JPH06294184A - Roof panel with solar cell - Google Patents
Roof panel with solar cellInfo
- Publication number
- JPH06294184A JPH06294184A JP5082250A JP8225093A JPH06294184A JP H06294184 A JPH06294184 A JP H06294184A JP 5082250 A JP5082250 A JP 5082250A JP 8225093 A JP8225093 A JP 8225093A JP H06294184 A JPH06294184 A JP H06294184A
- Authority
- JP
- Japan
- Prior art keywords
- solar cell
- frame
- eaves
- ridge
- plate
- 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
Links
- 238000009423 ventilation Methods 0.000 description 16
- 239000003566 sealing material Substances 0.000 description 5
- 238000005192 partition Methods 0.000 description 4
- 239000010426 asphalt Substances 0.000 description 2
- 239000000463 material Substances 0.000 description 2
- 230000000149 penetrating effect Effects 0.000 description 2
- 239000011120 plywood Substances 0.000 description 2
- 238000007789 sealing Methods 0.000 description 2
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 2
- JOYRKODLDBILNP-UHFFFAOYSA-N Ethyl urethane Chemical compound CCOC(N)=O JOYRKODLDBILNP-UHFFFAOYSA-N 0.000 description 1
- 229910052782 aluminium Inorganic materials 0.000 description 1
- XAGFODPZIPBFFR-UHFFFAOYSA-N aluminium Chemical compound [Al] XAGFODPZIPBFFR-UHFFFAOYSA-N 0.000 description 1
- 238000006243 chemical reaction Methods 0.000 description 1
- 238000010276 construction Methods 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 229910052751 metal Inorganic materials 0.000 description 1
- 239000002184 metal Substances 0.000 description 1
- 238000012856 packing Methods 0.000 description 1
- 230000003014 reinforcing effect Effects 0.000 description 1
- 238000010079 rubber tapping Methods 0.000 description 1
- 125000006850 spacer group Chemical group 0.000 description 1
- 239000000725 suspension Substances 0.000 description 1
- 239000002023 wood Substances 0.000 description 1
Classifications
-
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02S—GENERATION OF ELECTRIC POWER BY CONVERSION OF INFRARED RADIATION, VISIBLE LIGHT OR ULTRAVIOLET LIGHT, e.g. USING PHOTOVOLTAIC [PV] MODULES
- H02S20/00—Supporting structures for PV modules
- H02S20/20—Supporting structures directly fixed to an immovable object
- H02S20/22—Supporting structures directly fixed to an immovable object specially adapted for buildings
- H02S20/23—Supporting structures directly fixed to an immovable object specially adapted for buildings specially adapted for roof structures
-
- Y—GENERAL 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
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B10/00—Integration of renewable energy sources in buildings
- Y02B10/10—Photovoltaic [PV]
-
- Y—GENERAL 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
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/50—Photovoltaic [PV] energy
Landscapes
- Engineering & Computer Science (AREA)
- Architecture (AREA)
- Civil Engineering (AREA)
- Structural Engineering (AREA)
- Photovoltaic Devices (AREA)
- Roof Covering Using Slabs Or Stiff Sheets (AREA)
Abstract
Description
【0001】[0001]
【産業上の利用分野】本発明は、太陽電池付き屋根パネ
ルに関する。FIELD OF THE INVENTION The present invention relates to a roof panel with a solar cell.
【0002】[0002]
【従来の技術】従来、住宅等の建築構造物の屋根の上に
複数の太陽電池を設置し、この太陽電池から住宅に電力
を供給し、省エネルギー化を図ることが実施されてい
る。太陽電池を屋根に設置するにあたっては、既設の屋
根の上に、パネル状の太陽電池を専用架台により固定す
る架台固定式が一般的である。2. Description of the Related Art Conventionally, it has been practiced to install a plurality of solar cells on the roof of a building structure such as a house and supply electric power to the house from the solar cells to save energy. When installing a solar cell on a roof, a fixed frame type is generally used in which a panel-shaped solar cell is fixed on an existing roof by a dedicated frame.
【0003】[0003]
【発明が解決しようとする課題】ところで、パネル工法
による住宅の場合、屋根を構成する屋根パネルの上面に
複数の太陽電池を設けて一体とした太陽電池付き屋根パ
ネルを用い、上記専用架台を省略する技術がある。この
場合、複数の太陽電池の間の継ぎ目の雨仕舞いに苦慮し
完全な止水構造とすることが困難であった。By the way, in the case of a house by the panel construction method, a roof panel with a solar cell integrally provided by providing a plurality of solar cells on the upper surface of the roof panel constituting the roof is used, and the dedicated mount is omitted. There is a technology to do. In this case, it was difficult to make a complete water-stop structure because it was difficult to keep the joint between the solar cells from raining.
【0004】本発明は上記事情に鑑みてなされたもので
あって、太陽電池付き屋根パネルにおける太陽電池間の
止水性の向上を目的としている。The present invention has been made in view of the above circumstances, and it is an object of the present invention to improve the waterproof property between solar cells in a roof panel with solar cells.
【0005】[0005]
【課題を解決するための手段】本発明は上記目的を達成
するためになされたもので、屋根の傾斜に沿って棟側か
ら軒先側にわたり張られるベースパネルの上面に、少な
くとも一対の太陽電池パネルが棟側から軒先側に並べて
取り付けられてなる太陽電池付き屋根パネルにおいて、
前記太陽電池パネルは、太陽電池の周囲に枠状のフレー
ムが装着されて構成され、棟側に配された太陽電池パネ
ルにおける軒先側のフレームには、軒先側に配された太
陽電池パネルにおける棟側のフレームの上を覆って延び
る延出片が形成され、さらにこの延出片の先端は、軒先
側に配された太陽電池パネルにおける棟側のフレームの
軒先側の先端に略一致している構成としたことを特徴と
している。The present invention has been made to achieve the above object, and at least a pair of solar cell panels is provided on the upper surface of a base panel extending from the ridge side to the eaves side along the slope of the roof. In the roof panel with solar cells that is installed side by side from the ridge side to the eaves side,
The solar cell panel is configured by mounting a frame-shaped frame around the solar cells, the eaves side frame in the solar cell panel arranged on the ridge side, the ridge in the solar cell panel arranged on the eaves side An extension piece extending over the side frame is formed, and the tip of this extension piece is substantially aligned with the tip of the eaves side of the ridge-side frame of the solar cell panel arranged on the eaves side. It is characterized by being configured.
