JPS62281377A - Solar battery module - Google Patents

Abstract

PURPOSE:To manufacture a solder battery module with a minor loss of output while minimizing the temperature of solar battery element raised by solar radiation by a method wherein a rear surface protective member is composed of a laminated layer body comprising a dark colored member both on the photodetector side and non- photodetector side. CONSTITUTION:Within the title solar battery module, an EVA film solar battery element 2 to be an insulating resin 3, an EVA film and a rear surface protective member 4 to be the insulating resin 3 are heaped on the back surface of a photodetector substrate 1 to be adhesively laminated by means of an autoclave, etc., and then the solar battery element 2 is sealed up. The rear surface protective member 4 holding a metallic foil 42 with excellent heat conductivity is formed of the first dark colored member layer 44 on the photodetector side and the second dark colored member layer 45 on the non-photodetector side so that the rear surface protective member 4 may fill the role of a sort of black body, i.e., an excellent heat absorbing and heat dissipating body. Furthermore, the heat transferred to the dark colored member layer 44 is dissipated into the atmosphere kept in the shade on the rear surface side of rear surface protective member 4. Through these procedures, the solar battery element 2 can be restrained from raising temperature thereof.

Description

【発明の詳細な説明】 ３、発明の詳細な説明 〔産業上の利用分野〕 本発明は複数個の太陽電池素子を封止する太陽電池モジ
ュールに関する。Detailed Description of the Invention 3. Detailed Description of the Invention [Field of Industrial Application] The present invention relates to a solar cell module that seals a plurality of solar cell elements.

〔発明の背景］ 太陽電池モジュールは太陽電池素子を外部衝撃、湿気等
から保３ＩＬ、太陽電池素子で発生する起電力を負荷に
供給し易い出力で導出できるようにするものであり、如
何に太陽電池素子の起電力を損失なく出力として導出す
るかが大きな課題である。[Background of the Invention] A solar cell module protects a solar cell element from external shocks, moisture, etc., and allows the electromotive force generated in the solar cell element to be derived at an output that is easy to supply to a load. A major challenge is how to derive the electromotive force of a battery element as an output without loss.

第３図は従来の太陽電池モジュールの構造を示す断面図
である。FIG. 3 is a sectional view showing the structure of a conventional solar cell module.

図中、１は受光面基板、２は結晶系太陽電池素子、３は
シリコーン樹脂やエチレンビニールアセテート（ＥＶＡ
）等から成る透明の絶縁性樹脂、４は裏面保護部材、５
は金属製のフレームである。In the figure, 1 is a light-receiving surface substrate, 2 is a crystalline solar cell element, and 3 is silicone resin or ethylene vinyl acetate (EVA).
), 4 is a back protection member, 5 is a transparent insulating resin made of
is a metal frame.

太陽電池モジュールは太陽電池素子２を絶縁性樹脂３を
介して受光面基板１と裏面保護部材４とで挟持し、該受
光面基板１と裏面保護部材４との周囲にフレーム５を嵌
着して、構成されている。In the solar cell module, a solar cell element 2 is sandwiched between a light-receiving substrate 1 and a back protection member 4 via an insulating resin 3, and a frame 5 is fitted around the light-receiving substrate 1 and back protection member 4. It is configured as follows.

特に裏面保護部材４は太陽電池モジュールの裏面側から
浸入する湿気を防止し、かつ外部応力を緩和し、軽量、
低コスト化を達成するために耐候性フィルム４１、金属
箔４２及び耐湿性フィルム４３が重畳した積層体となっ
ている。具体的な材料としては受光面側からポリフッ化
ビニル、アルミ箔、ポリ塩化ビニルを重畳した積層体や
アルミ箔をポリフッ化ビニルで挟持した積層体である（
特開昭５７−１６２３７４号公報参照）。In particular, the back protection member 4 prevents moisture from entering from the back side of the solar cell module, relieves external stress, is lightweight,
In order to achieve cost reduction, it is a laminate in which a weather-resistant film 41, a metal foil 42, and a moisture-resistant film 43 are superimposed. Specific materials include a laminate in which polyvinyl fluoride, aluminum foil, and polyvinyl chloride are layered from the light-receiving surface side, and a laminate in which aluminum foil is sandwiched between polyvinyl fluoride (
(See Japanese Unexamined Patent Publication No. 162374/1983).

