JP2012107449A - Solar panel attachment structure - Google Patents

Solar panel attachment structure Download PDF

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Publication number
JP2012107449A
JP2012107449A JP2010258161A JP2010258161A JP2012107449A JP 2012107449 A JP2012107449 A JP 2012107449A JP 2010258161 A JP2010258161 A JP 2010258161A JP 2010258161 A JP2010258161 A JP 2010258161A JP 2012107449 A JP2012107449 A JP 2012107449A
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Prior art keywords
solar panel
roof
support
support leg
attachment structure
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JP2010258161A
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Japanese (ja)
Inventor
Masayuki Uto
正行 宇都
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EIJU SANGYO KK
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EIJU SANGYO KK
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Priority to JP2010258161A priority Critical patent/JP2012107449A/en
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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
    • F24S25/70Arrangement of stationary mountings or supports for solar heat collector modules with means for adjusting the final position or orientation of supporting elements in relation to each other or to a mounting surface; with means for compensating mounting tolerances
    • 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
    • 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
    • F24S2025/601Fixation means, e.g. fasteners, specially adapted for supporting solar heat collector modules by bonding, e.g. by using adhesives
    • 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
    • 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

Abstract

PROBLEM TO BE SOLVED: To provide a solar panel attachment structure that facilitates construction and that does not cause leakage of rain.SOLUTION: A solar panel attachment structure 20 constructed on a roof 22 of a building comprises: a plurality of magnets 24 that are attached by attractive force onto the roof 22 covered with a metal roofing material 15 with magnetic properties, a cover cap 16 and the like; support legs 25 that are erected on the magnets 24, respectively; and a solar panel 23 that is supported by the plurality of support legs 25. Additionally, a male screw part 25a is provided as expansion/contraction means for changing the support height of the support leg 25, on the outer periphery of the support leg 25; the magnet 24 is provided with a bearing for rotatably supporting the support leg 25; and a support frame 23a of the solar panel 23 is provided with a female screw part for being screwed to the male screw part 25a of the support leg 25.

Description

本発明は、着磁性を有する金属板で葺かれた屋根にソーラーパネルを設置する際に用いられるソーラーパネル取付け構造に関する。   The present invention relates to a solar panel mounting structure used when a solar panel is installed on a roof that is covered with a metal plate having magnetism.

着磁性を有する金属板の一つである鋼板で葺かれた屋根にソーラーパネルを設置する際の取付け構造については、従来、様々な方式が開発されているが、本願発明に関連するものとして、例えば、特許文献1記載の「ソーラーパネル取付け装置」がある。   As for the mounting structure when installing a solar panel on a roof that is rolled up with a steel plate that is one of the metal plates with magnetism, various methods have been developed in the past, but as related to the present invention, For example, there is a “solar panel mounting device” described in Patent Document 1.

この「ソーラーパネル取付け装置」は、屋根の勾配方向に沿って間隔をあけて固定される固定ボルト付きの複数の固定部材と、前記固定部材によって屋根の勾配方向に沿って固定される複数の縦フレームと、前記縦フレーム上にこれと直交して固定される複数の横フレームと、最上段の前記横フレームと屋根の棟との間に取り付けられる棟カバーとを備え、前記横フレームの間にソーラーパネルが取り付けられる。   This “solar panel mounting device” includes a plurality of fixing members with fixing bolts fixed at intervals along the gradient direction of the roof, and a plurality of vertical members fixed along the gradient direction of the roof by the fixing members. A frame, a plurality of horizontal frames fixed orthogonally on the vertical frame, and a ridge cover attached between the horizontal frame on the uppermost stage and the ridge of the roof, and between the horizontal frames A solar panel is attached.

特開2009−91811号公報JP 2009-91811 A

特許文献1記載の「ソーラーパネル取付け装置」は、複数の固定部材、縦フレーム及び横フレームなどで構成されているため、施工の際には多くの資材が必要であり、資材の搬入作業及び取付け作業などにも多大な時間と労力を要する。   The “solar panel mounting device” described in Patent Document 1 is composed of a plurality of fixing members, vertical frames, horizontal frames, and the like. A lot of time and labor are required for work.