【0006】[0006]
【作用】本発明によれば、棟側の太陽電池パネルから軒
先側の太陽電池パネルに雨水が流れる際、その雨水は、
棟側のフレームの延出片の上から軒先側の太陽電池パネ
ルの上に至る。延出片は軒先側の太陽電池パネルの棟側
のフレームを覆っているから、双方の太陽電池パネル間
には雨水が侵入にくい。また、延出片の先端が軒先側に
配された太陽電池パネルにおける棟側のフレームの軒先
側の先端に略一致しているから、延出片に覆われた軒先
側のフレームが表面に露出せず外観性の向上が図られ
る。According to the present invention, when rainwater flows from the solar cell panel on the ridge side to the solar cell panel on the eaves side, the rainwater is
From the extension piece of the frame on the ridge side to the solar panel on the eaves side. Since the extension piece covers the ridge-side frame of the solar panel on the eaves side, rainwater is unlikely to enter between both solar panels. Also, since the tip of the extension piece is approximately aligned with the tip of the eaves side of the ridge-side frame of the solar cell panel arranged on the eaves side, the eaves side frame covered with the extension piece is exposed on the surface. The appearance is improved without doing so.
【0007】[0007]
【実施例】以下、図面を参照して本発明の一実施例を説
明する。DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings.
【0008】図1は本発明の一実施例が適用された住宅
の屋根構造の、棟Mから軒先Nにわたる概略断面を示し
ており、図1の符号1は本発明に係る長方形状の太陽電
池付き屋根パネル1で、この屋根パネル1は、その長手
方向が棟Mから軒先Nに沿った状態で張られ、屋根Yを
構成している。FIG. 1 shows a schematic cross section of a roof structure of a house to which an embodiment of the present invention is applied, from a ridge M to an eaves N. Reference numeral 1 in FIG. 1 is a rectangular solar cell according to the present invention. In the attached roof panel 1, the roof panel 1 is stretched in a state where the longitudinal direction extends from the ridge M to the eaves N, and forms a roof Y.
【0009】その太陽電池付き屋根パネル1は、縦横に
組まれた複数の芯材2aの上に面板2bが張られた長方
形状のベースパネル2の上に、複数の太陽電池パネル3
が張られて構成されている。The solar cell-equipped roof panel 1 includes a plurality of solar cell panels 3 on a rectangular base panel 2 having a face plate 2b stretched on a plurality of vertically and horizontally assembled core members 2a.
Is stretched and configured.
【0010】太陽電池パネル3は、図2ないし図5に示
すように、多数の太陽電池セルが透明板に内蔵された矩
形パネル状の太陽電池4と、この太陽電池4の四辺に着
脱可能に装着されたグレージングチャンネル5と、これ
らグレージングチャンネル5に着脱可能に装着され太陽
電池パネル3のフレームとなる上框(フレーム)6、下
框(フレーム)7および縦框(フレーム)8とから構成
されている。As shown in FIGS. 2 to 5, the solar cell panel 3 has a rectangular panel-shaped solar cell 4 in which a large number of solar cells are built in a transparent plate, and is detachably attached to the four sides of the solar cell 4. It is composed of the mounted glazing channels 5, and an upper frame (frame) 6, a lower frame (frame) 7 and a vertical frame (frame) 8 which are detachably mounted on the glazing channels 5 and serve as a frame of the solar cell panel 3. ing.
【0011】グレージングチャンネル5は、太陽電池4
の縁を覆って嵌め込まれる筒状体であって、ある程度の
弾性を有する材料により、略平らな内片9と、この内片
9の幅方向両端部から内片9に略直交して立ち上がる側
片10と、これら側片10をつなぐ断面台形状の頭部片
11と、各側片10の内面に互いに対向する方向(幅方
向)に延びる舌片12とが一体成形されたものである。
内片9の中央には、長手方向に延びる嵌合切欠き5aが
形成されている。内片9の幅方向両端は側片10よりも
外方に突出するリブ9aとなっており、また頭部片11
の幅方向両端にも僅かに外方に突出するリブ11aが形
成されている。これらリブにより、グレージングチャン
ネル5の両側面(図3では上下面である)には、自身の
長手方向に嵌合溝5bが形成されている。The glazing channel 5 is a solar cell 4
Is a tubular body that is fitted to cover the edges of the inner piece 9 and is made of a material having a certain degree of elasticity, and a side that rises from the widthwise both ends of the inner piece 9 substantially orthogonally to the inner piece 9. The piece 10, a head piece 11 having a trapezoidal cross-section that connects the side pieces 10, and a tongue piece 12 that extends in the direction (width direction) facing each other on the inner surface of each side piece 10 are integrally formed.
A fitting notch 5a extending in the longitudinal direction is formed in the center of the inner piece 9. Both ends in the width direction of the inner piece 9 are ribs 9a projecting outward more than the side piece 10, and the head piece 11
Ribs 11a that slightly project outward are formed at both ends in the width direction. Due to these ribs, fitting grooves 5b are formed on both side surfaces (upper and lower surfaces in FIG. 3) of the glazing channel 5 in the longitudinal direction thereof.
【0012】このグレージングチャンネル5は、頭部片
11の内面に太陽電池4の縁が当たるまでその縁に嵌合
切欠き5aを嵌め込むことにより、太陽電池4に装着さ
れている。この状態で、内片9の嵌合切欠き5aに臨む
内面は太陽電池4の縁に圧接状態で密着し、また、舌片
12は挿入される太陽電池4の縁に押されて弾性変形し
その先端がやはりその縁に密着している。The glazing channel 5 is attached to the solar cell 4 by fitting a notch 5a into the edge of the solar cell 4 until the edge of the solar cell 4 hits the inner surface of the head piece 11. In this state, the inner surface of the inner piece 9 facing the fitting notch 5a is in close contact with the edge of the solar cell 4 in a pressed state, and the tongue piece 12 is pressed by the edge of the solar cell 4 to be elastically deformed. The tip is still in close contact with the edge.
