JPH1131834A - Glass sandwich type solar cell panel - Google Patents

Glass sandwich type solar cell panel

Info

Publication number
JPH1131834A
JPH1131834A JP9199168A JP19916897A JPH1131834A JP H1131834 A JPH1131834 A JP H1131834A JP 9199168 A JP9199168 A JP 9199168A JP 19916897 A JP19916897 A JP 19916897A JP H1131834 A JPH1131834 A JP H1131834A
Authority
JP
Japan
Prior art keywords
glass
solar cell
cell panel
sandwich type
filler
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
JP9199168A
Other languages
Japanese (ja)
Inventor
Tetsuo Arai
哲郎 新居
Naoki Ishikawa
直揮 石川
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Showa Shell Sekiyu KK
Daido Hoxan Inc
Original Assignee
Showa Shell Sekiyu KK
Daido Hoxan Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Showa Shell Sekiyu KK, Daido Hoxan Inc filed Critical Showa Shell Sekiyu KK
Priority to JP9199168A priority Critical patent/JPH1131834A/en
Publication of JPH1131834A publication Critical patent/JPH1131834A/en
Pending legal-status Critical Current

Links

Classifications

    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/50Photovoltaic [PV] energy

Abstract

PROBLEM TO BE SOLVED: To manufacture a large solar cell panel, without the use of a large manufacturing device. SOLUTION: In a glass sandwich type solar cell panel, two plate glasses 2a and 2b are allocated with a constant interval, a solar cell 4 is bonded to the inside surface of the plate glass 2b on a non-photodetective side with an adhesive tape 3, the outside periphery of the plate glasses 2a and 2b is sealed with sealants 7a and 7b, and the interval part between two glasses is filled with an inactive gas such as acrylic resin, nitrogen, Ar as a filler 5. Although the solar cell panel is one-side power generation type, the solar cell 4 is bonded on the rear side of the plate glass 2b. Furthermore a plate glass is provided, and the interval part between the glasses is filled with the filler, resulting in a both-side power generation type. With the use of the filler, a large solar cell panel can be manufactured.

Description

【発明の詳細な説明】DETAILED DESCRIPTION OF THE INVENTION

【0001】[0001]

【発明の属する技術分野】本発明は、住宅、ビル、道路
の外壁やアーケード等の採光部として利用される板ガラ
スと太陽電池モジュールとが一体となったガラスサンド
イッチ型太陽電池パネルに関する。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a glass sandwich type solar cell panel in which a sheet glass and a solar cell module used as a light-receiving part of an outer wall of a house, a building, a road or an arcade are integrated.

【0002】[0002]

【従来の技術】従来の太陽電池パネルは、その正面図が
図5、その断面図が図6及び図7からなり、図6に示す
ように板ガラス21の上にEVA(酢酸ビニルアセテー
ト)フィルム22aを載せ、EVAフィルム22aの上
に太陽電池セル23を載せ、太陽電池セル23の上にE
VAフィルム22bを載せ、更にEVAフィルム22b
の上にテドラーフィルム(デュポン社の商標名:フッ素
系樹脂フィルム)24を載せた状態のものを、ラミネー
タ(真空状態で加圧、加熱する装置)(図示せず。)内
で加圧、加熱及び真空脱泡することにより太陽電池モジ
ュールを製造していた。この製造方法においては、図6
に示すEVAフィルム22a及び22bは溶融して、図
7に示すようにEVAフィルム22となり、硬化して太
陽電池セル23を周囲から包んで保護するとともに、板
ガラス21とテドラーフィルム25との間の空間を埋め
る充填剤となっている。
2. Description of the Related Art A conventional solar cell panel has a front view shown in FIG. 5 and sectional views shown in FIGS. 6 and 7, and an EVA (vinyl acetate) film 22a is placed on a sheet glass 21 as shown in FIG. Is placed on the EVA film 22a, and the solar cell 23 is placed on the EVA film 22a.
Place the VA film 22b on it and further place it on the EVA film 22b.
A Tedlar film (trade name: fluororesin film of DuPont) 24 is placed on top of the above, and pressurized in a laminator (a device for pressurizing and heating under vacuum) (not shown). The solar cell module was manufactured by heating and vacuum degassing. In this manufacturing method, FIG.
The EVA films 22a and 22b shown in FIG. 7 are melted and become the EVA film 22 as shown in FIG. 7, and are hardened to wrap and protect the solar cell 23 from the surroundings, and between the plate glass 21 and the Tedlar film 25. It is a filler that fills the space.