しかしながら、上述の太陽電池モジュールの裏面保護部
材の耐候性フィルム４１は白色又は白黄色のポリフッ化
ビニル等が使用されているため、裏面保護部材４の熱吸
収量が乏しい。このことは太陽光の照射により太陽電池
素子２に蓄えられる太陽輻射熱を充分に吸収できず、太
陽電池素子２の温度は８０°Ｃ以上にまで上昇してしま
う。However, since the weather-resistant film 41 of the back protection member of the solar cell module described above is made of white or white-yellow polyvinyl fluoride, the amount of heat absorption of the back protection member 4 is poor. This means that the solar radiant heat stored in the solar cell element 2 due to sunlight irradiation cannot be sufficiently absorbed, and the temperature of the solar cell element 2 increases to 80° C. or higher.

太陽電池素子２の温度上昇は第４図に示すグラフから明
瞭に判る様に、太陽電池モジュールの出力を極端に低下
させる。As can be clearly seen from the graph shown in FIG. 4, the temperature rise of the solar cell element 2 causes an extreme decrease in the output of the solar cell module.

尚、グラフの横軸は太陽電池素子の温度を示し、縦軸は
太陽電池モジュールの最大出力を示す。Note that the horizontal axis of the graph indicates the temperature of the solar cell element, and the vertical axis indicates the maximum output of the solar cell module.

また太陽電池モジュールは１０ｃｆｆＩ角の多結晶シリ
コン太陽電池素子を５ｍｍ間隔に３６枚（４Ｘ９）配置
したものを使用した。The solar cell module used was one in which 36 (4×9) polycrystalline silicon solar cell elements of 10 cffI square were arranged at 5 mm intervals.

〔発明の目的］ 本発明の目的は上述の様に太陽輻射熱によって上昇する
太陽電池素子の温度を最小限に抑え、これにより出力の
損失の少ない太陽電池モジュールを提供することである
。[Object of the Invention] As described above, the object of the present invention is to minimize the temperature of the solar cell element, which increases due to solar radiant heat, and thereby provide a solar cell module with less loss of output.

〔目的を達成するための具体的手段］ 本発明の目的を達成するための具体的手段は直並列に配
列した複数個の結晶系太陽電池素子を絶縁性樹脂を介し
て受光面基板と裏面保護部材とで密着挟持した太陽電池
モジュールにおいて、前記裏面保護部材を、受光面側及
び非受光面側が暗色部材から成る積層体で構成したこと
である。[Specific Means for Achieving the Object] A specific means for achieving the object of the present invention is to connect a plurality of crystalline solar cell elements arranged in series and parallel to a light-receiving surface substrate and back surface protection through an insulating resin. In the solar cell module tightly sandwiched between members, the back surface protection member is constructed of a laminate whose light-receiving surface side and non-light-receiving surface side are made of a dark-colored material.

〔実施例〕〔Example〕

以下、本発明の太陽電池モジュールを図面に基づいて説
明する。Hereinafter, the solar cell module of the present invention will be explained based on the drawings.

第１図は本発明の一実施例に係る太陽電池モジュールの
断面図を示す。尚、第３図と同一部分は同一符号を付す
。FIG. 1 shows a sectional view of a solar cell module according to an embodiment of the present invention. Note that the same parts as in FIG. 3 are given the same reference numerals.