【0013】前記各框6、7、8は、上記のように太陽
電池4の縁に装着されたグレージングチャンネル5に装
着されて太陽電池パネル3のフレームとなるもので、太
陽電池4の互いに対向する一対の辺にそれぞれ装着され
る上框6および下框7と、他の一対の辺にそれぞれ装着
される縦框8の3種類ある。太陽電池パネル3は、上框
6が装着された方が棟M側に、下框7が装着された側が
軒先N側に配され、縦框8が屋根Yの傾斜方向に沿った
状態とされる。これら各框6、7、8は、アルミの押出
し材等でできている。Each of the frames 6, 7 and 8 is mounted on the glazing channel 5 mounted on the edge of the solar cell 4 as described above to form a frame of the solar cell panel 3, and the solar cells 4 face each other. There are three types: an upper frame 6 and a lower frame 7 which are respectively mounted on a pair of sides, and a vertical frame 8 which is respectively mounted on another pair of sides. The solar panel 3 has the upper frame 6 attached to the ridge M side, the lower frame 7 attached to the eaves N side, and the vertical frame 8 is in the state of being inclined along the roof Y. It Each of these frames 6, 7 and 8 is made of an extruded material such as aluminum.
【0014】上框6と下框7は、基本的には同様の構成
で、図2に示すように、互いに対向して平行な外縁板1
3および内縁板14と、互いに対向して平行な上側板1
5および下側板16と、外縁板13と内縁板14の間に
おいて上側板15と下側板16とにわたる仕切板17と
が一体成形され、内縁板14には長手方向に延びる開口
18が形成されるとともに、外縁板13、内縁板14、
上側板15および下側板16に囲まれた外側空洞部19
が形成された断面略長方形状の筒状体である。The upper frame 6 and the lower frame 7 have basically the same structure, and as shown in FIG.
3 and the inner edge plate 14 and the upper plate 1 facing and parallel to each other
5 and the lower side plate 16 and a partition plate 17 extending between the upper side plate 15 and the lower side plate 16 between the outer edge plate 13 and the inner edge plate 14 are integrally molded, and an opening 18 extending in the longitudinal direction is formed in the inner edge plate 14. Together with the outer edge plate 13, the inner edge plate 14,
Outer cavity 19 surrounded by upper plate 15 and lower plate 16
Is a tubular body having a substantially rectangular cross section.
【0015】下側板16の端部には、上側板15に向か
って直立する突片20が一体に形成されている。内縁板
14の開口18に臨む端部には、仕切板17側に向かっ
て延び、前記グレージングチャンネル5の嵌合溝5bに
きつく嵌合する短い嵌合突片21が形成されている。仕
切板17は外縁板13と内縁板14に対し平行で、仕切
板17の内側つまり外縁板13に面する内面には、長手
方向に延びるビス孔片22が一体に形成されている。内
縁板14の長手方向両端部における開口18側の縁に
は、長方形状の切欠き23が形成されている。A projecting piece 20 which stands upright toward the upper plate 15 is integrally formed at the end of the lower plate 16. A short fitting protrusion 21 is formed at an end of the inner edge plate 14 facing the opening 18 and extends toward the partition plate 17 side and tightly fits into the fitting groove 5b of the glazing channel 5. The partition plate 17 is parallel to the outer edge plate 13 and the inner edge plate 14, and a screw hole piece 22 extending in the longitudinal direction is integrally formed on the inner side of the partition plate 17, that is, the inner surface facing the outer edge plate 13. Rectangular cutouts 23 are formed in the edges of the inner edge plate 14 on the opening 18 side at both ends in the longitudinal direction.
【0016】上框6と下框7の相違点は、上框6の外縁
板13には、断面L字状の当接片24が一体に形成され
ていることと、下框7における下側板16には、上框6
のそれよりも外方に長く延びる延出片25が一体に形成
されていることにある。The difference between the upper frame 6 and the lower frame 7 is that the outer edge plate 13 of the upper frame 6 is integrally formed with a contact piece 24 having an L-shaped cross section, and the lower plate of the lower frame 7. 16 is the upper frame 6
The extension piece 25 extending outwardly longer than that is integrally formed.
【0017】当接片24は、外縁板13の下側板16寄
りの端部に形成されて長手方向に延びており、その先端
にはシール材26が貼られるようになっている。また、
延出片25は、上側板15から連続してやや上方斜めに
延びる斜部25aを経て上側板15と平行に延びてお
り、その下面は、下側板16の上面よりもやや上にある
よう設定されている。そして、上框6と下框7とを、上
側板15を上にした状態で外縁板13と内縁板14を向
かい合わせ、前記シール材26を介在させた状態で合わ
せると、下框7の延出片25が上框6の上側板15に覆
い被さるようになっている。The contact piece 24 is formed at an end portion of the outer edge plate 13 near the lower plate 16 and extends in the longitudinal direction, and a sealing material 26 is attached to the tip thereof. Also,
The extending piece 25 extends in parallel with the upper plate 15 through a slanted portion 25a that extends from the upper plate 15 and extends obliquely slightly upward, and the lower surface thereof is set to be slightly above the upper surface of the lower plate 16. ing. Then, when the upper frame 6 and the lower frame 7 are brought into contact with the outer edge plate 13 and the inner edge plate 14 with the upper plate 15 facing upward and the sealing material 26 is interposed, the lower frame 7 is extended. The protruding piece 25 covers the upper plate 15 of the upper frame 6.
【0018】この場合、延出片25の長さは、上記のよ
うに上框6の上側板15に覆い被さった状態で、その先
端が上框6の上側板15の先端に一致するよう設定され
ている。なお、下框7の延出片25と上框6の上側板1
5との重なり部分は、屋根1として傾斜した状態で構成
された場合、両者の間の隙間は、雨水が毛細管現象によ
り上昇し太陽電池パネル3の間に入り込まない程度に設
定される。In this case, the length of the extending piece 25 is set so that the tip of the extending piece 25 is aligned with the tip of the upper plate 15 of the upper frame 6 while being covered with the upper plate 15 of the upper frame 6 as described above. Has been done. The extension piece 25 of the lower frame 7 and the upper plate 1 of the upper frame 6
When the roof 1 is configured to be inclined, the overlapping portion with 5 is set so that the gap between the roof 1 and the solar cell panel 3 does not get into the space between the solar cell panels 3 due to the capillary phenomenon.