【0003】このようなラミネータを用いて製造する太
陽電池モジュールの場合、ラミネータの装置の大きさに
限度があり、3m2 以上の大きさの太陽電池パネルを製
造することは困難であった。そのため、4m2 以上の建
物の壁面や開口部等に太陽電池パネルを設置する場合に
は、2m2 クラスの太陽電池パネルを複数組み合わせて
設置するため、設置作業が煩雑になる等の問題があり、
4m2 以上の太陽電池パネルが要求されていた。
In the case of a solar cell module manufactured using such a laminator, the size of the laminator device is limited, and it has been difficult to manufacture a solar cell panel having a size of 3 m 2 or more. Therefore, when solar panels are installed on the wall or opening of a building of 4 m 2 or more, a plurality of 2 m 2 class solar panels are installed in combination. ,
A solar cell panel of 4 m 2 or more was required.

【0004】[0004]

【発明が解決しようとする課題】本発明は前記のような
問題点を解消するためになされたもので、本発明の目的
は、3m2 〜24m2 の大型の太陽電池モジュールを大
型の製造装置を使用することなく容易に製造することに
ある。
[0008] The present invention has been made to solve the above problems, an object of the present invention, large-sized manufacturing equipment a large solar cell module of 3m 2 ~24m 2 It is easy to manufacture without using any.

【0005】そして、太陽電池モジュールを大型化する
ことにより、1枚の太陽電池パネル当たりの発電量を増
大するとともに、太陽電池パネルの設置作業の効率化を
図ることにある。更に、太陽電池モジュールの配列を意
匠的に優れたものにすることにある。
[0005] By increasing the size of the solar cell module, the amount of power generation per solar cell panel is increased, and the efficiency of installation work of the solar cell panel is improved. Another object is to make the arrangement of the solar cell modules excellent in design.

【0006】[0006]

【課題を解決するための手段】本発明は、複数の板ガラ
スを一定の間隔で配置してなる複層ガラスの太陽光入射
側と反対側の板ガラスの内面に太陽電池パネルを設け、
両板ガラスの外周囲を封止材により封止し、前記複層ガ
ラスの内部空白部に特殊な樹脂からなる充填剤を封入し
たガラスサンドイッチ型太陽電池パネルである。
According to the present invention, a solar cell panel is provided on an inner surface of a sheet glass on a side opposite to a sunlight incident side of a multilayer glass in which a plurality of sheet glasses are arranged at a fixed interval,
A glass sandwich solar cell panel in which the outer peripheries of both glass sheets are sealed with a sealing material, and a filler made of a special resin is sealed in a space inside the double-glazed glass.

【0007】本発明は、前記複数の板ガラスのうちの太
陽光入射側の板ガラスが普通の板ガラス又は強化ガラス
からなるガラスサンドイッチ型太陽電池パネルである。
The present invention is a glass sandwich type solar cell panel in which the plate glass on the sunlight incident side of the plurality of plate glasses is made of ordinary plate glass or tempered glass.

【0008】本発明は、前記複数の板ガラスのうちの太
陽光入射側の板ガラスがエッチング加工ガラス又は熱線
反射ガラスからなるガラスサンドイッチ型太陽電池パネ
ルである。
The present invention is a glass sandwich type solar cell panel in which the plate glass on the sunlight incident side of the plurality of plate glasses is made of etched glass or heat ray reflective glass.