図中、１はガラス、アクリル板等から成る受光面基板で
あり、２は結晶系太陽電池素子であり、３はシリコーン
樹脂、ＥＶＡ等からなる絶縁性樹脂であり、４は裏面保
護部材であり、５はフレームである。In the figure, 1 is a light-receiving surface substrate made of glass, acrylic plate, etc., 2 is a crystalline solar cell element, 3 is an insulating resin made of silicone resin, EVA, etc., and 4 is a back surface protection member. , 5 are frames.

太陽電池モジュールは受光面基板１の裏面に絶縁性樹脂
３となるＥＶＡフィルム太陽電池素子２、絶縁性樹脂３
となるＥＶＡフィルム及び裏面保護部材４を重畳し、オ
ートゲレープ等により密着積層し、太陽電池素子２を密
閉封止した後、受光面基板１及び裏面保護部材４の周囲
にアルミニウム等から成るフレーム５を嵌着し完成する
ものである。The solar cell module has an EVA film solar cell element 2, which serves as an insulating resin 3, on the back side of a light-receiving surface substrate 1, and an insulating resin 3.
After overlapping the EVA film and the back protection member 4 and laminating them tightly by autogelage etc. and hermetically sealing the solar cell element 2, a frame 5 made of aluminum or the like is placed around the light-receiving substrate 1 and the back protection member 4. It is completed by fitting.

前記裏面保護部材４は受光面側から熱吸収作用のある第
１の暗色部材層４４、良熱伝導性の金属箔４２、熱放射
作用のある第１の暗色部材層４５を積層した部材が使用
される。The back protection member 4 is a member in which a first dark-colored material layer 44 having a heat absorption function, a metal foil 42 having good thermal conductivity, and a first dark-colored material layer 45 having a heat radiation function are laminated from the light-receiving surface side. be done.

具体的には第２の暗色部材層４４は熱の吸収率が０．６
以上で周囲熱を積極的に吸収し、かつ耐候性のある暗色
部材が用いられる。例えば厚み３０〜１００μのポリフ
ッ化ビニル、ポリエステル等の耐候性樹脂に黒色系顔料
のニグロシン、カーボンブランク等を添加したもの、黒
色の炭素繊維体、該炭素繊維体を混入したフィルム等で
ある。Specifically, the second dark-colored member layer 44 has a heat absorption rate of 0.6.
In the above, a dark-colored member that actively absorbs ambient heat and is weather resistant is used. For example, a material obtained by adding a black pigment such as nigrosine, carbon blank, etc. to a weather-resistant resin such as polyvinyl fluoride or polyester having a thickness of 30 to 100 μm, a black carbon fiber body, a film containing the carbon fiber body, etc. are used.

また金属箔４２は水分透過率が極めて低く、かつ良熱伝
導性の部材が用いられる。例えば、厚み１０〜２５μの
アルミニウム箔、ステンレス笛である。Further, the metal foil 42 is made of a material having extremely low moisture permeability and good thermal conductivity. For example, aluminum foil with a thickness of 10 to 25 μm or a stainless steel whistle.

第２の暗色部材層４５は熱の放射率が０．６以上で周囲
に熱を積極的に放射しかつ可撓性のある暗色部材が用い
られる。例えば厚み３０〜１００μのボリフ・ノ化ビニ
ル、ポリエステル、アクリル等の耐湿性樹脂に黒色系顔
料のニグロシン、カーボンブラック等を添加したもの、
黒色の炭素繊維体、炭素繊維体を混入したフィルム等で
ある。The second dark-colored member layer 45 is a flexible dark-colored member that has a heat emissivity of 0.6 or more, actively radiates heat to the surroundings. For example, a moisture-resistant resin such as polyvinyl nitride, polyester, or acrylic having a thickness of 30 to 100 μm, to which a black pigment such as nigrosine or carbon black is added;
These include black carbon fiber bodies, films mixed with carbon fiber bodies, etc.

次に第１図の部分拡大図である第２図に基づいて本発明
の太陽電池モジュール、特に裏面保護部材４の熱的作用
を説明する。Next, the thermal effect of the solar cell module of the present invention, particularly the back protection member 4, will be explained based on FIG. 2, which is a partially enlarged view of FIG. 1.

