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JP5577664B2 - Fixed member - Google Patents
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JP5577664B2 - Fixed member - Google Patents

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JP5577664B2
JP5577664B2 JP2009231060A JP2009231060A JP5577664B2 JP 5577664 B2 JP5577664 B2 JP 5577664B2 JP 2009231060 A JP2009231060 A JP 2009231060A JP 2009231060 A JP2009231060 A JP 2009231060A JP 5577664 B2 JP5577664 B2 JP 5577664B2
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Prior art keywords
roof panel
fixing member
lower flange
eaves
upper flange
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JP2011080199A5 (en
JP2011080199A (en
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渉 渡部
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Caname Co Ltd
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Caname Co Ltd
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24SSOLAR HEAT COLLECTORS; SOLAR HEAT SYSTEMS
    • F24S25/00Arrangement of stationary mountings or supports for solar heat collector modules
    • F24S25/60Fixation means, e.g. fasteners, specially adapted for supporting solar heat collector modules
    • F24S25/67Fixation means, e.g. fasteners, specially adapted for supporting solar heat collector modules for coupling adjacent modules or their peripheral frames
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24SSOLAR HEAT COLLECTORS; SOLAR HEAT SYSTEMS
    • F24S25/00Arrangement of stationary mountings or supports for solar heat collector modules
    • F24S25/20Peripheral frames for modules
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24SSOLAR HEAT COLLECTORS; SOLAR HEAT SYSTEMS
    • F24S25/00Arrangement of stationary mountings or supports for solar heat collector modules
    • F24S25/30Arrangement of stationary mountings or supports for solar heat collector modules using elongate rigid mounting elements extending substantially along the supporting surface, e.g. for covering buildings with solar heat collectors
    • F24S25/33Arrangement of stationary mountings or supports for solar heat collector modules using elongate rigid mounting elements extending substantially along the supporting surface, e.g. for covering buildings with solar heat collectors forming substantially planar assemblies, e.g. of coplanar or stacked profiles
    • F24S25/35Arrangement of stationary mountings or supports for solar heat collector modules using elongate rigid mounting elements extending substantially along the supporting surface, e.g. for covering buildings with solar heat collectors forming substantially planar assemblies, e.g. of coplanar or stacked profiles by means of profiles with a cross-section defining separate supporting portions for adjacent modules
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24SSOLAR HEAT COLLECTORS; SOLAR HEAT SYSTEMS
    • F24S25/00Arrangement of stationary mountings or supports for solar heat collector modules
    • F24S25/60Fixation means, e.g. fasteners, specially adapted for supporting solar heat collector modules
    • F24S25/61Fixation means, e.g. fasteners, specially adapted for supporting solar heat collector modules for fixing to the ground or to building structures
    • 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
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B10/00Integration of renewable energy sources in buildings
    • Y02B10/10Photovoltaic [PV]
    • 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
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B10/00Integration of renewable energy sources in buildings
    • Y02B10/20Solar thermal
    • 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
    • Y02E10/40Solar thermal energy, e.g. solar towers
    • Y02E10/47Mountings or tracking

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  • Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Sustainable Development (AREA)
  • Sustainable Energy (AREA)
  • Thermal Sciences (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Roof Covering Using Slabs Or Stiff Sheets (AREA)

Description

本発明は、屋根用パネルに組み合わせられる固定部材に関するものである。   The present invention relates to a fixing member to be combined with a roof panel.

従来技術について、図7から図9により説明する。図7は特許第3220833号公報に、図8は特許第4229516号公報に、図9は特許第4290750号公報に記載されていた技術である。
図7には、開口部を有する固定部材Bに、太陽電池モジュールA1をはめて固定していく技術が開示されている。そして、それらは防水性を向上させるために、下位屋根板Nと上位屋根板Mが葺かれた上に取り付けられている。
The prior art will be described with reference to FIGS. FIG. 7 shows the technology described in Japanese Patent No. 3220833, FIG. 8 shows the technology described in Japanese Patent No. 4229516, and FIG. 9 shows the technology described in Japanese Patent No. 4290750.
FIG. 7 discloses a technique in which the solar cell module A1 is fitted and fixed to a fixing member B having an opening. And in order to improve waterproofness, they are attached on the lower roof board N and the upper roof board M being rolled.

図8には、両側に開口部を有する枠体20によって支持固定された太陽電池モジュールA1が開示されている。そして、「両側に接合のための係合部が形成され中間部の凸部にT型の枠体20を有し、該枠体の両側に太陽電池モジュールパネルの側部を保持するための枠部が形成された長尺帯状の金属板から成る枠付き外囲板Rと、両側に接合のための係合部が形成され中間部に凸部が形成された長尺帯状の金属板から成る中間外囲板Sとをそれぞれ複数設け、前記枠付き外囲板Rと中間外囲板Sとを交互に下地材Q上に配置し、隣接する枠付き外囲板Rと中間外囲板Sとを接合し、前記中間外囲板Sをはさんで対向する枠付き外囲板Rの前記枠部に太陽電池モジュールパネルの両側部を差し込み自在としたことを特徴とする太陽電池モジュールパネル用外囲体。」と、記載されている。 FIG. 8 discloses a solar cell module A1 supported and fixed by a frame body 20 having openings on both sides. And “an engagement portion for joining is formed on both sides, a T-shaped frame body 20 is provided on the convex portion of the intermediate portion, and a frame for holding the side portions of the solar cell module panel on both sides of the frame body” A framed envelope plate R made of a long strip-shaped metal plate with a portion formed thereon, and a long strip-shaped metal plate with engaging portions formed on both sides and a convex portion formed in the middle portion A plurality of intermediate enclosures S are provided, and the framed enclosures R and intermediate enclosures S are alternately arranged on the base material Q, and the adjacent enclosures R and intermediate enclosures S are adjacent to each other. And both sides of the solar cell module panel can be freely inserted into the frame portion of the framed outer envelope plate R that faces the intermediate outer envelope plate S. "Enclosure."