【0009】本発明は、前記太陽光入射側と反対側の板
ガラスが普通の板ガラス又は強化ガラス若しくはエッチ
ング加工ガラス又は熱線反射ガラスからなるガラスサン
ドイッチ型太陽電池パネルである。
The present invention is a glass sandwich type solar cell panel in which the plate glass on the side opposite to the sunlight incident side is made of ordinary plate glass, tempered glass, etched glass, or heat ray reflective glass.

【0010】本発明は、前記太陽電池パネルの上部に位
置する封止材の部分に充填剤注入用兼出力端子取付け用
の開口を有する請求項1記載のガラスサンドイッチ型太
陽電池パネルである。
The present invention is the glass sandwich type solar cell panel according to claim 1, wherein an opening for injecting a filler and attaching an output terminal is provided in a portion of the sealing material located above the solar cell panel.

【0011】本発明は、少なくとも3枚以上の板ガラス
からなる複層ガラスの中間層の板ガラスの両面に太陽電
池パネルを設け、前記中間層の板ガラスと他の板ガラス
との空白部に特殊な樹脂からなる充填剤を封入したガラ
スサンドイッチ型太陽電池パネルである。
According to the present invention, a solar cell panel is provided on both surfaces of an interlayer glass sheet of a double-layer glass comprising at least three or more glass sheets, and a special resin is formed in a blank portion between the glass sheet of the intermediate layer and another glass sheet. Is a glass sandwich type solar cell panel in which a filler is sealed.

【0012】本発明は、前記充填剤がアクリル系樹脂又
は不活性ガスからなるガラスサンドイッチ型太陽電池パ
ネルである。
The present invention is a glass sandwich type solar cell panel wherein the filler is made of an acrylic resin or an inert gas.

【0013】本発明は、前記ガラスサンドイッチ型太陽
電池パネルの外周部に、太陽電池パネルからの電力を取
り出す出力端子を設けたガラスサンドイッチ型太陽電池
パネルである。
[0013] The present invention is a glass sandwich type solar cell panel provided with an output terminal for extracting electric power from the solar cell panel on an outer peripheral portion of the glass sandwich type solar cell panel.

【0014】[0014]

【発明の実施の形態】以下、本発明の実施の形態を説明
する。本発明は、ラミネータ(真空、加圧加熱装置)を
使用せずに太陽電池パネルを製造可能にしたガラスサン
ドイッチ型太陽電池パネルに関するものであり、そのタ
イプとしては、太陽電池パネルの片面で発電する片面の
タイプガラスサンドイッチ型太陽電池パネルと太陽電池
パネルの両面で発電する両面タイプのガラスサンドイッ
チ型太陽電池パネルがあり、片面タイプのガラスサンド
イッチ型太陽電池パネルは太陽光線が太陽電池パネルの
一方向から入射する場所に適し、両面タイプのガラスサ
ンドイッチ型太陽電池パネルは太陽光線が太陽電池パネ
ルの両方向から入射する場所に適するものである。
Embodiments of the present invention will be described below. TECHNICAL FIELD The present invention relates to a glass sandwich type solar panel capable of manufacturing a solar panel without using a laminator (vacuum, pressure heating device), and as a type thereof, generates power on one side of the solar panel. There are single-sided glass sandwich solar panels and double-sided glass sandwich solar panels that generate electricity on both sides of the solar panel.Single-sided glass sandwich solar panels emit sunlight from one direction of the solar panel. The double-sided glass sandwich type solar cell panel is suitable for a place where light is incident, and is suitable for a place where sunlight is incident from both directions of the solar cell panel.

【0015】片面タイプのガラスサンドイッチ型太陽電
池パネルは一定間隔の2枚の板ガラスのうちの一方の板
ガラスの内面に複数の太陽電池セルを設置し、2枚の板
ガラスで形成される空間の上部及び下部を封止材で封止
するとともに、封止後の内部空間を充填材で充填した構
造である。
A single-sided glass sandwich type solar cell panel has a plurality of solar cells installed on an inner surface of one of two sheet glasses at a predetermined interval, and a space above the space formed by the two sheets of glass. The lower part is sealed with a sealing material, and the internal space after the sealing is filled with a filler.

