar cell module. As shown in FIG. 1A, a plurality of solar cell elements 1 are electrically connected by an interconnector 2 and Interconnector 2 connected to solar cell element 1 located at the end of 10
Is connected to a terminal plate 3 for power extraction by soldering, and a lead wire 8 connected to the terminal plate 3 is inserted through an output hole 4 formed in a substrate 6 made of aluminum or the like. As shown in b), power is led out to the opposite side of the light receiving surface of the solar cell module to take out power. Here, the output hole 4 formed in the substrate 6 is additionally provided with an EVA (ethylene) through the output hole 4 in order to maintain a state in which the movement of the conducting wire 8 derived therefrom can be slightly followed. In order to prevent moisture or the like from entering the solar cell module in which the constituent materials such as the solar cell element 1 are sealed by the transparent filler 7 such as vinyl acetate).
The output hole filling material 5 is filled for the purpose of waterproofing and moistureproofing.

FIG. 2 shows an example of a typical superstrate type solar cell module. As shown in FIG. 2A, a plurality of solar cell elements 1 are electrically connected via an interconnector 2 to form a solar cell module. Around the lead-out portion of the conductor 8 derived from the connection part 3 ′ in which the end of the interconnector 2 connected to the solar cell element 1 located at the end of the battery element row 10 is electrically connected to the conductor 8. In order to maintain a state in which the conductor 8 can slightly follow the movement of the conductor 8 as shown in FIGS. EVA
For the purpose of waterproofing and moisture-proofing, a filling material (forming a connection portion) is used to prevent water and the like from entering the inside of the solar cell module in which the components such as the solar cell element 1 are sealed by the transparent filling material 7 such as (ethylene vinyl acetate). A resin cover 4 'covered with a material 5') is formed.

In the embodiment of the present invention, a coating is formed around the output hole filling material 5 of the output hole 4 of the above-described substrate type solar cell module or around the lead-out portion of the conducting wire 8 of the superstrate type solar cell module. As a filling material (output terminal forming material 5 ') constituting the resin cover 4', a hot material mainly containing any of ethylene vinyl acetate copolymer (EVA), polypropylene (PP), or polyamide (PA) is used. Melt resin material is used.

Here, since the hot-melt resin materials mainly composed of EVA, PP and PA materials used as the above-mentioned filling materials have thermoplastic properties, for example, the filling materials for the same application are used. It is easier to modify the shape after filling compared to the case where an epoxy resin material is used as the material, and because of its low hardness and flexibility, it is compatible with other constituent materials that are in close contact with this of the manufactured solar cell module Therefore, there is no problem such that a large stress is not generated during the process, and therefore, the surrounding materials such as solar cell elements are damaged, or the filling material is separated or dropped.

Furthermore, compared to the case where a low-flow type silicone resin is used as a filling material for a solar cell module, for example, the flowability is good and the filling operation is easy,
In addition, the curing time can be significantly reduced. Next, when the hot-melt resin material of the present invention was used as a filling material for a solar cell module, and when an epoxy resin material was used and when a low-flow silicone resin was used, Data on workability and the yield of finished products are shown.

Process time Curing time Product yield (pieces) Hot melt resin material 2 min 1 min 100/100 Epoxy resin material 2 min 30 min 94/100 Low flow silicone resin 3 min 1 day 95/100

【The invention's effect】

As described above, in the solar cell module of the present invention, a plurality of solar cell elements are electrically connected via the interconnector, and power is extracted from the solar cell element located at the end of the connection circuit by the interconnector. A filling material is used for an output hole formed in a substrate of the solar cell module, which is a lead portion of a lead wire that is electrically connected to the lead wire through a terminal for use, and is a lead portion derived from a connection portion between the terminal and the lead wire. When a hot-melt resin material is used as the filling material in the resulting solar cell module, the curing time of the resin is short, so that it can be produced with a small number of man-hours and can be manufactured at low cost, and The fluidity is good, the filling operation is easy, the filling defect does not occur, the yield of the finished product can be increased, and the productivity is improved. Furthermore, since the filling material after curing has low hardness and flexibility,
It does not cause a large stress that occurs between the two materials in the assembled solar cell module due to the difference in the coefficient of thermal expansion between the material and the other components in close contact with each other. A stable quality solar cell module can be provided without damaging the constituent materials of the solar cell element or the like and without deteriorating the waterproof and moisture-proof performance of the solar cell module due to the separation of the filler layer. Furthermore, since it is a thermoplastic resin material, it is possible to correct the shape and the like after filling, for example, as a material that can easily be finely modified in shape and the like even if the filler is once hardened in a manufacturing process or the like, Hot melt resin materials are preferably used.