【0019】上記上框6および下框7は、太陽電池4の
表面側に上側板15を配し、開口18に前記グレージン
グチャンネル5の頭部片11を挿入し、かつ上下の嵌合
溝5bに上下の嵌合突片21をそれぞれ嵌合させること
により、グレージングチャンネル5を介して太陽電池4
に装着されている。この装着状態で、上框6および下框
7の開口18は、グレージングチャンネル5の頭部片1
1に閉塞され、内縁板14の内側には内側空洞部19b
が形成される。In the upper frame 6 and the lower frame 7, the upper plate 15 is arranged on the surface side of the solar cell 4, the head piece 11 of the glazing channel 5 is inserted into the opening 18, and the upper and lower fitting grooves 5b are formed. The upper and lower fitting protrusions 21 are fitted to the solar cell 4 through the glazing channel 5, respectively.
Is attached to. In this mounted state, the openings 18 of the upper frame 6 and the lower frame 7 have the head piece 1 of the glazing channel 5.
1, the inner cavity portion 19b is provided inside the inner edge plate 14.
Is formed.
【0020】一方、縦框8は、図3に示すように、互い
に対向して平行な外縁板27および内縁板28と、互い
に対向して平行な上側板29および下側板30と、外縁
板27の下端から外方に延びる固定片31とが一体成形
され、内縁板28には長手方向に延びる開口32が形成
された断面略長方形状の筒状体である。下側板30は外
縁板27と内縁板28の下端よりも内部側にあり、この
下側板30と上側板29の間の内縁板28に前記開口3
2が形成されている。内縁板28の開口32に臨む端部
には、外縁板27側に向かって延び、前記グレージング
チャンネル5の嵌合溝5bにきつく嵌合する短い嵌合突
片34が形成されている。また、内縁板28の両端部に
おける内側の縁には、長方形状の切欠き35が形成され
ている。On the other hand, as shown in FIG. 3, the vertical frame 8 has an outer edge plate 27 and an inner edge plate 28 which are parallel to each other, an upper plate 29 and a lower plate 30 which are parallel to each other, and an outer edge plate 27. Is a tubular body having a substantially rectangular cross section, which is integrally formed with a fixing piece 31 extending outward from the lower end of the above, and an opening 32 extending in the longitudinal direction is formed in the inner edge plate 28. The lower side plate 30 is located inside the lower ends of the outer edge plate 27 and the inner edge plate 28, and the opening 3 is formed in the inner edge plate 28 between the lower side plate 30 and the upper side plate 29.
2 is formed. At the end of the inner edge plate 28 facing the opening 32, a short fitting protrusion 34 is formed which extends toward the outer edge plate 27 and tightly fits into the fitting groove 5b of the glazing channel 5. Further, rectangular cutouts 35 are formed at the inner edges of both ends of the inner edge plate 28.
【0021】上記縦框6は、太陽電池4の表面側に上側
板29を配し、開口32にグレージングチャンネル5の
頭部片11を挿入し、かつ上下の嵌合溝5bに上下の嵌
合突片34をそれぞれ嵌合させることにより、グレージ
ングチャンネル5を介して太陽電池4に装着されてい
る。この装着状態で、縦框8の開口32はグレージング
チャンネル5の頭部片11に閉塞され、内縁板28の内
側には上側空洞部33aが形成される。In the vertical frame 6, the upper plate 29 is arranged on the front surface side of the solar cell 4, the head piece 11 of the glazing channel 5 is inserted into the opening 32, and the upper and lower fitting grooves 5b are fitted vertically. The protrusions 34 are fitted to each other so that they are attached to the solar cell 4 via the glazing channel 5. In this mounted state, the opening 32 of the vertical frame 8 is closed by the head piece 11 of the glazing channel 5, and an upper cavity 33a is formed inside the inner edge plate 28.
【0022】このように、上框6、下框7および縦框8
を各グレージングチャンネル5に装着すると、上框6と
下框7の両端部は、各切欠き23、35の嵌め合いによ
り縦框8の内部に入り、かつ縦框8の外側板29は、上
框6および下框7の外側板29に覆い被さるようになっ
ており、縦框8の外縁板27に貫通させたビス36を上
框6および下框7のビス孔片22にねじ込むことによっ
て、最終的に各框6、7、8は各グレージングチャンネ
ル5を介して太陽電池4の四辺に装着され、これによっ
て太陽電池パネル3が組み立てられている。図4はその
組立状態、図5は分解状態をそれぞれ示している。Thus, the upper frame 6, the lower frame 7 and the vertical frame 8
When each is attached to each glazing channel 5, both ends of the upper frame 6 and the lower frame 7 enter the inside of the vertical frame 8 by fitting the notches 23 and 35, and the outer plate 29 of the vertical frame 8 is It is designed to cover the outer plates 29 of the frame 6 and the lower frame 7, and by screwing the screws 36 penetrating the outer edge plate 27 of the vertical frame 8 into the screw hole pieces 22 of the upper frame 6 and the lower frame 7, Finally, the frames 6, 7 and 8 are mounted on the four sides of the solar cell 4 via the glazing channels 5, whereby the solar cell panel 3 is assembled. FIG. 4 shows the assembled state, and FIG. 5 shows the disassembled state.