図9の屋根用パネルAは、太陽電池モジュールA1にフレームA2が組み合わせられたものである。そして、そのフレームA2と固定部材Bとが係合し合う形状になっていて、(A)(B)(C)の手順の通りに施工していく。フレームA2と固定部材Bとは、係合しやすいように、接合部を傾斜させている。
まず、下段側のフレームA2に固定部材Bを差し込み、下地材Qの所定の位置に止着具Eで固定する。次に、上段側のフレームA2を、固定部材Bに差し込むという手順を繰り返す。
The roof panel A in FIG. 9 is obtained by combining a solar cell module A1 with a frame A2. Then, the frame A2 and the fixing member B are engaged with each other, and construction is performed according to the procedures (A), (B), and (C). The frame A2 and the fixing member B are inclined at the joint so that they can be easily engaged.
First, the fixing member B is inserted into the lower frame A <b> 2 and fixed to a predetermined position of the base material Q with the fastening tool E. Next, the procedure of inserting the upper frame A2 into the fixing member B is repeated.

特許第3220833号公報Japanese Patent No. 3220833 特許第4229516号公報Japanese Patent No. 4229516 特許第4290750号公報Japanese Patent No. 4290750

図7と図8に示した屋根用パネルAと固定部材Bの組み合わせは、いずれも、固定部材Bや枠体20の扁平な凹部に太陽電池モジュールA1を差し込んだものである。また、開口部の上側と下側とは、何ら工夫されず平行に開口している。このため、太陽電池モジュールA1を差し込みにくかった。勾配のある屋根上で、扁平な開口部に太陽電池モジュールA1を斜めに差し込むか、もしくは差し込まずに一旦仮置きしてから、凹部に向かってスライドさせて施工する必要があるからである。
図8では、「太陽電池モジュールの両側を差し込み自在」となっている。しかし、外囲板Rと中間外囲板Sとをはめ合わせては、止着具Eで固定し、その上に配置していく。このため、実際には差し込みができないか、もしくは、斜めに入れずに扁平な開口部に向かってほぼ平行にスライドさせる必要があり、取り付けが容易ではなかった。
The combination of the roof panel A and the fixing member B shown in FIGS. 7 and 8 is one in which the solar cell module A1 is inserted into the flat concave portion of the fixing member B or the frame 20. Moreover, the upper side and the lower side of the opening are opened in parallel without any contrivance. For this reason, it was difficult to insert the solar cell module A1. This is because, on a sloped roof, it is necessary to insert the solar cell module A1 obliquely into a flat opening, or temporarily place it without inserting it, and then slide it toward the concave portion.
In FIG. 8, “Solar cell module can be inserted on both sides freely”. However, when the outer envelope plate R and the intermediate outer envelope plate S are fitted together, the outer envelope plate R is fixed by the fastening device E, and is arranged thereon. For this reason, it is not possible to actually insert it, or it is necessary to slide it almost in parallel toward a flat opening without inserting it at an angle, and the attachment is not easy.

図9の屋根用パネルAと固定部材Bの組み合わせは、それぞれ、複数の棚状の面を有するフレームA2と固定部材Bとを係合させながら施工していくものである。
このため、固定部材Bに対して、係合し合う形状のフレームA2を有する屋根用パネルAしか組み合わせることができなかった。
また、係合しやすいようにフレームA2と固定部材Bとの接合部を傾斜させているが、複数の棚状の面すべてが係合し合うように確認しながらはめるので、取り付けにくかった。まして、流れ方向に隣り合う屋根用パネルA・A同士に段差が生じた場合には、はめることができなかった。
The combination of the roof panel A and the fixing member B in FIG. 9 is performed while engaging the frame A2 having a plurality of shelf-like surfaces and the fixing member B, respectively.
For this reason, only the roof panel A having the engaging frame A2 can be combined with the fixing member B.
Moreover, although the joining part of frame A2 and the fixing member B is inclined so that it can be easily engaged, it is difficult to attach because it is fitted while confirming that all the plurality of shelf-like surfaces are engaged. In addition, when there was a step between the roof panels A and A adjacent to each other in the flow direction, they could not be fitted.

本願は、屋根用パネルAを固定部材Bに組み合わせながら施工していく際、作業性のよい固定部材Bを提供することを目的とする。
また、フレームA2の形状が限定されない、屋根用パネルAの固定部材Bを提供することを目的とする。
An object of the present application is to provide a fixing member B having good workability when the roof panel A is assembled while being combined with the fixing member B.
Moreover, it aims at providing the fixing member B of the panel A for roofs in which the shape of frame A2 is not limited.

本願の屋根用パネルの固定部材は、全体形状が断面略I字状をしている。そして、上フランジと、上フランジよりも幅の広い下フランジと、上フランジと下フランジとを接合する立面とから成っている。固定部材の長さは、屋根用パネルの桁行き方向の幅と同じか、もしくは屋根用パネルの桁行き方向の幅以上に形成されている。
前記上フランジには上面部が形成されており、その裏面側には、立面を挟んで形成された上フランジ軒側裏面部と上フランジ棟側裏面部とを有している。
前記下フランジには底面部が形成されており、その表面側には、立面を挟んで形成された下フランジ軒側表面部と下フランジ棟側表面部、及び、前記下フランジ軒側表面部から先端に向かって下向きに傾斜している軒側斜面部とを有している。
上フランジ軒側裏面部と立面と下フランジ軒側表面部とで囲まれた箇所は、下段側の屋根用パネルの棟側を保持することができる高さの第一凹部となっている。上フランジ棟側裏面部と立面と下フランジ棟側表面部とで囲まれた箇所は、上段側の屋根用パネルの軒側を保持することができる高さの第二凹部となっている。
前記上フランジ軒側裏面部は下フランジ軒側表面部よりも幅広く形成されていることを特徴とする屋根用パネルの固定部材である。
The fixing member of the roof panel of the present application has a substantially I-shaped cross section as a whole. And it consists of an upper flange, a lower flange wider than the upper flange, and an elevation surface that joins the upper flange and the lower flange. The length of the fixing member is the same as the width in the traveling direction of the roof panel, or greater than the width in the traveling direction of the roof panel.
An upper surface portion is formed on the upper flange, and an upper flange eaves-side rear surface portion and an upper flange ridge-side rear surface portion are formed on the back surface side of the upper flange.
A bottom surface portion is formed on the lower flange, and on the surface side thereof, a lower flange eave side surface portion and a lower flange ridge side surface portion formed with an elevation surface interposed therebetween, and the lower flange eave side surface portion And an eaves-side slope portion that is inclined downward toward the tip.
A portion surrounded by the upper flange eave side rear surface portion, the vertical surface, and the lower flange eave side surface portion is a first concave portion having a height capable of holding the ridge side of the lower roof panel. A portion surrounded by the upper flange ridge-side rear surface, the vertical surface, and the lower flange ridge-side surface is a second recess having a height that can hold the eaves side of the upper roof panel.
The upper flange eaves side rear surface part is formed wider than the lower flange eaves side surface part, and is a fixing member for a roof panel.