また、固定部材を固定するためのビス孔を屋根(カラー鋼板やスレート板など)に開設しなければならず、ビス孔部分には雨水浸入防止用のコーキングを施す必要があり、取付け作業時間の増大を招いている。さらに、コーキングの経時劣化により、雨漏りが発生することがある。   In addition, screw holes for fixing the fixing member must be opened in the roof (color steel plate, slate plate, etc.), and it is necessary to perform caulking to prevent rainwater intrusion at the screw hole portion. It is causing an increase. In addition, rain leakage may occur due to deterioration of coking over time.

本発明が解決しようとする課題は、施工が容易で、雨漏りも発生しない、ソーラーパネル取付け構造を提供することにある。   The problem to be solved by the present invention is to provide a solar panel mounting structure that is easy to construct and does not cause rain leakage.

本発明のソーラーパネル取付け構造は、着磁性を有する金属材で葺かれた屋根に吸着された磁石と、前記磁石に立設された支持脚と、前記支持脚によって支持されたソーラーパネルと、を備えたことを特徴とする。   The solar panel mounting structure of the present invention comprises a magnet adsorbed on a roof that is covered with a metal material having magnetism, a support leg standing on the magnet, and a solar panel supported by the support leg. It is characterized by having.

このような構成とすれば、磁石の吸着力で屋根上に固定された支持脚にソーラーパネルを固定することができ、施工作業の際に、屋根に孔を開設したり、ネジや釘などを使用したりする必要もないので、施工が容易であり、雨漏りが発生することもない。磁石の種類は限定しないが、例えば、フェライト系マグネットなどが好適である。   With such a configuration, the solar panel can be fixed to the support legs fixed on the roof by the magnet's adsorption force, and a hole is opened in the roof or screws and nails are attached during the construction work. Since there is no need to use it, construction is easy and no leaking occurs. Although the kind of magnet is not limited, for example, a ferrite magnet or the like is suitable.

また、前記支持脚の支持高さを変更可能な伸縮手段を設ければ、施工現場の屋根に凹凸がある場合、伸縮手段で支持脚の支持高さを変更することによってソーラーパネルを適切な姿勢に保持することが可能となるので、施工性が向上する。   In addition, if an extension means that can change the support height of the support legs is provided, if the roof of the construction site is uneven, the solar panel can be placed in an appropriate posture by changing the support height of the support legs with the extension means. Therefore, workability is improved.

ここで、前記伸縮手段として、ネジ式の伸縮機構を設ければ、ネジの回転という簡単な作業で支持脚の支持高さを変更可能となるので、施工性がさらに向上する。   Here, if a screw-type expansion / contraction mechanism is provided as the expansion / contraction means, the support height of the support leg can be changed by a simple operation of rotating the screw, so that the workability is further improved.

本発明により、施工が容易で、雨漏りも発生しない、ソーラーパネル取付け構造を提供することができる。   According to the present invention, it is possible to provide a solar panel mounting structure that is easy to construct and does not cause rain leakage.

本発明の実施形態であるソーラーパネル取付け構造を示す斜視図である。It is a perspective view which shows the solar panel attachment structure which is embodiment of this invention. 図1に示す建築物の軒先側から見た図である。It is the figure seen from the eaves side of the building shown in FIG. 図2に示す支持脚付近の部分拡大図である。FIG. 3 is a partially enlarged view in the vicinity of a support leg shown in FIG. 2. 図1のA−A線における分解斜視図である。It is a disassembled perspective view in the AA of FIG.

以下、図面に基づいて、本発明の実施形態について説明する。図1に示すように、本実施形態のソーラーパネル取付け構造20は建築物21の屋根22上に構築されている。図2に示すように、ソーラーパネル取付け構造20は、着磁性を有する金属製の葺上材15及びカバーキャップ16などで葺かれた屋根22上に吸着された複数の磁石24と、それぞれの磁石24に立設された支持脚25と、複数の支持脚25によって支持されたソーラーパネル23と、を備えている。   Hereinafter, embodiments of the present invention will be described with reference to the drawings. As shown in FIG. 1, the solar panel mounting structure 20 of this embodiment is constructed on a roof 22 of a building 21. As shown in FIG. 2, the solar panel mounting structure 20 includes a plurality of magnets 24 adsorbed on a roof 22 covered with a metal roofing material 15 having a magnetism, a cover cap 16, and the like, and each magnet. 24, and a solar panel 23 supported by a plurality of support legs 25.