【0023】この組立状態において、上框6と下框7の
両端部が各切欠き23、35の嵌め合いにより縦框8の
内部に入ることにより、上框6および下框7の内側空洞
部19bと縦框8の上側空洞部33aは、互いに連通し
ている。また、各框6、7、8の上側板15、29の表
面は、太陽電池4の表面よりもある程度高くなってお
り、この結果、太陽電池パネル3全体の表面における太
陽電池4の部分は、矩形状の凹所4aとなっている。In this assembled state, both ends of the upper frame 6 and the lower frame 7 enter the inside of the vertical frame 8 by fitting the notches 23 and 35, so that the inner cavity of the upper frame 6 and the lower frame 7 is formed. 19b and the upper cavity 33a of the vertical frame 8 communicate with each other. The surfaces of the upper plates 15 and 29 of the frames 6, 7 and 8 are higher than the surface of the solar cell 4 to some extent, and as a result, the portion of the solar cell 4 on the entire surface of the solar cell panel 3 is It is a rectangular recess 4a.
【0024】上記構成の太陽電池パネル3は、前記ベー
スパネル2の面板2bの上面に複数(たとえば横に2つ
縦に5つ)並べられて固定されるが、面板2bに直接固
定されるのではなく面板2bに固定された樋状の支持レ
ール37に固定されている。A plurality of solar cell panels 3 having the above-mentioned structure are arranged and fixed on the upper surface of the face plate 2b of the base panel 2 (for example, two horizontally and five vertically), but are directly fixed to the face plate 2b. Instead, it is fixed to a gutter-shaped support rail 37 fixed to the face plate 2b.
【0025】この支持レール37は、図3に示すよう
に、上方に開口する断面略U字状の樋状板38の内部に
載置板39が形成され、載置板39を共有する上方の樋
部37aと下方の筒部37bとの上下2段構造となって
いる。樋状板38の左右一対の縦板40は、筒部37b
において、一方は幅方向内側にクランク状に僅かに屈曲
する屈曲部40aが形成されているものの略真っ直ぐ上
方に延びており、他方は内側に向かって斜めに延び斜部
40bとなっている。ここで、屈曲部40aが形成され
た側の縦板40を外側縦板40A、斜部40bが形成さ
れた側を内側縦板40Bとすると、内側縦板40Bの斜
部40bには、斜部40bに直交して長手方向に延びる
固定片41が一体に突設されている。この固定片41の
先端は、樋部37aにおける内側縦板40Bの延長線上
内にある。As shown in FIG. 3, this support rail 37 has a mounting plate 39 formed inside a gutter plate 38 having an approximately U-shaped cross section that opens upward, and the mounting plate 39 is shared by the upper plate. It has an upper and lower two-stage structure of a gutter portion 37a and a lower tubular portion 37b. The pair of left and right vertical plates 40 of the gutter-shaped plate 38 has a cylindrical portion 37b.
In one of the above, one has a bent portion 40a which is slightly bent in a crank shape on the inner side in the width direction, but extends substantially straight upward, and the other extends obliquely toward the inner side to form a slanted portion 40b. Here, assuming that the vertical plate 40 on the side where the bent portion 40a is formed is the outer vertical plate 40A and the side on which the slant portion 40b is formed is the inner vertical plate 40B, the slant portion 40b of the inner vertical plate 40B has the slant portion. A fixing piece 41 which is orthogonal to 40b and extends in the longitudinal direction is integrally projectingly provided. The tip of this fixing piece 41 is on the extension line of the inner vertical plate 40B in the trough portion 37a.
【0026】上記支持レール37は、アスファルトルー
フィング42が貼られたベースパネル2の面板2bの表
面に、その長手方向をベースパネル2の長手方向に沿う
状態で、かつ太陽電池パネル3の一対の縦框8が樋部3
7aに収納される間隔がおかれこれを一対として固定さ
れている。すなわち一対の支持レール37は互いに平行
で、さらに内側縦板40Bが互いに向かい合う状態とな
っている。支持レール37が配される面板2bの下に
は、ベースパネル2の長手方向に延びる芯材2aが固着
されており、この芯材2aに対し、固定片41に通した
木ネジ43を打ち込むことによって、支持レール37は
ベースパネル2に固定されている。なお、前記アスファ
ルトルーフィング42は、支持レール37が配される位
置に沿って面板2bに貼られた両面テープ44に固着さ
れる。The support rails 37 are provided on the surface of the face plate 2b of the base panel 2 on which the asphalt roofing 42 is adhered, with the longitudinal direction thereof aligned with the longitudinal direction of the base panel 2 and a pair of vertical lengths of the solar cell panel 3. Frame 8 is Hibe 3
There is a space between them stored in 7a and they are fixed as a pair. That is, the pair of support rails 37 are parallel to each other, and the inner vertical plates 40B face each other. A core member 2a extending in the longitudinal direction of the base panel 2 is fixed below the face plate 2b on which the support rail 37 is arranged, and a wood screw 43 passed through a fixing piece 41 is driven into the core member 2a. Thus, the support rail 37 is fixed to the base panel 2. The asphalt roofing 42 is fixed to a double-sided tape 44 attached to the face plate 2b along the position where the support rail 37 is arranged.
【0027】この場合、一対の支持レール37に、ベー
スパネル2の縦方向に並べられる全ての太陽電池パネル
3が固定されるようになっており、太陽電池パネル3が
幅方向に隣り合う部分には、支持レール37が2つ近接
して固定されている。これら近接する支持レール37
は、僅かな隙間をおいて外側縦板40Aが向かい合って
おり、これら外側縦板40Aの間の上下には、それぞれ
シール材45、46が、さらにその上端部には、2つの
外側縦板にまたがるシール材47が、それぞれ全長にわ
たって装着されている。また、近接する外側縦板40A
の間は、化粧目地ガスケット49により塞がれる。In this case, all the solar cell panels 3 arranged in the vertical direction of the base panel 2 are fixed to the pair of support rails 37, and the solar cell panels 3 are arranged in the portions adjacent to each other in the width direction. Has two support rails 37 fixed in proximity to each other. These adjacent support rails 37
Have outer vertical plates 40A facing each other with a slight gap therebetween. Sealing members 45 and 46 are respectively provided above and below the outer vertical plates 40A, and two outer vertical plates are provided at the upper end thereof. Sealing material 47 is installed over the entire length. In addition, the adjacent outer vertical plate 40A
The space between them is closed by the makeup joint gasket 49.