請求項1によれば、屋根用パネルを取り付けるための固定部材には、上フランジと、上フランジよりも幅の広い下フランジが形成されている。下フランジには下フランジ軒側表面部、及び、そこから先端に向かって下向きに傾斜している軒側斜面部とが形成されている。
また、上フランジ軒側裏面部は下フランジ軒側表面部よりも幅広く形成されている。
このため、屋根用パネルに固定部材を差し込んで組み合わせる際に、屋根用パネルが軒側斜面部から下フランジ軒側表面部へと案内され、取り付け作業がスムーズに行える固定部材を提供できる。
固定部材の第一凹部と第二凹部とに下段側と上段側の屋根用パネルをはめることで屋根用パネルが取り付けられる。従って、固定部材の第一凹部と第二凹部にはめることができる屋根用パネルであればよく、形状が限定されない。
According to the first aspect, the fixing member for attaching the roof panel is formed with an upper flange and a lower flange wider than the upper flange. The lower flange is formed with a lower flange eaves-side surface portion and an eaves-side inclined portion that is inclined downward from the surface toward the tip.
Moreover, the upper flange eaves side back surface part is formed more widely than the lower flange eaves side surface part.
For this reason, when a fixing member is inserted and combined with the roof panel, the roof panel is guided from the eaves-side inclined surface portion to the lower flange eave-side surface portion, and a fixing member that can smoothly perform the attaching operation can be provided.
The roof panel is attached by fitting the lower and upper roof panels to the first recess and the second recess of the fixing member. Therefore, the roof panel can be fitted into the first recess and the second recess of the fixing member, and the shape is not limited.

本願の屋根用パネルAの固定部材Bの実施例の説明図である。It is explanatory drawing of the Example of the fixing member B of the panel A for roofs of this application. (ア)(イ)(ウ)は、本願の屋根用パネルAの固定部材Bを用いた取り付け状態の説明図である。(A) (b) (c) is explanatory drawing of the attachment state using the fixing member B of the panel A for roofs of this application. 本願の屋根用パネルAの固定部材Bを用いた屋根用パネルAの取り付け構造の実施例の説明図であり、流れ方向の断面図である。It is explanatory drawing of the Example of the attachment structure of the panel A for roofs using the fixing member B of the panel A for roofs of this application, and is sectional drawing of a flow direction. 本願の屋根用パネルAの固定部材Bを用いた屋根用パネルAの取り付け構造の実施例の説明図であり、桁行き方向の断面図である。It is explanatory drawing of the Example of the attachment structure of the roof panel A using the fixing member B of the roof panel A of this application, and is sectional drawing of a girder direction. 図3のA部の詳細図である。FIG. 4 is a detailed view of part A in FIG. 3. 図4のB部の詳細図である。FIG. 5 is a detailed view of a portion B in FIG. 4. 従来技術の説明図である。It is explanatory drawing of a prior art. 従来技術の説明図である。It is explanatory drawing of a prior art. 従来技術の説明図である。It is explanatory drawing of a prior art.

本願の屋根用パネルAの固定部材B、及び、それを用いた屋根用パネルAの取り付け構造について説明する。
図1は本願の屋根用パネルAを固定する固定部材Bの実施例の説明図である。図2は本願の屋根用パネルAの固定部材Bを用いた取り付け状態の説明図である。
図3は本願の屋根用パネルAの固定部材Bを用いた屋根用パネルAの取り付け構造の実施例の説明図であり、流れ方向の断面図である。図4は本願の屋根用パネルAの固定部材Bを用いた屋根用パネルAの取り付け構造の実施例の説明図であり、桁行き方向の断面図である。
図5は図3のA部の詳細図であり、図6は図4のB部の詳細図である。
The fixing member B of the roof panel A of the present application and the mounting structure of the roof panel A using the same will be described.
FIG. 1 is an explanatory view of an embodiment of a fixing member B for fixing the roof panel A of the present application. FIG. 2 is an explanatory diagram of an attachment state using the fixing member B of the roof panel A of the present application.
FIG. 3 is an explanatory view of an embodiment of the mounting structure of the roof panel A using the fixing member B of the roof panel A of the present application, and is a sectional view in the flow direction. FIG. 4 is an explanatory view of an embodiment of the mounting structure of the roof panel A using the fixing member B of the roof panel A of the present application, and is a cross-sectional view in the cross direction.
5 is a detailed view of part A in FIG. 3, and FIG. 6 is a detailed view of part B in FIG.