また、支持脚25の支持高さを変更するための伸縮手段として、図3に示すように、支持脚25の外周に雄ねじ部25aを設け、磁石24に支持脚25を回転自在に支える軸受け27を設け、ソーラーパネル23の支持フレーム23aに支持脚25の雄ネジ部25aと螺合する雌ネジ部28を設けている。   Further, as an expansion / contraction means for changing the support height of the support leg 25, as shown in FIG. 3, a male screw portion 25 a is provided on the outer periphery of the support leg 25, and a bearing 27 that rotatably supports the support leg 25 on the magnet 24. And a female screw portion 28 to be screwed into the male screw portion 25a of the support leg 25 is provided on the support frame 23a of the solar panel 23.

ソーラーパネル取付け構造20においては、磁石24の吸着力で屋根22上に固定された複数の支持脚25によってソーラーパネル23を固定することができるため、施工作業の際に、屋根22に孔を開設したり、ネジや釘などを使用したりする必要がなく、施工が容易であり、雨漏りが発生することもない。また、磁石24はその吸着力以上の力を加えれば屋根22から離脱可能であり、屋根22に孔を残すこともないので、施工後にソーラーパネル23の移動や取り換えが必要となった場合にも容易に対応することができる。   In the solar panel mounting structure 20, since the solar panel 23 can be fixed by a plurality of support legs 25 fixed on the roof 22 by the attractive force of the magnet 24, a hole is opened in the roof 22 during construction work. No need to use screws, nails, etc., construction is easy, and no rain leaks occur. In addition, the magnet 24 can be detached from the roof 22 by applying a force greater than its attracting force, and no holes are left in the roof 22, so that it is necessary to move or replace the solar panel 23 after construction. It can be easily handled.

また、支持脚25の支持高さを変更可能な伸縮手段として、ネジ式の伸縮機構(軸受け27,雄ねじ部25a,雌ねじ部28)を設けているため、施工現場の屋根22に凹凸があっても、支持脚25を回転させてその支持高さを変更することによってソーラーパネル23を適切な姿勢に保持することができる。この場合、支持脚25の雄ねじ部25aを回転させるという簡単な作業で支持脚25の支持高さを変更することができるので、施工性も良好である。   In addition, since the screw-type expansion / contraction mechanism (bearing 27, male screw portion 25a, female screw portion 28) is provided as an expansion / contraction means capable of changing the support height of the support leg 25, the roof 22 at the construction site has irregularities. However, the solar panel 23 can be held in an appropriate posture by rotating the support leg 25 and changing the support height. In this case, since the support height of the support leg 25 can be changed by a simple operation of rotating the male screw portion 25a of the support leg 25, the workability is also good.

ここで、図4に基づいて、建築物21の屋根22の構造について説明する。図4に示すように、屋根22は、勾配方向Rの谷溝11を設けた状態で建築物21(図1参照)の一部に敷設された下地合板12と、谷溝11内に凹溝部13aを嵌め込んだ状態で下地合板12上に配置されたジョイントベース13と、ジョイントベース13の凹溝部13a内に配置されたスプリングキャッチャー14と、勾配方向Rと平行をなす辺縁部15a同士をスプリングキャッチャー14上で対向させた状態でジョイントベース13上及び下地合板12上に敷設された複数の葺上材15と、葺上材15の辺縁部15a同士の隙間Pを覆うカバー部16b及び隙間Pを通過してスプリングキャッチャー14に嵌入される凸条部16aを有するカバーキャップ16と、を備え、葺上材15の辺縁部15aの上面と、カバーキャップ16のカバー部16bの下面とを防水性を有する両面粘着テープ17で貼着している。   Here, the structure of the roof 22 of the building 21 will be described with reference to FIG. As shown in FIG. 4, the roof 22 has a base plywood 12 laid in a part of the building 21 (see FIG. 1) with a valley groove 11 in the gradient direction R, and a groove portion in the valley groove 11. The joint base 13 arranged on the base plywood 12 with the 13a fitted, the spring catcher 14 arranged in the concave groove portion 13a of the joint base 13, and the edge portions 15a parallel to the gradient direction R A cover portion 16b that covers the gaps P between the plurality of upper members 15 laid on the joint base 13 and the base plywood 12 and the edge portions 15a of the upper members 15 in a state of being opposed to each other on the spring catcher 14; A cover cap 16 having a ridge 16a that passes through the gap P and is fitted into the spring catcher 14, and includes an upper surface of the edge portion 15a of the gutter upper member 15, It is stuck to the lower surface of the bar portion 16b with double-sided adhesive tape 17 having a waterproof.