【0016】また、両面タイプのガラスサンドイッチ型
太陽電池パネルは一定間隔の3枚の板ガラスのうちの中
間の板ガラスの両面に複数の太陽電池セルを設置し、3
枚の板ガラスで形成される空間の上部及び下部を封止材
で封止するとともに、封止後の内部空間を充填剤で充填
した構造である。
A double-sided glass sandwich type solar cell panel has a plurality of photovoltaic cells installed on both sides of an intermediate glass sheet among three glass sheets at regular intervals.
This is a structure in which the upper and lower portions of a space formed by a single sheet of glass are sealed with a sealing material, and the internal space after the sealing is filled with a filler.

【0017】[0017]

【実施例】以下に、本発明の実施例を図面を用いて説明
する。先ず、2枚の板ガラスの間に太陽電池セル(以
下、PVセルという。)及び充填剤が配置された太陽電
池パネルの片面で発電する片面タイプのガラスサンドイ
ッチ型太陽電池パネルについて説明する。
Embodiments of the present invention will be described below with reference to the drawings. First, a single-sided glass sandwich type solar cell panel that generates power on one side of a solar cell panel in which a solar cell (hereinafter, referred to as a PV cell) and a filler are arranged between two sheet glasses will be described.

【0018】図1は前記太陽電池パネル1Aの正面図、
図2は前記太陽電池パネル1Aの充填剤5を注入前の状
態の断面図、図3は前記太陽電池パネル1Aの充填剤5
を注入後の状態の断面図である。
FIG. 1 is a front view of the solar cell panel 1A,
FIG. 2 is a sectional view showing a state before the filler 5 of the solar cell panel 1A is injected, and FIG. 3 is a sectional view of the filler 5 of the solar cell panel 1A.
FIG. 4 is a cross-sectional view of a state after the injection.

【0019】片面タイプのガラスサンドイッチ型太陽電
池パネル1Aは、図2に示すように、一定間隔の2枚の
板ガラス、即ち、太陽光の入射が多い側の板ガラス2a
及び太陽光の入射が少ない側の板ガラス2bのうちの太
陽光の入射が少ない側の板ガラス2bの内面に透明で強
力な接着テープ3により複数のPVセル4を接続したも
のを接着させた後、この板ガラス2bと一定間隔を隔て
て太陽光の入射が多い側の板ガラス2aを配置する。前
記太陽光の入射が多い側の板ガラス2aは透明な板ガラ
スである青板ガラス、白板ガラス、強化ガラス、エンボ
ス加工した板ガラス等が好ましい。また、前記太陽光の
入射が少ない側の板ガラス2bは青板ガラス、白板ガラ
ス、強化ガラス、エンボス加工した板ガラスの外に熱線
反射ガラスを用いてもよい。
As shown in FIG. 2, a single-sided glass sandwich type solar cell panel 1A is composed of two sheet glasses at a predetermined interval, that is, a sheet glass 2a on the side where sunlight is incident more frequently.
After bonding a plurality of PV cells 4 connected by a transparent and strong adhesive tape 3 to the inner surface of the plate glass 2b on the side where the sunlight is less incident among the plate glass 2b on the side where the sunlight is less incident, The plate glass 2a on the side where sunlight is more frequent is disposed at a certain distance from the plate glass 2b. It is preferable that the plate glass 2a on the side where a large amount of sunlight enters is a transparent plate glass such as blue plate glass, white plate glass, tempered glass, embossed plate glass, or the like. Further, as the plate glass 2b on the side where the sunlight is less incident, a heat ray reflective glass may be used in addition to the blue plate glass, the white plate glass, the tempered glass, and the embossed plate glass.