まず、固定部材Bについて、図1により説明する。この固定部材Bは、全体形状が断面略I字状をしている。そして、上フランジ11と、上フランジ11よりも幅の広い下フランジ12と、上フランジ11と下フランジ12とを接合する立面13とから成っている。
長さは、屋根用パネルAの桁行き方向の長さよりも長く形成されている。本実施例の場合には、太陽電池モジュールA1の周辺部のフレームA2に弾性止水材Fが貼られた屋根用パネルAが、桁行き方向に隣り合う屋根用パネルA・A同士を押しつけて取り付けたときに、桁行き方向に隣り合う固定部材B・Bの端縁が接触する長さとなっている。
前記上フランジ11には上面部11cが形成されており、その裏面側には、立面13を挟んで形成された上フランジ軒側裏面部11aと上フランジ棟側裏面部11bとを有している。
前記下フランジ12には底面部12fが形成されており、その表面側には、立面13を挟んで形成された下フランジ軒側表面部12aと下フランジ棟側表面部12c、及び、前記下フランジ軒側表面部12aから先端に向かって下向きに傾斜している軒側斜面部12bとを有している。
前記上フランジ軒側裏面部11aは、下フランジ軒側表面部12aよりも幅広く形成されている。
本実施例の場合には、上フランジ棟側裏面部11bと下フランジ棟側表面部12cの水平部分とが同じ幅であるが、上フランジ棟側裏面部11b方が幅広くてもよい。
また、下フランジ棟側表面部12cから先端に向かって下向きに傾斜している棟側斜面部12dを有している。本実施例の場合には、下フランジ棟側表面部12cと棟側斜面部12dとの間にくぼみ部12eが形成されていて、その中心部分に小さなV字状の溝が形成されている。このくぼみ部12eは、止着具Eの頭が突出しないためのものであり、V字状の溝は止着具Eを打ち込みやすくするためのものである。
First, the fixing member B will be described with reference to FIG. The fixing member B has a substantially I-shaped cross section as a whole. And it consists of the upper flange 11, the lower flange 12 wider than the upper flange 11, and the upright surface 13 which joins the upper flange 11 and the lower flange 12.
The length is formed longer than the length of the roof panel A in the direction of girder. In the case of the present embodiment, the roof panel A in which the elastic waterproofing material F is pasted on the frame A2 in the peripheral part of the solar cell module A1 presses the roof panels A and A adjacent to each other in the direction of travel. When attached, the length is such that the edges of the fixing members B and B adjacent to each other in the carry direction come into contact with each other.
The upper flange 11 is formed with an upper surface portion 11c, and has an upper flange eaves side rear surface portion 11a and an upper flange ridge side rear surface portion 11b formed on the back surface side with the upright surface 13 interposed therebetween. Yes.
The said lower flange 12 is formed with a bottom surface portion 12f, on its surface, the lower flange eaves formed across the elevation 13 side surface portion 12a and the lower flange ridge side surface portion 12c, and the lower An eaves-side slope portion 12b that is inclined downward from the flange eave-side surface portion 12a toward the tip.
The upper flange eaves side rear surface part 11a is formed wider than the lower flange eaves side surface part 12a.
In the case of this embodiment, although the horizontal portion of the upper flange ridge-side back surface 11b and the lower flange ridge side surface portion 12c are the same width, may be widely found the following upper flange ridge-side back surface 11b.
Moreover, it has the ridge side slope part 12d which inclines downward toward the front-end | tip from the lower flange ridge side surface part 12c. In the case of the present embodiment, a recessed portion 12e is formed between the lower flange ridge-side surface portion 12c and the ridge-side slope portion 12d, and a small V-shaped groove is formed in the central portion thereof. The recess 12e is for preventing the head of the fastening device E from protruding, and the V-shaped groove is for facilitating driving of the fastening device E.

上フランジ軒側裏面部11aと立面13と下フランジ軒側表面部12aとで囲まれた箇所は、下段側の屋根用パネルAの棟側を保持することができる高さの第一凹部14となっている。
上フランジ棟側裏面部11bと立面13と下フランジ棟側表面部12cとで囲まれた箇所は、上段側の屋根用パネルAの軒側を保持することができる高さの第二凹部15となっている。
第一凹部14は下段側の屋根用パネルAに差し込まれる箇所であり、第二凹部15は上段側の屋根用パネルAが差し込まれる箇所である。
屋根用パネルAが太陽電池モジュールA1の周辺部にフレームA2を有するものである場合には、フレームA2を差し込むことができる高さを有している。屋根用パネルAが太陽電池モジュールA1だけの場合には、その高さ分を差し込むことができる高さを有している。
The portion surrounded by the upper flange eaves side rear surface portion 11a, the upright surface 13 and the lower flange eaves side surface portion 12a is a first recess 14 having a height capable of holding the ridge side of the lower roof panel A. It has become.
A portion surrounded by the upper flange ridge side rear surface portion 11b, the vertical surface 13, and the lower flange ridge side surface portion 12c is a second concave portion 15 having a height capable of holding the eaves side of the roof panel A on the upper stage side. It has become.
The 1st recessed part 14 is a location inserted in the lower roof panel A, and the 2nd recessed part 15 is a location where the upper roof panel A is inserted.
When the roof panel A has the frame A2 around the solar cell module A1, the roof panel A has a height at which the frame A2 can be inserted. When the roof panel A is only the solar cell module A1, the roof panel A has such a height that it can be inserted.

次に、図2により、このような固定部材Bを用いて取り付けられる屋根用パネルAの実施例について説明する。
ここに示された屋根用パネルAは、太陽電池モジュールA1とフレームA2とから成っている。太陽電池モジュールA1の周辺部にフレームA2をはめたものであり、側方が閉塞した平面となっている。その面に、弾性止水材Fが取り付けられている。
フレームA2は、側方が突出しない形状をしている。つまり凹凸がなく、側方の一部が突出していない形状である。凹凸があっても出入りが少なく、端縁が略同一である方がよい。
本実施例の場合には、四方が断面同形状のフレームA2で構成されている。このことにより、部材の共通化がはかれ、屋根用パネルAのコストダウンとなる。
Next, an embodiment of the roof panel A attached using such a fixing member B will be described with reference to FIG.
The roof panel A shown here includes a solar cell module A1 and a frame A2. The frame A2 is fitted to the periphery of the solar cell module A1, and the side is a flat surface that is closed. An elastic water-stopping material F is attached to the surface.
The frame A2 has a shape that does not protrude laterally. That is, there is no unevenness and a part of the side does not protrude. Even if there are irregularities, it is better that there is little entry and exit and the edges are substantially the same.
In the case of the present embodiment, the four sides are constituted by a frame A2 having the same cross section. As a result, the members are shared, and the cost of the roof panel A is reduced.