【0028】そして上記支持レール37には、一対の支
持レール37に対し複数の太陽電池パネル3が、上框6
を棟M側に、下框7を軒先N側に向け、縦框8を樋部3
7aの載置板39に置いた状態で固定されている。この
状態で、縦框8の上側空洞部33aの下には、外縁板2
7、内縁板28、下側板30および載置板38に囲まれ
た下側空洞部33bが形成される。On the support rail 37, a plurality of solar cell panels 3 are provided for the pair of support rails 37, and the upper frame 6
To the ridge M side, the lower frame 7 toward the eaves N side, and the vertical frame 8 to the gutter 3
It is fixed while being placed on the mounting plate 39 of 7a. In this state, the outer edge plate 2 is provided below the upper cavity portion 33a of the vertical frame 8.
7, a lower cavity 33b surrounded by the inner edge plate 28, the lower plate 30, and the mounting plate 38 is formed.
【0029】これら一対の支持レール37に固定され
た、すなわちベースパネル2の長手方向に沿って固定さ
れた太陽電池パネル3は、前記シール材26を介在させ
て合わせられ、その状態で、屋根Yとして張られた状態
における棟M側の太陽電池パネル3の下框7に形成され
た延出片25が、その先端が、軒先N側の太陽電池パネ
ル3の上框6の上側板15の先端に一致した状態で覆い
被さっている。なお、太陽電池パネル3の接続部は補強
金具48が両者にわたって固定される。そして、このよ
うに支持レール37を介して複数の太陽電池パネル3が
ベースパネル2の上に張られてなる本実施例の太陽電池
付き屋根パネル1においては、太陽電池パネル3とベー
スパネル2の間に、通気層1Aが空いている。この通気
層1Aは、各框6、7、8および支持レール37により
確保されている。The solar cell panels 3 fixed to the pair of support rails 37, that is, fixed along the longitudinal direction of the base panel 2, are aligned with the sealing material 26 interposed, and in that state, the roof Y The extending piece 25 formed on the lower frame 7 of the solar cell panel 3 on the ridge M side in the state of being stretched as a ridge has the tip end of the upper plate 15 of the upper frame 6 of the solar cell panel 3 on the eaves N side. It is covered in a state that matches with. In addition, at the connection portion of the solar cell panel 3, a reinforcing metal fitting 48 is fixed over both. Then, in the roof panel 1 with a solar cell of the present embodiment in which the plurality of solar cell panels 3 are stretched on the base panel 2 via the support rails 37 in this manner, the solar cell panel 3 and the base panel 2 are In the meantime, the ventilation layer 1A is vacant. The ventilation layer 1A is secured by the frames 6, 7, 8 and the support rail 37.
【0030】さて、上記太陽電池付き屋根パネル1は、
固定された太陽電池パネル3の上框6を棟M側に向けて
住宅の屋根Yとして棟Mから軒先Nにわたって図示せぬ
梁に固定されている。Now, the roof panel 1 with solar cells is
The fixed upper frame 6 of the solar cell panel 3 is fixed to a beam (not shown) from the ridge M to the eaves N as the roof Y of the house with the ridge M facing toward the ridge M side.
【0031】棟Mは図6に示すように、棟木50、結合
棟木51、棟包板52、笠木53、棟換気金物54等か
ら構成されている。屋根パネル1の通気層1Aは、棟換
気金物54内に連通しており、棟換気金物54の内部
は、屋外に連通している。もっとも棟M側の太陽電池パ
ネル3の上框6と笠木53の間には棟水切板55が張ら
れ、この棟水切板55の下端部と上框6との間にできる
隙間は、ウレタン等からなるシール材56により塞がれ
ている。As shown in FIG. 6, the ridge M is made up of a ridge tree 50, a combined ridge tree 51, a ridge packing plate 52, a head tree 53, a ridge ventilation hardware 54 and the like. The ventilation layer 1A of the roof panel 1 communicates with the inside of the ridge ventilation hardware 54, and the inside of the ridge ventilation hardware 54 communicates with the outside. A ridge drainer 55 is stretched between the upper frame 6 of the solar cell panel 3 on the side of the ridge M and the headstock 53, and the gap formed between the lower end of the ridge drainer 55 and the upper frame 6 is made of urethane or the like. It is closed by a sealing material 56 made of.
【0032】一方、軒先Nは、図7に示すように、結合
桁60、樋61を備えており、もっとも軒先N側の太陽
電池パネル3と軒先Nの先端との間には、所定の長さ空
けられ、そこには軒先Nの全長にわたって軒先合板62
が張られているとともに、さらにその上に上側の軒先水
切板63が張られている。軒先合板62は、軒先Nにお
いて長手方向に並ぶ支持レール37に固定されている。
また、ベースパネル2の軒先N側の先端の上面には、下
側の軒先水切板64が張られている。これら水切板6
3、64は、先端において屋根Yの傾斜よりもさらに下
方に屈曲してその開口65は前記樋61の内部に臨んで
おり、その開口65は、多数の換気孔が形成された換気
ガラリ66で塞がれている。On the other hand, the eaves N is provided with a connecting girder 60 and a gutter 61 as shown in FIG. 7, and a predetermined length is provided between the solar cell panel 3 closest to the eaves N side and the tip of the eaves N. The eaves plywood 62 over the entire length of the eaves N
And the upper eaves drainage plate 63 is further stretched thereon. The eaves plywood 62 is fixed to the support rails 37 aligned in the longitudinal direction at the eaves N.
Further, a lower eaves draining plate 64 is stretched on the upper surface of the tip of the eaves N side of the base panel 2. These draining plates 6
3 and 64 are bent further downward than the inclination of the roof Y at their tips, and their openings 65 face the inside of the gutter 61. The openings 65 are ventilation louvers 66 in which a large number of ventilation holes are formed. It is blocked.
【0033】前記樋61は、結合桁60に取り付けられ
たブラケット67、68および内吊金具69を介して軒
先Nに設けられている。The gutter 61 is provided on the eaves N through the brackets 67 and 68 attached to the connecting girder 60 and the inner suspension fitting 69.