【0020】そして、2枚の板ガラス2a及び2bによ
り形成される空間の外周部を封止材7により封止する。
封止材7としては透明なVHBテープ等が適している
が、必要に応じて他の材質からなるテープを用いること
もできる。そして、封止材7の太陽電池パネルの上部分
の封止材7aには後に充填剤5を注入するための開口7
hが設けられる。この開口7hは封止材7aを設置する
前でも後でもよい。その後、前記開口7hから溶融状態
の充填剤5を注入することにより、中空部8は充填剤5
により満たされる。前記充填剤5としてはアクリル系の
樹脂が適しているが、替わりに窒素やAr等の不活性ガ
スを使用してもよい。前記アクリル系樹脂は通常は液体
であるため、硬化剤を混ぜて注入し、一昼夜常温で放置
することで自然に固化する。このようなアクリル系樹脂
を充填剤5として注入する場合、封止材7aに開口7h
を複数設け、そのうち少なくとも1つを充填剤注入用と
し、他の少なくとも1つを内部の空気を抜く空気抜き用
とすることにより、充填剤注入作業を短時間で行うこと
ができる。
Then, an outer peripheral portion of a space formed by the two glass sheets 2a and 2b is sealed with a sealing material 7.
As the sealing material 7, a transparent VHB tape or the like is suitable, but a tape made of another material can be used if necessary. An opening 7 for injecting the filler 5 later is formed in the sealing material 7a in the upper portion of the solar cell panel of the sealing material 7.
h is provided. This opening 7h may be before or after the sealing material 7a is installed. Thereafter, by injecting the filler 5 in a molten state from the opening 7h, the hollow portion 8 is filled with the filler 5
Is satisfied by As the filler 5, an acrylic resin is suitable, but an inert gas such as nitrogen or Ar may be used instead. Since the acrylic resin is usually a liquid, it is solidified spontaneously by mixing and injecting a curing agent and leaving it at room temperature for 24 hours. When such an acrylic resin is injected as the filler 5, the opening 7h is formed in the sealing material 7a.
Are provided, and at least one of them is used for injecting a filler, and at least one is used for air bleeding for bleeding the internal air, so that the filler injecting operation can be performed in a short time.

【0021】また、前記充填剤5の注入方法としては、
前記開口7hを設けずに板ガラス2a及び2bと封止材
7との隙間から注入してもよい。そして、充填剤5が硬
化した状態で、太陽電池パネルの上部の封止材7aに電
力を取り出すための出力端子6a及び6bを設置する。
前記開口7hを前記出力端子6a及び6bを取付用の開
口として用いることもできる。
The method of injecting the filler 5 is as follows.
Injection may be performed through a gap between the plate glasses 2a and 2b and the sealing material 7 without providing the opening 7h. Then, in a state where the filler 5 is cured, output terminals 6a and 6b for extracting electric power are installed in the sealing material 7a on the upper part of the solar cell panel.
The opening 7h can be used as an opening for mounting the output terminals 6a and 6b.

【0022】上記の製造工程により、最終的に図3に示
す構造の片面タイプのガラスサンドイッチ型太陽電池パ
ネル1Aが形成される。
By the above manufacturing steps, a single-sided glass sandwich solar cell panel 1A having the structure shown in FIG. 3 is finally formed.

【0023】また、他の実施例として、図4に示す太陽
電池パネルの両面で発電する両面タイプのガラスサンド
イッチ型太陽電池パネル1Bがある。この両面タイプの
ガラスサンドイッチ型太陽電池パネル1Bは、例えば、
太陽光線の入射方向がが時間帯により異なる場所等に設
置する場合に適するものである。
As another embodiment, there is a double-sided glass sandwich type solar cell panel 1B shown in FIG. 4 which generates electricity on both sides of the solar cell panel. This double-sided glass sandwich solar cell panel 1B is, for example,
This is suitable for a case where the apparatus is installed in a place where the incident direction of the sun's rays differs depending on the time zone.