続いて、このような固定部材Bを用いた屋根用パネルAの取り付け構造について図2から図6により説明する。
本実施例の場合には、次のような下地構造の上に屋根用パネルAが取り付けられた構造となっている。
本実施例では、既存のタルキCの上に、野地材Hを介して金属タルキDを取り付け、その上に防水シートGを敷いてから、屋根用パネルAと固定部材Bとを取り付けていく。
金属タルキDは、流れ方向に隣り合う2枚以上の屋根用パネルAにさしかかる長さを有していればよい。本実施例の場合には、5m程度のものが工場より出荷される。本実施例の場合には、上面D1と、その両側を折り下げた側面D2・D2とを有している。その折り下げ箇所である上面D1とその両側の側面D2・D2との角部は丸みを帯びている。これは、防水シートGが破れにくくするためである。
側面D2・D2は、それぞれの下側端縁が外側方向に折り曲げられて固定面D3・D3となっている。
このような金属タルキDを、図4のように、桁行き方向に隣り合う既存のタルキCと平行に配置し、固定面D3から止着具Eを打ち込んでタルキCに固定する。このとき、タルキCの幅が広ければ両側の固定面D3・D3を固定してもよい。
Next, the mounting structure of the roof panel A using such a fixing member B will be described with reference to FIGS.
In the case of the present embodiment, the roof panel A is attached on the following base structure.
In the present embodiment, the metal talc D is attached on the existing talc C via the field material H, and the waterproof sheet G is laid thereon, and then the roof panel A and the fixing member B are attached.
The metal talc D may be long enough to reach two or more roof panels A adjacent in the flow direction. In the case of the present embodiment, a product of about 5 m is shipped from the factory. In the case of the present embodiment, it has an upper surface D1 and side surfaces D2 and D2 with both sides folded. The corners of the upper surface D1 and the side surfaces D2 and D2 on both sides thereof are rounded. This is to make the waterproof sheet G difficult to tear.
Sides D2 and D2 are fixed surfaces D3 and D3, respectively, with their lower end edges bent in the outward direction.
As shown in FIG. 4, such a metal talc D is arranged in parallel with the existing talc C adjacent in the carry direction, and a fastening tool E is driven in from the fixed surface D3 to be fixed to the talc C. At this time, if the width of the talc C is wide, the fixing surfaces D3 and D3 on both sides may be fixed.

このようにして固定された金属タルキDの上に、防水シートGを敷いていく。このとき、金属タルキDと金属タルキDとの間に谷間ができるようにたるませて防水シートGを敷く。桁行き方向に隣り合う防水シートG・Gが、金属タルキDの上で重なるように敷くとよい。
屋根用パネルAは固定部材Bによって、防水シートGを介して金属タルキDの上面D1に止着具Eで取り付けられる。防水シートGには、谷間が形成される。そして、上面D1と側面D2・D2との角部が丸みを帯びている。
このため、隣り合う屋根用パネルA・Aの隙間から雨水が浸入したとしても、防水シートGの谷間を通って雨水が軒側に排水され、屋根の内部に雨水がはいりにくい。
防水シートGは、金属タルキDの上に敷かれたときに、野地材Hに接地せずに浮く可能性がある。しかし、金属タルキDと金属タルキDとの間が、野地材Hに接地するように余裕をもってたるませる。谷間ができたとしても、野地材Hに接地していない場合には、踏んだときに、切れる可能性があるからである。
これにより、金属タルキDと金属タルキDとの間の防水シートGを踏んだとしても、防水シートGが引っ張られて切れる可能性が低くなる。
A waterproof sheet G is laid on the metal talc D thus fixed. At this time, the waterproof sheet G is laid so that a valley is formed between the metal talc D and the metal talc D. It is advisable to lay the waterproof sheets G and G adjacent to each other so that they overlap on the metal talc D.
The roof panel A is attached to the upper surface D1 of the metal talc D by the fixing member E via the waterproof sheet G by the fixing member B. A valley is formed in the waterproof sheet G. And the corner | angular part of the upper surface D1 and side surface D2 * D2 is roundish.
For this reason, even if rainwater enters from the gap between the adjacent roof panels A and A, the rainwater is drained to the eaves side through the valleys of the waterproof sheet G, and it is difficult for rainwater to enter the roof.
When the waterproof sheet G is laid on the metal talc D, the waterproof sheet G may float without being grounded to the field material H. However, a slack is provided between the metal talc D and the metal talc D so as to contact the field material H. This is because even if a valley is formed, if it is not in contact with the field material H, it may break when stepped on.
Thereby, even if it steps on the waterproof sheet G between the metal talc D and the metal talc D, possibility that the waterproof sheet G will be pulled and cut will become low.

上述の下地構造の上に、屋根用パネルAと固定部材Bとを組み合わせた取り付け構造について説明する。流れ方向の取り付け構造について、図2・図3・図5より説明する。
流れ方向は、このような屋根用パネルAを軒側から順に取り付けていく。取り付けようとする屋根用パネルAの軒側は、すでに固定されている固定部材Bの第二凹部15に差し込まれている。従って、その屋根用パネルAの棟側のフレームA2を持ち上げて、そこに、固定部材Bの第一凹部14を差し込む。下段側の屋根用パネルAのフレームA2に第一凹部14がはまり、下フランジ軒側表面部12aの上に載せたら、固定部材Bを下げる。そして、くぼみ部12eから止着具Eを打ち込んで金属タルキDに固定する。
A mounting structure in which the roof panel A and the fixing member B are combined on the above base structure will be described. The attachment structure in the flow direction will be described with reference to FIGS.
As for the flow direction, such a roof panel A is attached in order from the eaves side. The eaves side of the roof panel A to be attached is inserted into the second recess 15 of the fixing member B that is already fixed. Therefore, the ridge side frame A2 of the roof panel A is lifted, and the first recess 14 of the fixing member B is inserted therein. When the first concave portion 14 is fitted in the frame A2 of the lower roof panel A and placed on the lower flange eaves side surface portion 12a, the fixing member B is lowered. And the fastening tool E is driven in from the hollow part 12e, and is fixed to the metal talc D.