裏面保護部材４は良熱伝導性の金属箔４２を挟持してそ
の受光面側の第１の暗色部材層４４及び非受光面側の第
２の暗色部材層４５から形成されているため、一種の黒
体として作用、即ち良熱吸収体及び良熱放射体として作
用する。The back protection member 4 is formed of a first dark-colored material layer 44 on the light-receiving surface side and a second dark-color material layer 45 on the non-light-receiving surface side, sandwiching a metal foil 42 with good thermal conductivity, so that it is a type of It acts as a black body, that is, as a good heat absorber and a good heat radiator.

また、裏面保護部材４内の熱は、該部材４内で熱的に平
衡になるように移動する。実際には、太陽光が太陽電池
モジュールに受光されるほとんどの時間では、受光面側
の周囲温度が日陰となる非受光面側の周囲温度よりも高
くなるため、裏面保護部材４において第１の暗色部材層
４４で周囲の熱を吸収し金属箔４２を通じて第２の暗色
部材層４５でその熱を非受光面側へ放射しようとする。Further, the heat within the back protection member 4 moves so as to be thermally balanced within the member 4. In reality, most of the time when sunlight is received by the solar cell module, the ambient temperature on the light-receiving surface side is higher than the ambient temperature on the non-light-receiving surface side, which is in the shade. The dark color material layer 44 absorbs ambient heat, and the second dark material layer 45 attempts to radiate the heat to the non-light receiving surface side through the metal foil 42.

かくして、太陽電池モジュールに太陽光が照射され、受
光面積のほぼ全体を占める太陽電池素子２に蓄熱される
太陽輻射熱は太陽電池素子２により光が遮断され少なく
とも太陽電池素子２の温度よりも低い裏面保護部材４の
第１の暗色部材層４４に積極的に吸収される。そして、
該暗色部材層４４に吸収された熱は上述の様に裏面保護
部材４全体で熱的に平衡状態になるように金属箔４２、
第２の暗色部材層４５へ伝わる。さらに該暗色部材層４
５へ伝えられた熱は裏面保護部材４の裏面側で日陰とな
っている外気中に放出される。In this way, the solar cell module is irradiated with sunlight and the solar radiant heat is stored in the solar cell element 2, which occupies almost the entire light-receiving area. It is actively absorbed by the first dark colored material layer 44 of the protective member 4. and,
The metal foil 42, so that the heat absorbed by the dark-colored member layer 44 is thermally balanced throughout the back protection member 4 as described above.
It is transmitted to the second dark-colored material layer 45. Further, the dark color member layer 4
The heat transferred to the back side of the back protection member 4 is released into the outside air which is shaded by the back side of the back protection member 4.

すなわち、太陽電池素子２に蓄わえられる太陽輻射熱は
裏面保護部材４を介して太陽電池モジュールの裏面側に
放出される。これにより、太陽電池素子２の温度上昇を
抑えることができ、それに伴う太陽電池モジュールの出
力低下を抑えることができる。That is, the solar radiation heat stored in the solar cell element 2 is released to the back side of the solar cell module via the back protection member 4. Thereby, the temperature rise of the solar cell element 2 can be suppressed, and the accompanying decrease in the output of the solar cell module can be suppressed.