【0034】以上が本発明の屋根構造の一実施例である
が、この屋根構造によれば、複数の太陽電池パネル3を
樋状の支持レール37で支持しており、横方向に並ぶ太
陽電池パネル3の継ぎ目部分はその支持レール37で受
けられるから、その継ぎ目部分を特別な雨仕舞い構造と
することなく止水できる。The above is one embodiment of the roof structure of the present invention. According to this roof structure, the plurality of solar cell panels 3 are supported by the gutter-shaped support rails 37, and the solar cells arranged in the lateral direction are arranged. Since the seam portion of the panel 3 is received by the support rail 37, the water can be stopped without making the seam portion have a special rain-sealing structure.
【0035】さて、その降雨時における雨水は、太陽電
池パネル3あるいは支持レール37の上を流れて樋61
に流れていく。Now, the rainwater at the time of the rain flows over the solar cell panel 3 or the support rail 37 and flows into the gutter 61.
Flow to.
【0036】太陽電池パネル3の上を流れる雨水は、上
框6、太陽電池4、下框7の順でその表面を流れていく
が、ここで、下框7の延出片25が上框6の上側板15
に覆い被さっているから、上框6と下框7の隙間から雨
水が太陽電池パネル3内に入り込むことがないととも
に、両者の重なる部分はある程度の長さ確保されている
から、強風の際にも雨水が太陽電池パネル3の内部に侵
入しない。The rainwater flowing on the solar cell panel 3 flows on the surface of the upper frame 6, the solar cell 4, and the lower frame 7 in this order. Here, the extension piece 25 of the lower frame 7 is on the upper frame. 6 upper plate 15
Since it is covered with the rainwater, rainwater does not enter the solar cell panel 3 through the gap between the upper frame 6 and the lower frame 7, and the overlapping portion of both is secured to some extent, so in the event of a strong wind. However, rainwater does not enter the inside of the solar cell panel 3.
【0037】また、下框7の延出片25の先端は上框6
の内側の先端(内縁)に一致するまで延びており下框7
が表面に露出しないから、外観性の向上が図られる。Further, the tip of the extending piece 25 of the lower frame 7 has the upper frame 6
It extends until it matches the inner tip (inner edge) of the lower frame 7.
Since it is not exposed on the surface, the appearance can be improved.
【0038】支持レール37の上を流れる雨水は、化粧
目地ガスケット49の上を流れることになるが、この目
地49と縦框8との間から支持レール37の樋部37a
に入り込むと、その雨水は樋部37aを通って軒先Nま
で流れ、換気ガラリ66の換気孔から樋61内に落ちて
いく。The rainwater flowing on the support rail 37 flows on the makeup joint gasket 49, and the trough portion 37a of the support rail 37 is inserted between the joint 49 and the vertical frame 8.
When entering, the rainwater flows through the gutter portion 37a to the eaves N, and falls from the ventilation hole of the ventilation gallery 66 into the gutter 61.
【0039】また、樋部37aを流れる雨水が載置板3
9のセルフタッピングビス70の貫通部から下に漏れて
も、支持レール37は、樋部37aとその下の筒部37
bとからなる2段構造であるので、その雨水は下の筒部
37b内で受けられ、それ以上、下に漏れることなく筒
部37bを経て完全に樋61まで流れていく。したがっ
て、漏水が完全に防止される。Rainwater flowing through the gutter 37a is placed on the mounting plate 3
Even if the self-tapping screw 70 of 9 leaks downward from the penetrating portion, the support rail 37 is provided with a gutter portion 37a and a tubular portion 37 below it.
Since it has a two-stage structure consisting of b and b, the rainwater is received in the lower tubular portion 37b and further flows completely to the gutter 61 through the tubular portion 37b without leaking downward. Therefore, water leakage is completely prevented.
【0040】また、上記屋根構造においては、屋外に吹
く風が、軒先Nに設けられた換気ガラリ66の換気孔か
ら屋根パネル1の通気層1Aを経て棟換気金物54に流
れ込み、ここから再び屋外に排出されていく。このよう
な風(空気)の流れにより熱放散がなされ、太陽電池4
の温度上昇が抑制され、その結果、太陽電池4のエネル
ギー変換効率が常に高く維持され、安定した電力供給が
図られる。また、通気層1Aへの空気の取り入れ口であ
る換気ガラリ66は、上下の軒先水切板63、64の間
隔を一定に保持するスペーサとしての機能を果たす。Further, in the above roof structure, the wind that blows outdoors flows from the ventilation holes of the ventilation gallery 66 provided at the eaves N into the ridge ventilation hardware 54 through the ventilation layer 1A of the roof panel 1 and then again outdoors. Will be discharged to. Heat is dissipated by such a flow of wind (air), and the solar cell 4
The temperature rise is suppressed, and as a result, the energy conversion efficiency of the solar cell 4 is always maintained high, and stable power supply is achieved. Further, the ventilation gallery 66, which is an intake port of air to the ventilation layer 1A, functions as a spacer for keeping the interval between the upper and lower eaves drainage plates 63 and 64 constant.
【0041】[0041]
【発明の効果】以上説明したように、本発明の太陽電池
付き屋根パネルによれば、棟側の太陽電池パネルから軒
先側の太陽電池パネルに雨水が流れる際、その雨水は、
棟側のフレームの延出片の上から軒先側の太陽電池パネ
ルの上に至り、延出片は軒先側の太陽電池パネルの棟側
のフレームを覆っているから、双方の太陽電池パネル間
には雨水が侵入しにくく止水性の向上が図られる。ま
た、延出片の先端が軒先側に配された太陽電池パネルに
おける棟側のフレームの軒先側の先端に略一致している
ことにより、延出片に覆われた軒先側のフレームが表面
に露出せず外観性の向上が図られる。As described above, according to the roof panel with a solar cell of the present invention, when rainwater flows from the solar cell panel on the ridge side to the solar cell panel on the eaves side, the rainwater is
From the top of the extension piece of the frame on the ridge side to the top of the solar panel on the eaves side, the extension piece covers the frame on the ridge side of the solar panel on the eaves side. It is difficult for rainwater to invade, and the waterproofness can be improved. In addition, since the tip of the extension piece substantially matches the tip of the eaves side of the frame on the ridge side of the solar cell panel arranged on the eaves side, the eaves side frame covered by the extension piece is on the surface. The appearance is improved without being exposed.