このとき、本願の固定部材Bは、下フランジ12の方が上フランジ11よりも幅広い。そして、軒側斜面部12bが形成されていて、下フランジ軒側表面部12aよりも上フランジ11の上フランジ軒側裏面部11aの方が幅広い。
このため、下段側の屋根用パネルAのフレームA2を第一凹部14に組み合わせるときに、軒側斜面部12bをフレームA2の底面に添わせてはめればよい。
軒側斜面部12bが案内面となるので、図9のように係合し合う箇所すべてを確認しながらはめるのとは異なり、軒側斜面部12bに自然に案内されて、容易に取り付けることができる。
軒側斜面部12bに案内されて、先に、下段側の屋根用パネルAの棟側のフレームA2の上面が上フランジ軒側裏面部11aによって位置決めされ、次いで下フランジ軒側表面部12aの上に載せられる。この作業が、一連の動きとなってスムーズに行える。
At this time, in the fixing member B of the present application, the lower flange 12 is wider than the upper flange 11. And the eaves side slope part 12b is formed, and the upper flange eaves side back surface part 11a of the upper flange 11 is wider than the lower flange eaves side surface part 12a.
For this reason, when the frame A2 of the lower roof panel A is combined with the first recess 14, the eaves-side slope portion 12b may be fitted along the bottom surface of the frame A2.
Since the eaves-side slope portion 12b serves as a guide surface, it is naturally guided to the eaves-side slope portion 12b and can be easily attached, unlike being fitted while confirming all the engaging portions as shown in FIG. it can.
Guided by the eaves-side slope portion 12b, the upper surface of the ridge-side frame A2 of the lower roof panel A is first positioned by the upper flange eave-side rear surface portion 11a, and then the upper flange-side surface portion 12a It is put on. This work can be performed smoothly as a series of movements.

このようにして取り付けられた固定部材Bに対して、上段側の屋根用パネルAを組み合わせる。下段側の屋根用パネルAを固定している固定部材Bの第二凹部15に、はめる。
このとき、本実施例の固定部材Bは、棟側斜面部12dが先細りするように傾斜されている。このため、そこに添って上段側の屋根用パネルAの軒側のフレームA2の底面に添わせてはめればよい。
このようなはめ方をした場合には、棟側斜面部12dが案内面となるので、取り付けやすい。
このような手順を繰り返して、固定部材Bを用いて流れ方向に屋根用パネルAを施工していく。
これまで述べた手順でなく、固定部材Bを下段側の屋根用パネルAの棟側のフレームA2に差し込み、下段側の屋根用パネルAごと下げてもよい。
The roof panel A on the upper side is combined with the fixing member B attached in this way. It fits in the 2nd recessed part 15 of the fixing member B which is fixing the panel A for lower steps.
At this time, the fixing member B of the present embodiment is inclined so that the ridge-side slope portion 12d is tapered. For this reason, what is necessary is just to fit along the bottom face of the frame A2 of the eaves side of the roof panel A of the upper stage along there.
In such a way of fitting, the ridge-side slope portion 12d serves as a guide surface and is easy to attach.
By repeating such a procedure, the roof panel A is constructed in the flow direction by using the fixing member B.
Instead of the procedure described so far, the fixing member B may be inserted into the ridge-side frame A2 of the lower roof panel A and lowered together with the lower roof panel A.

本願の固定部材Bは、断面形状が略I字状となっていて、比較的単純な形状をしている。
ここに、側方が突出していない屋根用パネルAを組み合わせることで、固定部材Bが複雑な形状にならずに済み、屋根用パネルAと容易に組み合わせることができる。
フレームA2の側方端縁が不揃いであっても、フレームA2の上面と底面を第一凹部14と第二凹部15とにはめることができる。
つまり、上フランジ11と下フランジ12との間に、フレームA2がはまり、保持できる形状であればよい。
The fixing member B of the present application has a substantially I-shaped cross section, and has a relatively simple shape.
Here, by combining the roof panel A that does not protrude from the side, the fixing member B does not have a complicated shape, and can be easily combined with the roof panel A.
Even if the side edges of the frame A2 are uneven, the upper surface and the bottom surface of the frame A2 can be fitted into the first recess 14 and the second recess 15.
That is, it is sufficient that the frame A2 is fitted between the upper flange 11 and the lower flange 12 and can be held.

また、長さは屋根用パネルAの桁行き方向の長さよりも長くなっている。そして、本実施例の場合には、太陽電池モジュールA1の周辺部のフレームA2に弾性止水材Fが貼られた屋根用パネルAが、桁行き方向に隣り合う屋根用パネルA・A同士を押しつけて取り付けたときに、桁行き方向に隣り合う固定部材B・Bの端縁が接触する長さとなっている。
このため、隣り合う固定部材B・Bの隙間から、雨水が浸入しにくい。
フレームA2に弾性止水材Fが無く、フレームA2の桁行き方向の長さと固定部材Bの長さとが同じで、桁行き方向に隣り合うフレームA2・A2の下方に樋がある場合が考えられる。そのような場合でも、桁行き方向に隣り合う固定部材B・Bの端縁が接触する長さにし、コーキング処理したならば、隙間から雨水が浸入しにくい。
Moreover, the length is longer than the length of the roof panel A in the carry direction. And in the case of a present Example, the roof panel A in which the elastic waterproofing material F was affixed on the flame | frame A2 of the peripheral part of solar cell module A1 is the roof panel A * A adjacent in a digit direction. It is the length which the edge of fixing member B * B which adjoins in the going direction contacts when it presses and attaches.
For this reason, it is difficult for rainwater to enter from the gap between the adjacent fixing members B and B.
No elastic water stopping material F in the frame A2, and the length of digits bound direction length and fixing member B frame A2 are the same, can be considered if there is a trough below the frame A2 · A2 adjacent digits bound direction . Even in such a case, if the edge of the fixing members B and B adjacent to each other in the carry direction is made to be in contact with the caulking process, it is difficult for rainwater to enter from the gap.