Further, in the solar cell module of the present invention, a plurality of solar cell elements are electrically connected via an interconnector, and the solar cell element located at the end of the connection circuit is electrically connected to a conductor by the interconnector. When a hot melt resin material is used as a filler material in a solar cell module in which the periphery of a lead portion of a lead wire connected from a connected connection portion is covered with a resin cover made of a filler material, the resin is Since the curing time is short, it can be produced with a small number of man-hours and can be manufactured at low cost.Furthermore, the filling work is easy, the filling work is easy, and the filling defect does not occur, and the yield of the finished product can be increased. Productivity is improved. Further, since the filling material after curing has low hardness and flexibility, it is caused by the difference in thermal expansion coefficient between the filling material and other constituent materials in close contact with the assembled solar cell module. It does not cause a large stress generated between both materials, and therefore damages other constituent materials such as surrounding solar cell elements,
A stable quality solar cell module can be supplied without deteriorating the waterproof and moisture-proof performance of the solar cell module due to the separation of the filler layer. Furthermore, since it is a thermoplastic resin material, it is possible to correct the shape and the like after filling, for example, as a material that can easily be finely modified in shape and the like even if the filler is once hardened in a manufacturing process or the like, Hot melt resin materials are preferably used.

In the solar cell module of the present invention, as a hot-melt filler used for the lead-out portion of the above-mentioned solar cell module, the main components are ethylene vinyl acetate copolymer (EVA) and polypropylene (P).
P) or a material containing polyamide (PA) is particularly suitable among hot-melt resin materials. Since the curing time of the resin is short, the production can be performed with a small number of work steps and the production time is low. It can be manufactured at low cost, has good fluidity, facilitates the filling operation, does not cause defective filling, can increase the yield of finished products, and improves productivity.
Further, since the filling material after curing has low hardness and flexibility, it is caused by the difference in thermal expansion coefficient between the filling material and other constituent materials in close contact with the assembled solar cell module. It does not cause a large stress generated between the two materials, and therefore damages other constituent materials such as the surrounding solar cell element, and causes deterioration of the waterproof and moisture-proof performance of the solar cell module due to peeling of the filler layer. A stable and stable quality solar cell module is provided. Furthermore, since it is a thermoplastic resin material, it is possible to correct the shape and the like after filling, for example, as a material that can easily be finely modified in shape and the like even if the filler is once hardened in a manufacturing process or the like, Hot melt resin materials are preferably used.

[Brief description of the drawings]

FIGS. 1A and 1B show a substrate type solar cell module according to an embodiment of the present invention, wherein FIG.
FIG. 4 is a cross-sectional view taken along the line AA in FIG.

FIGS. 2A and 2B show a superstrate type solar cell module showing another embodiment of the present invention, wherein FIG. 2A is a top view and FIG.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Solar cell element 2 Interconnector 3 Terminal board 3 'Connection part 4 Output hole 4' Resin cover 5 Output hole filling material 5 'Output terminal forming material 6 Substrate 7 Transparent filling material 8 Conducting wire 9 Front plate 10 Solar cell element row

Claims (3)

[Claims] A plurality of solar cell elements are electrically connected via an interconnector, and the solar cell element located at the end of the connection circuit is electrically connected to a conductor via a terminal for extracting power by the interconnector. The solar cell module is connected, and a lead wire is led out of an output hole formed in the substrate, and the output hole is filled with a filling material, wherein a hot-melt resin material is used as the filling material. Solar cell module. 2. A plurality of solar cell elements are electrically connected via an interconnector, and are derived from a solar cell element located at an end of the connection circuit from a connection electrically connected to a conductor by the interconnector. A solar cell module in which a hot melt resin material is used as a filling material in a solar cell module in which the periphery of a lead-out portion of a conductive wire is covered with a resin cover made of a filling material. 3. The filler material is mainly composed of a material containing any one of ethylene vinyl acetate copolymer (EVA), polypropylene (PP), and polyamide (PA). 3. The solar cell module according to 1 or 2.