【0024】両面タイプのガラスサンドイッチ型太陽電
池パネル1Bの構造は図4に示すように、3枚の板ガラ
ス2a、2b及び2cのうちの中間に位置する板ガラス
2bの両面に接着テープ3により複数のPVセル4を接
続したものを接着させた後、この板ガラス2bと一定間
隔を隔てて板ガラス2a及び2cを配置する。そして、
3枚のガラス2a、2b及び2cにより形成される空間
の上部及び下部を封止材7a及び7bにより封止する。
そして、上部に設置された封止材7aには後に充填剤5
を注入するための開口7hが設けられる。その後、前記
開口7hから溶融状態の充填剤5を注入することによ
り、中空部8は充填剤5により満たされる。この充填剤
5としてはアクリル系の樹脂が適しているが、替わりに
窒素やAr等の不活性ガスを使用してもよい。そして、
充填剤5が硬化した状態で前記開口7hに電力を取り出
すための出力端子6a及び6bを設置する。
As shown in FIG. 4, the structure of the double-sided glass sandwich type solar cell panel 1B is such that a plurality of glass plates 2a, 2b and 2c are provided with a plurality of adhesive tapes 3 on both surfaces of a glass plate 2b located in the middle. After bonding the connected PV cells 4, the plate glasses 2a and 2c are arranged at a predetermined interval from the plate glass 2b. And
The upper and lower portions of the space formed by the three glasses 2a, 2b and 2c are sealed with sealing materials 7a and 7b.
The sealing material 7a installed on the upper part is filled with the filler 5 later.
Opening 7h is provided for injecting. Thereafter, the hollow portion 8 is filled with the filler 5 by injecting the filler 5 in a molten state from the opening 7h. As the filler 5, an acrylic resin is suitable, but an inert gas such as nitrogen or Ar may be used instead. And
Output terminals 6a and 6b for extracting electric power are provided in the opening 7h while the filler 5 is cured.

【0025】上記の製造工程により、最終的に図4に示
す構造の両面タイプのガラスサンドイッチ型太陽電池パ
ネル1Bが形成される。なお、板ガラス2a、2cは青
板ガラス、白板ガラス、強化ガラス、エンボス加工した
板ガラス等が好ましく、中間に位置する板ガラス2bは
青板ガラス、白板ガラス、強化ガラス、エンボス加工し
た板ガラスの外に熱線反射ガラスが好ましい。その他、
接着テープ3、封止材7a及び7b、充填剤5等は片面
タイプのガラスサンドイッチ型太陽電池パネルと同様の
ものであり、封止材7aの開口7hの設置方法も同様で
ある。
Through the above manufacturing steps, a double-sided glass sandwich solar cell panel 1B having the structure shown in FIG. 4 is finally formed. Note that the plate glasses 2a and 2c are preferably blue plate glass, white plate glass, tempered glass, embossed plate glass, and the like, and the intermediate plate glass 2b is blue plate glass, white plate glass, tempered glass, embossed plate glass, and heat ray reflective glass. Is preferred. Others
The adhesive tape 3, the sealing materials 7a and 7b, the filler 5, and the like are the same as those of the single-sided glass sandwich type solar cell panel, and the method of setting the opening 7h of the sealing material 7a is also the same.

【0026】[0026]

【発明の効果】本発明のガラスサンドイッチ型太陽電池
パネルは、太陽電池パネル内に配置されている太陽電池
セルをアクリル樹脂又は不活性ガス等の充填剤で封止し
た構造又は製造方法を採用したことにより、従来のラミ
ネータにより製造される太陽電池パネルで作製されてい
たパネルサイズよりも大型の太陽電池パネルを作製する
ことが可能となる。
The glass sandwich solar cell panel of the present invention employs a structure or a manufacturing method in which solar cells arranged in the solar cell panel are sealed with a filler such as an acrylic resin or an inert gas. This makes it possible to manufacture a solar cell panel that is larger than a solar cell panel manufactured using a conventional laminator.

【0027】更に、本発明により、大型のラミネータ等
の大型の製造装置が不用となり、製造装置が簡易化さ
れ、製造コストを低減することができる。
Further, according to the present invention, a large-sized manufacturing device such as a large-sized laminator is not required, the manufacturing device can be simplified, and the manufacturing cost can be reduced.