図4と図6により、桁行き方向の取り付け構造について説明する。
本実施例の屋根用パネルAは、桁行き方向が突き付けられて施工されている。桁行き方向に隣り合うフレームA2・A2の側面には、弾性止水材F・Fが貼られている。このため、止水効果が十分得られるように屋根用パネルA・A同士を突き付ける。
桁行き方向に隣り合う固定部材B・Bも、端縁が接触するように突き付けていく。屋根用パネルA・Aと、固定部材B・Bとは、図6のように屋根用パネルA・Aの突き付け箇所と同じ箇所で突き付けられていてもいい。屋根用パネルAの中程で突き付けられて、屋根用パネルA・Aの突き付け箇所とずれていてもよい。
固定部材Bの長さは、屋根用パネルAの桁行き方向の長さよりも長い。固定部材Bの長さが、屋根用パネルAの桁行き方向の長さと同じか、短い場合、隙間が生じて雨漏りする可能性がある。
しかし、このように、雨仕舞いを考慮して、屋根用パネルAよりも長く、弾性止水材Fの止水効果を得られるような長さに設定しておくことで、雨漏りしにくい。
屋根用パネルAの取り付け構造は、下地構造を限定するものではない。これまで述べた屋根用パネルAと固定部材Bの組み合わせによって、施工されていればよい。従って、木製のタルキを使用してもよい。
本願は、取り付けが容易で、屋根用パネルAを限定しないことが特徴である。
また屋根用パネルAの取り付け構造の下地構造には、ゴム系の防水シートGを使用するとよい。固定部材Bを固定している止着具Eから伝わった雨水や結露水が、内部に浸入しにくい。
With reference to FIG. 4 and FIG.
The roof panel A of the present embodiment is constructed with the direction of girder being abutted. Elastic water-stopping materials F and F are affixed to the side surfaces of the frames A2 and A2 adjacent to each other in the carry direction. For this reason, roof panel A * A is abutted so that the water stop effect may fully be acquired.
The fixing members B and B that are adjacent to each other in the carry direction are also pressed so that the edges contact each other. The roof panel A / A and the fixing members B / B may be abutted at the same location as the abutment location of the roof panel A / A as shown in FIG. It may be abutted in the middle of the roof panel A and deviated from the abutting location of the roof panel A / A.
The length of the fixing member B is longer than the length of the roof panel A in the carry direction. If the length of the fixing member B is the same as or shorter than the length of the roof panel A in the carry direction, there is a possibility that a gap will occur and rain leakage will occur.
However, in consideration of the rain, the length is longer than that of the roof panel A and is set so as to obtain the water-stopping effect of the elastic water-stopping material F.
The mounting structure of the roof panel A does not limit the base structure. It may be constructed by the combination of the roof panel A and the fixing member B described so far. Therefore, wooden talc may be used.
The present application is characterized in that attachment is easy and the roof panel A is not limited.
A rubber waterproof sheet G may be used for the base structure of the roof panel A mounting structure. Rain water and condensed water transmitted from the fastening device E fixing the fixing member B are difficult to enter the inside.

これまで述べた下地構造の上に、本願の屋根用パネルAと固定部材Bとを組み合わせた取り付け構造は、次のような効果を発揮する。
図9と比較して説明する。そこに示した屋根用パネルAが、不陸のある屋根の上に施工されていたとする。屋根用パネルAは、下段側のフレームA2の中位に固定部材Bを差し込んでいく。このため、流れ方向に隣り合う屋根用パネルA・Aに段差が生じる可能性がある。段差が解消されない場合には、フレームA2への固定部材Bの差し込みが、いっそうしづらい。
すると、流れ方向に隣り合う屋根用パネルA・AのフレームA2・A2に固定部材Bを介して取り付ける際に、取り付けができない可能性がある。
本願の場合には、不陸があって流れ方向に段差が生じたとしても、金属タルキDによって、段差が解消される。平らになった下地の上に施工されるので、流れ方向に隣り合う屋根用パネルAを取り付けやすい。
The mounting structure in which the roof panel A and the fixing member B of the present application are combined on the foundation structure described so far exhibits the following effects.
This will be described in comparison with FIG. It is assumed that the roof panel A shown there is constructed on a roof with a flat surface. In the roof panel A, the fixing member B is inserted into the middle of the lower frame A2. For this reason, a level | step difference may arise in roof panel A * A adjacent to a flow direction. When the level difference is not eliminated, it is more difficult to insert the fixing member B into the frame A2.
Then, when attaching to the frames A2 and A2 of the roof panels A and A adjacent to each other in the flow direction via the fixing member B, the attachment may not be possible.
In the case of the present application, even if there is unevenness and a level difference occurs in the flow direction, the level difference is eliminated by the metal talc D. Since it is constructed on a flattened base, it is easy to attach the roof panel A adjacent in the flow direction.