【図1】本発明の一実施例の側断面図である。FIG. 1 is a side sectional view of an embodiment of the present invention.
【図2】図1の要部拡大図である。FIG. 2 is an enlarged view of a main part of FIG.
【図3】図2のFーF線矢視断面図である。3 is a sectional view taken along the line FF of FIG.
【図4】太陽電池パネルの組立状態の斜視図である。FIG. 4 is a perspective view of a solar cell panel in an assembled state.
【図5】太陽電池パネルの分解斜視図である。FIG. 5 is an exploded perspective view of a solar cell panel.
【図6】棟の側断面図である。FIG. 6 is a side sectional view of a ridge.
【図7】軒先の側断面図である。FIG. 7 is a side sectional view of an eaves tip.
1 太陽電池付き屋根パネル 2 ベースパネル 3 太陽電池パネル 4 太陽電池 6 上框(フレーム) 7 下框(フレーム) 8 縦框(フレーム) 25 延出片 37 支持レール Y 屋根 1 Roof Panel with Solar Cell 2 Base Panel 3 Solar Cell Panel 4 Solar Cell 6 Upper Frame (Frame) 7 Lower Frame (Frame) 8 Vertical Frame (Frame) 25 Extension Piece 37 Support Rail Y Roof
───────────────────────────────────────────────────── フロントページの続き (72)発明者 佐々木 道夫 東京都江東区木場2丁目7番23号 新日軽 株式会社内 (72)発明者 三輪 哲夫 東京都江東区木場2丁目7番23号 新日軽 株式会社内 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Michio Sasaki 2-723, Kiba, Koto-ku, Tokyo Shin-Nigaru Co., Ltd. Within
Claims (1)
たり張られるベースパネルの上面に、少なくとも一対の
太陽電池パネルが棟側から軒先側に並べて取り付けられ
てなる太陽電池付き屋根パネルにおいて、 前記太陽電池パネルは、太陽電池の周囲に枠状のフレー
ムが装着されて構成され、棟側に配された太陽電池パネ
ルにおける軒先側のフレームには、軒先側に配された太
陽電池パネルにおける棟側のフレームの上を覆って延び
る延出片が形成され、さらにこの延出片の先端は、軒先
側に配された太陽電池パネルにおける棟側のフレームの
軒先側の先端に略一致していることを特徴とする太陽電
池付き屋根パネル。1. A roof panel with solar cells in which at least a pair of solar cell panels are mounted side by side from the ridge side to the eaves side on the upper surface of a base panel stretched from the ridge side to the eaves side along the slope of the roof, The solar cell panel is configured by mounting a frame-shaped frame around the solar cells, the eaves side frame in the solar cell panel arranged on the ridge side, the ridge in the solar cell panel arranged on the eaves side An extension piece extending over the side frame is formed, and the tip of this extension piece is substantially aligned with the tip of the eaves side of the ridge-side frame of the solar cell panel arranged on the eaves side. A roof panel with a solar cell, which is characterized by that.
Priority Applications (8)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP5082250A JPH06294184A (en) | 1993-04-08 | 1993-04-08 | Roof panel with solar cell |
| DE69425393T DE69425393T2 (en) | 1993-04-08 | 1994-03-29 | Roof plate with solar batteries and roof structure with solar batteries |
| EP94302272A EP0619404B1 (en) | 1993-04-08 | 1994-03-29 | Roof panel with solar batteries and roof structure with solar batteries |
| AU59244/94A AU684742B2 (en) | 1993-04-08 | 1994-03-31 | Roof panel with solar batteries and roof structure with solar batteries |
| US08/223,507 US5509973A (en) | 1993-04-08 | 1994-04-06 | Roof panel and roof structure with solar batteries |
| CA002120650A CA2120650C (en) | 1993-04-08 | 1994-04-06 | Roof panel with solar batteries and roof structure with solar batteries |
| NO941263A NO305613B1 (en) | 1993-04-08 | 1994-04-07 | Roof panel with solar cells and roof construction with solar cells |
| FI941639A FI941639A (en) | 1993-04-08 | 1994-04-08 | Roof panel with solar cell and roof panel structure with solar cell |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP5082250A JPH06294184A (en) | 1993-04-08 | 1993-04-08 | Roof panel with solar cell |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| JPH06294184A true JPH06294184A (en) | 1994-10-21 |
Family
ID=13769196
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP5082250A Pending JPH06294184A (en) | 1993-04-08 | 1993-04-08 | Roof panel with solar cell |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPH06294184A (en) |
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2009510291A (en) * | 2005-09-30 | 2009-03-12 | ゼネラル・エレクトリック・カンパニイ | Photovoltaic roof building cap and installation method |
| JP2010525194A (en) * | 2007-04-20 | 2010-07-22 | アルセロールミタル−ステンレス・アンド・ニツケル・アロイ | Support frame for a panel such as a photoelectric panel, and a building outer wall including such a panel |
| JP2016011507A (en) * | 2014-06-27 | 2016-01-21 | 株式会社Lixil | Sunlight-using roof |
-
1993
- 1993-04-08 JP JP5082250A patent/JPH06294184A/en active Pending
Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2009510291A (en) * | 2005-09-30 | 2009-03-12 | ゼネラル・エレクトリック・カンパニイ | Photovoltaic roof building cap and installation method |
| JP2010525194A (en) * | 2007-04-20 | 2010-07-22 | アルセロールミタル−ステンレス・アンド・ニツケル・アロイ | Support frame for a panel such as a photoelectric panel, and a building outer wall including such a panel |
| JP4882120B2 (en) * | 2007-04-20 | 2012-02-22 | アルセロールミタル−ステンレス・アンド・ニツケル・アロイ | Support frame for a panel such as a photoelectric panel, and a building outer wall including such a panel |
| JP2016011507A (en) * | 2014-06-27 | 2016-01-21 | 株式会社Lixil | Sunlight-using roof |
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|---|---|---|---|
| A02 | Decision of refusal |
Free format text: JAPANESE INTERMEDIATE CODE: A02 Effective date: 20010918 |