【0028】更に、本発明のガラスサンドイッチ型太陽
電池パネルは建物の建材、道路等の防音壁、遮蔽用の壁
と太陽電池パネルと兼用できるために、スペースを有効
に利用することができる。
Further, the glass sandwich type solar cell panel of the present invention can be used as a building material of a building, a soundproof wall such as a road, a shielding wall, and a solar cell panel, so that the space can be effectively used.

【0029】更に、本発明の両面タイプのガラスサンド
イッチ型太陽電池パネルは太陽光線の入射方向がが時間
帯により異なる場所等の設置に不向きな場所においても
設置することができる。
Furthermore, the double-sided glass sandwich type solar cell panel of the present invention can be installed in a place that is not suitable for installation, such as a place where the incident direction of sunlight varies depending on the time of day.

【図面の簡単な説明】[Brief description of the drawings]

【図1】本発明の片面及び両面タイプのガラスサンドイ
ッチ型太陽電池パネルの正面図である。
FIG. 1 is a front view of a single-sided and double-sided glass sandwich solar cell panel of the present invention.

【図2】本発明の片面タイプのガラスサンドイッチ型太
陽電池パネルの充填材注入前の状態の断面図である。
FIG. 2 is a cross-sectional view of a single-sided glass sandwich solar cell panel of the present invention in a state before a filler is injected.

【図3】本発明の片面タイプのガラスサンドイッチ型太
陽電池パネルの充填材注入後の状態の断面図である。
FIG. 3 is a cross-sectional view of the single-sided glass sandwich solar cell panel of the present invention in a state after filling material is injected.

【図4】本発明の両面タイプのガラスサンドイッチ型太
陽電池パネルの充填材注入後の状態の断面図である。
FIG. 4 is a cross-sectional view of the double-sided glass sandwich solar cell panel of the present invention in a state after filling material is injected.

【図5】従来のラミネータにより製造される太陽電池パ
ネルの正面図である。
FIG. 5 is a front view of a solar cell panel manufactured by a conventional laminator.

【図6】従来のラミネータにより製造される太陽電池パ
ネルのラミネータに挿入前の状態の断面図である。
FIG. 6 is a cross-sectional view of a solar cell panel manufactured by a conventional laminator before being inserted into a laminator.

【図7】従来のラミネータにより製造される太陽電池パ
ネルの製造後の状態の断面図である。
FIG. 7 is a cross-sectional view of a state after manufacturing a solar cell panel manufactured by a conventional laminator.

【符号の説明】[Explanation of symbols]

1A 片面タイプのガラスサンドイッチ型太陽電池パネ
ル 1B 両面タイプのガラスサンドイッチ型太陽電池パネ
ル 2a 板ガラス 2b 板ガラス 2c 板ガラス 3 接着テープ 4 PVセル(太陽電池セル) 5 充填剤 5a 充填剤 5b 充填剤 6a 出力端子 6b 出力端子 6c 接続端子 6d 接続端子 6e 接続端子 7 封止材 7a 封止材 7b 封止材 7h 開口
Reference Signs List 1A Single-sided glass sandwich type solar cell panel 1B Double-sided type glass sandwich type solar cell panel 2a Plate glass 2b Plate glass 2c Plate glass 3 Adhesive tape 4 PV cell (solar cell) 5 Filler 5a Filler 5b Filler 6a Output terminal 6b Output terminal 6c Connection terminal 6d Connection terminal 6e Connection terminal 7 Sealing material 7a Sealing material 7b Sealing material 7h Opening

Claims (8)