下地合板12は、下部合板12aと、その上に一定間隔ごとに配置された複数の上部合板12bとで構成され、隣り合う上部合板12bの間に谷溝11が形成されている。谷溝11を含む下地合板12上面全体を覆うようにポリエチレンシート18が敷設され、このポリエチレンシート18上にジョイントベース13が配置されている。   The base plywood 12 is composed of a lower plywood 12a and a plurality of upper plywoods 12b arranged at regular intervals on the lower plywood 12a. Valley grooves 11 are formed between adjacent upper plywoods 12b. A polyethylene sheet 18 is laid so as to cover the entire upper surface of the base plywood 12 including the valley groove 11, and the joint base 13 is disposed on the polyethylene sheet 18.

ジョイントベース13は、スプリングキャッチャー14を把持するための部材であり、下地合板12の谷溝11内に嵌め込まれる凹溝部13aと、この凹溝部13aの両側にそれぞれ略水平方向に延設された側縁部13bと、を有するとともに、凹溝部13aの前縁部13f及び後縁部13rが当該凹溝部13aを横断する方向に切断された形状である。また、凹溝部13aの底面には、勾配方向Rに沿って断面U字状の複数の補強用凸条13eが設けられている。   The joint base 13 is a member for gripping the spring catcher 14. The joint base 13 is fitted into the valley groove 11 of the base plywood 12, and the sides extending substantially horizontally in both sides of the groove 13 a. An edge portion 13b, and the front edge portion 13f and the rear edge portion 13r of the groove portion 13a are cut in a direction crossing the groove portion 13a. A plurality of reinforcing ridges 13e having a U-shaped cross section along the gradient direction R are provided on the bottom surface of the groove 13a.

スプリングキャッチャー14は、葺上材15及びカバーキャップ16を保持するための部材であり、ジョイントベース13の凹溝部13a内に配設され、カバーキャップ16の凸条部16aを把持するために形成された溝部14aと、葺上材15の辺縁部15aを保持するために溝部14aの両側に延設された平坦部14bと、平坦部14bを溝部14aとともに支持するために平坦部14bの側縁に沿って溝部14aと同方向へ突設された脚部14cと、を有する。   The spring catcher 14 is a member for holding the collar upper material 15 and the cover cap 16, and is disposed in the concave groove portion 13 a of the joint base 13, and is formed to grip the convex strip portion 16 a of the cover cap 16. A groove 14a, a flat portion 14b extending on both sides of the groove 14a to hold the edge portion 15a of the gutter upper member 15, and a side edge of the flat portion 14b to support the flat portion 14b together with the groove 14a. And a leg portion 14c protruding in the same direction as the groove portion 14a.

カバーキャップ16においては、帯状板材の長手方向の両側縁部をそれぞれ裏面側へ略180度折り曲げることによってカバー部16bが形成され、対向する両側縁部同士を裏面と略90度をなす方向へ折り曲げるとともに、両側縁部をそれぞれ、く字状断面、逆く字状断面をなすように折り曲げることによって長手方向の空洞16cを内包した凸条部16aが形成されている。   In the cover cap 16, a cover portion 16 b is formed by bending both side edges in the longitudinal direction of the belt-like plate material approximately 180 degrees toward the back surface, and the opposing side edges are bent in a direction that forms approximately 90 degrees with the back surface. At the same time, the ridges 16a including the longitudinal cavities 16c are formed by bending both side edges so as to form a cross-section and a reverse cross-section.