再度、図9と、屋根用パネルAと固定部材Bの組み合わせについて比較する。
図9の場合には、屋根用パネルAのフレームA2と固定部材Bとが、係合し合う形状でなければならなかった。つまり、特殊な形状の屋根用パネルAと固定部材Bの組み合わせである。
しかし、本願の場合には、側方に開口する第一凹部14と第二凹部15とに組み合わせることができるフレームA2を有する屋根用パネルAであればよい。
図2に示したフレームA2のように、側方が開口していない平面を有していて、上面と底面が平行であれば、側方が略コ字状に開口している固定部材Bに組み合わせやすい。また、フレームA2の棟側が軒側斜面部12bに案内されて、上フランジ軒側裏面部11aと下フランジ軒側表面部12aとに安定して載置することができる。
しかし、図9に示された屋根用パネルAのような形状であっても、図1の構成の固定部材Bに組み合わせることができる。また、屋根用パネルAが太陽電池モジュールA1のみから成るものでもよい。
このように、固定部材Bの構成は、そこに組み合わせられる屋根用パネルAの形状を、図9のように限定するものではない。
Again, FIG. 9 and the combination of the roof panel A and the fixing member B will be compared.
In the case of FIG. 9, the frame A <b> 2 of the roof panel A and the fixing member B have to be engaged with each other. That is, a combination of the roof panel A and the fixing member B having a special shape.
However, in the case of this application, what is necessary is just the panel A for roof which has the flame | frame A2 which can be combined with the 1st recessed part 14 and the 2nd recessed part 15 which open to a side.
As in the frame A2 shown in FIG. 2, if the side has a flat surface that is not open and the top surface and the bottom surface are parallel to each other, the fixing member B that has a substantially U-shaped side opening is used. Easy to combine. Further, the ridge side of the frame A2 is guided by the eaves-side slope portion 12b , and can be stably placed on the upper flange eave-side back surface portion 11a and the lower flange eave-side surface portion 12a.
However, even the shape of the roof panel A shown in FIG. 9 can be combined with the fixing member B having the configuration of FIG. Further, the roof panel A may be composed only of the solar cell module A1.
Thus, the structure of the fixing member B does not limit the shape of the roof panel A combined therewith as shown in FIG.

A 屋根用パネル
A1 太陽電池モジュール
A2 フレーム
B 固定部材
11 上フランジ
11a 上フランジ軒側裏面部
11b 上フランジ棟側裏面部
11c 上面部
12 下フランジ
12a 下フランジ軒側表面部
12b 軒側斜面部
12c 下フランジ棟側表面部
12d 棟側斜面部
12e くぼみ部
12f 底面部
13 立面
14 第一凹部
15 第二凹部
20 枠体
C タルキ
D 金属タルキ
D1 上面
D2 側面
D3 固定面
E 止着具
F 弾性止水材
G 防水シート
H 野地材
M 上位屋根板
N 下位屋根板
Q 下地材
R 外囲板
S 中間外囲板
T 屋根材
A roof panel A1 solar cell module A2 frame B fixing member 11 upper flange 11a upper flange eaves side rear surface part 11b upper flange building side rear surface part 11c upper surface part 12 lower flange 12a lower flange eaves side surface part 12b eaves side slope part 12c lower Flange ridge-side surface portion 12d ridge-side slope portion 12e recessed portion 12f bottom surface portion 13 vertical surface 14 first concave portion 15 second concave portion 20 frame C talc D metal talc D1 upper surface D2 side D3 fixing surface E fixing device
F Elastic waterproofing material
G Tarpaulin
H Field material
M Upper roof plate
N Lower roof plate Q Base material
R outer plate
S Intermediate outer shell T Roof material

Claims (1)

屋根用パネルに組み合わせられる固定部材であって、
該固定部材は断面略I字状をしており、
前記屋根用パネルの桁行き方向の幅以上の長さに形成されており、
上フランジと立面と下フランジとから成っていて、
上フランジよりも下フランジの方が幅広く形成されており、
前記上フランジには上面部が形成されており、その裏面側には、立面を挟んで形成された上フランジ軒側裏面部と上フランジ棟側裏面部とを有しており、
前記下フランジには底面部が形成されており、その表面側には、立面を挟んで形成された下フランジ軒側表面部と下フランジ棟側表面部、及び、前記下フランジ軒側表面部から先端に向かって下向きに傾斜している軒側斜面部とを有しており、
上フランジ軒側裏面部と立面と下フランジ軒側表面部とで囲まれた箇所は屋根用パネルを保持することができる高さの第一凹部となっており、
上フランジ棟側裏面部と立面と下フランジ棟側表面部とで囲まれた箇所は屋根用パネルを保持することができる高さの第二凹部となっており、
前記上フランジ軒側裏面部は下フランジ軒側表面部よりも幅広く形成されていることを特徴とし、
前記屋根用パネルを軒側から順に取り付けていくときに、
前記軒側斜面部を下段側の屋根用パネルの棟側底部に添わせてはめられる固定部材。
A fixing member combined with a roof panel,
The fixing member has a substantially I-shaped cross section,
It is formed in a length that is equal to or greater than the width of the roof panel in the direction of travel,
It consists of an upper flange, an elevation and a lower flange.
The lower flange is formed wider than the upper flange,
The upper flange is formed with an upper surface portion, and on the back surface side thereof, has an upper flange eaves-side back surface portion and an upper flange ridge-side back surface portion formed with an elevation surface interposed therebetween,
A bottom surface portion is formed on the lower flange, and on the surface side thereof, a lower flange eave side surface portion and a lower flange ridge side surface portion formed with an elevation surface interposed therebetween, and the lower flange eave side surface portion And an eaves side slope portion inclined downward from the tip toward the tip,
The portion surrounded by the upper flange eave side rear surface portion and the vertical surface and the lower flange eave side surface portion is a first concave portion with a height that can hold the roof panel,
The portion surrounded by the upper flange ridge side rear surface and the vertical surface and the lower flange ridge side surface is a second recess having a height that can hold the roof panel,
The upper flange eaves side back surface part is formed wider than the lower flange eaves side surface part ,
When attaching the roof panel in order from the eaves side,
A fixing member that fits the eaves-side slope portion along the ridge-side bottom portion of the lower roof panel .
JP2009231060A 2009-10-03 2009-10-03 Fixed member Expired - Fee Related JP5577664B2 (en)

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Publication number Priority date Publication date Assignee Title
EP4038738A4 (en) * 2020-02-07 2023-07-05 James Young SOLAR PANEL AND RAIL WITH EDGE CONNECTORS

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JP5501125B2 (en) 2010-07-06 2014-05-21 株式会社屋根技術研究所 Fixed member
JP2014218812A (en) * 2013-05-07 2014-11-20 トヨタ自動車東日本株式会社 Panel fixing tool

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JP2002004526A (en) * 2000-06-21 2002-01-09 Matsushita Seiko Co Ltd Solar cell roof material module mounting structure
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* Cited by examiner, † Cited by third party
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