尚、熱放射作用のある第２の暗色部材層４５の大気側の
表面を粗面状とすることが好ましい。即ち、暗色部材Ｎ
４５の表面と外気との接触面積が増大し大気との対流が
助長され、裏面保護部材４の熱が効率よく外気へ放出で
きる。該暗色部材層４５の表面を粗面とする具体的手段
は、暗色部材、［４５の表面を機械的衝撃により凸凹に
したり、また金属箔４２の表面や該暗色部材層４５の表
面にアスベストパウダーや粒体を混入した黒色樹脂塗料
を塗布したりする。Note that it is preferable that the atmosphere-side surface of the second dark-colored member layer 45 having a heat radiation effect be roughened. That is, dark-colored member N
The contact area between the surface of the back cover 45 and the outside air is increased, convection with the atmosphere is promoted, and the heat of the back protection member 4 can be efficiently released to the outside air. Specific means for roughening the surface of the dark-colored member layer 45 include making the surface of the dark-colored member [45] uneven by mechanical impact, or applying asbestos powder to the surface of the metal foil 42 or the surface of the dark-colored member layer 45. or apply black resin paint mixed with powder or granules.

また上述の実施例では裏面保護部材４が第１の暗色部材
層、金属箔、第２の暗色部材層の三層構造であったが、
耐候性、耐湿性に優れた黒色のポリエステルと黒色の炭
素繊維体との二層構造にすることも可能である。さらに
熱吸収作用を向上させるため第１の暗色部材層４４の受
光面側を凸凹にすることも可能である。Furthermore, in the above embodiment, the back protection member 4 had a three-layer structure of the first dark-colored material layer, the metal foil, and the second dark-colored material layer;
It is also possible to have a two-layer structure of black polyester, which has excellent weather resistance and moisture resistance, and black carbon fiber material. Furthermore, in order to improve the heat absorption effect, it is also possible to make the light-receiving surface side of the first dark-colored material layer 44 uneven.

〔効果〕〔effect〕

以上、本発明の太陽電池モジュールは従来の太陽電池モ
ジュールがもつ耐湿性の向上、軽量、低コスト化という
効果を維持しながら、特に裏面保護部材の受光面側を熱
吸収作用のある第１の暗色部材層で、非受光面を熱放射
作用のある第２の暗色部材層で形成したため太陽電池素
子に蓄熱される太陽輻射熱を第１の暗色部材層で吸収し
、第２の暗色部材から外気へ放出でき、太陽電池素子の
温度上昇による出力の損失を最小限に抑えることができ
る。As described above, the solar cell module of the present invention maintains the effects of improved moisture resistance, weight, and cost reduction that conventional solar cell modules have, and in particular, the light-receiving surface side of the back protection member is made of the first heat-absorbing layer. Since the non-light-receiving surface of the dark-colored material layer is formed with the second dark-colored material layer that has a heat radiating effect, the solar radiant heat stored in the solar cell element is absorbed by the first dark-colored material layer, and the outside air is released from the second dark-colored material layer. output loss due to temperature rise of the solar cell element can be minimized.

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

第１図は本発明の太陽電池モジュールの構造を示す断面
図であり、第２図は第１図中の奮酢保委＃材オ＝部分拡
大図である。第３図は従来の太陽力との関係を示すグラ
フである。 １・・・受光面基板 ２・・・太陽電池素子 ３・・・絶縁性樹脂 ４・・・裏面保護部材 第４４図FIG. 1 is a sectional view showing the structure of the solar cell module of the present invention, and FIG. 2 is a partially enlarged view of FIG. 1. FIG. 3 is a graph showing the relationship with conventional solar power. 1... Light-receiving surface substrate 2... Solar cell element 3... Insulating resin 4... Back protection member Fig. 44

Claims (1)

【特許請求の範囲】[Claims] 直並列に配列した複数個の結晶系太陽電池素子を絶縁性
樹脂を介して受光面基板と裏面保護部材とで密着挟持し
た太陽電池モジュールにおいて、前記裏面保護部材を、
受光面側及び非受光面側が暗色部材からなる積層体で構
成したことを特徴とする太陽電池モジュール。In a solar cell module in which a plurality of crystalline solar cell elements arranged in series and parallel are tightly sandwiched between a light-receiving surface substrate and a back surface protection member via an insulating resin, the back surface protection member is
A solar cell module characterized in that a light-receiving surface side and a non-light-receiving surface side are constructed of a laminate made of dark-colored members.