【特許請求の範囲】[Claims] 【請求項1】 複数の板ガラスを一定の間隔で配置して
なる複層ガラスの太陽光入射側と反対側の板ガラスの内
面に太陽電池パネルを設け、両板ガラスの外周囲を封止
材により封止し、前記複層ガラスの内部空白部に特殊な
樹脂からなる充填剤を封入したガラスサンドイッチ型太
陽電池パネル。
1. A solar cell panel is provided on an inner surface of a sheet glass opposite to a sunlight incident side of a double-layer glass in which a plurality of sheet glasses are arranged at a predetermined interval, and an outer periphery of both sheet glasses is sealed with a sealing material. A glass sandwich solar cell panel in which a filler made of a special resin is sealed in a space inside the double-glazed glass.
【請求項2】 前記複数の板ガラスのうちの太陽光入射
側の板ガラスが普通の板ガラス又は強化ガラスからなる
請求項1記載のガラスサンドイッチ型太陽電池パネル。
2. The glass sandwich type solar cell panel according to claim 1, wherein the glass sheet on the sunlight incident side of the plurality of glass sheets is made of ordinary glass sheet or tempered glass.
【請求項3】 前記複数の板ガラスのうちの太陽光入射
側の板ガラスがエッチング加工ガラス又は熱線反射ガラ
スからなる請求項1記載のガラスサンドイッチ型太陽電
池パネル。
3. The glass sandwich type solar cell panel according to claim 1, wherein the plate glass on the sunlight incident side of the plurality of plate glasses is made of etched glass or heat ray reflective glass.
【請求項4】 前記太陽光入射側と反対側の板ガラスが
前記請求項2又は3記載の板ガラスからなる請求項1記
載のガラスサンドイッチ型太陽電池パネル。
4. A glass sandwich type solar cell panel according to claim 1, wherein the plate glass on the side opposite to the sunlight incident side is made of the plate glass according to claim 2 or 3.
【請求項5】 前記太陽電池パネルの上部に位置する封
止材の部分に充填剤注入用兼出力端子取付け用の開口を
有する請求項1記載のガラスサンドイッチ型太陽電池パ
ネル。
5. The glass sandwich type solar cell panel according to claim 1, further comprising an opening for injecting a filler and attaching an output terminal in a portion of the sealing material located above the solar cell panel.
【請求項6】 少なくとも3枚以上の板ガラスからなる
複層ガラスの中間層の板ガラスの両面に太陽電池パネル
を設け、前記中間層の板ガラスと他の板ガラスとの空白
部に特殊な樹脂からなる充填剤を封入したガラスサンド
イッチ型太陽電池パネル。
6. A solar cell panel is provided on both surfaces of an interlayer glass sheet of a double-layer glass made of at least three or more glass sheets, and a space between the glass sheet of the intermediate layer and another glass sheet is filled with a special resin. A glass sandwich type solar cell panel with a filling agent.
【請求項7】 前記充填剤がアクリル系樹脂又は不活性
ガスからなる請求項1又は5記載のガラスサンドイッチ
型太陽電池パネル。
7. The glass sandwich type solar cell panel according to claim 1, wherein the filler comprises an acrylic resin or an inert gas.
【請求項8】 前記ガラスサンドイッチ型太陽電池パネ
ルの外周部に、太陽電池パネルからの電力を取り出す出
力端子を設けた請求項1、2、3、4、5、6又は7記
載のガラスサンドイッチ型太陽電池パネル。
8. The glass sandwich type according to claim 1, wherein an output terminal for extracting electric power from the solar cell panel is provided on an outer peripheral portion of the glass sandwich type solar cell panel. Solar panel.
JP9199168A 1997-07-10 1997-07-10 Glass sandwich type solar cell panel Pending JPH1131834A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP9199168A JPH1131834A (en) 1997-07-10 1997-07-10 Glass sandwich type solar cell panel

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP9199168A JPH1131834A (en) 1997-07-10 1997-07-10 Glass sandwich type solar cell panel

Publications (1)

Publication Number Publication Date
JPH1131834A true JPH1131834A (en) 1999-02-02

Family

ID=16403295

Family Applications (1)

Application Number Title Priority Date Filing Date
JP9199168A Pending JPH1131834A (en) 1997-07-10 1997-07-10 Glass sandwich type solar cell panel

Country Status (1)

Country Link
JP (1) JPH1131834A (en)

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