複数の葺上材15は、勾配方向Rと平行をなす辺縁部15a同士をスプリングキャッチャー14上で対向させた状態でジョイントベース13上及び下地合板12上に敷設された発泡ポリエチレンシート12上を覆うように敷設される。この後、対向する葺上材15の辺縁部15aの上面にそれぞれ両面粘着テープ17を貼り付け、カバーキャップ16の凸条部16aを、葺上材15の上面からその辺縁部15a同士の隙間Pを通過してスプリングキャッチャー14の溝14aに嵌入させると、カバーキャップ16のカバー部16bの下面が両面粘着テープ17の上面に貼り付き、辺縁部15a同士が、カバーキャップ16を介して接続された状態で葺上材15が固定される。   A plurality of upper materials 15 are formed on the foamed polyethylene sheet 12 laid on the joint base 13 and the base plywood 12 with the edge portions 15a parallel to the gradient direction R facing each other on the spring catcher 14. It is laid to cover. Thereafter, the double-sided adhesive tape 17 is applied to the upper surface of the edge portion 15a of the facing upper member 15 facing each other, and the protruding strip portion 16a of the cover cap 16 is connected to When the gap P passes through the gap P and is fitted into the groove 14 a of the spring catcher 14, the lower surface of the cover portion 16 b of the cover cap 16 sticks to the upper surface of the double-sided adhesive tape 17, and the edge portions 15 a pass through the cover cap 16. The upper covering material 15 is fixed in a connected state.

図4に示すように、葺上材15の辺縁部15aの上面と、カバーキャップ16のカバー部16bの下面と、の隙間が両面粘着テープ17で塞がれ且つ固着された状態となるため、長期間が経過しても前記隙間が拡がることがなく、雨水や塵埃などの浸入も生じないので、長期間にわたって優れた耐久性を発揮する。   As shown in FIG. 4, the gap between the upper surface of the edge portion 15 a of the upper material 15 and the lower surface of the cover portion 16 b of the cover cap 16 is closed and fixed by the double-sided adhesive tape 17. In addition, the gap does not widen even after a long period of time, and no intrusion of rainwater or dust occurs.

なお、図4においては、葺上材15の辺縁部15aの上面にそれぞれ両面粘着テープ17を貼り付けた後、カバーキャップ16を取り付けているが、これに限定しないので、カバー部16bの下面に予め両面粘着テープ17を貼り付けた状態としたカバーキャップ16を、葺上材15の上面から取り付け、葺上材15の辺縁部15aの上面にそれぞれ両面粘着テープ17を貼り付けることもできる。   In FIG. 4, the cover cap 16 is attached after the double-sided adhesive tape 17 is applied to the upper surface of the edge portion 15 a of the upper material 15. However, the present invention is not limited to this, so the lower surface of the cover portion 16 b It is also possible to attach the cover cap 16 in a state where the double-sided adhesive tape 17 has been previously attached to the upper surface of the upper material 15 and attach the double-sided adhesive tape 17 to the upper surface of the edge portion 15a of the upper material 15 respectively. .

なお、前述した屋根22は、本発明のソーラーパネル取付け構造を施工可能な屋根の一例を示すものであり、本発明のソーラーパネル取付け構造が施工可能な屋根をこれに限定するものではないので、着磁性を有する金属材で葺かれた屋根に対して広く施工可能である。   In addition, the roof 22 described above is an example of a roof on which the solar panel mounting structure of the present invention can be constructed, and the roof on which the solar panel mounting structure of the present invention can be constructed is not limited thereto. It can be widely applied to roofs made of metal materials with magnetism.

本発明のソーラーパネル取付け構造は、着磁性を有する金属板で葺かれた屋根を備えた建築物にソーラーパネルを固定する手段として、広く利用することができる。   The solar panel mounting structure of the present invention can be widely used as means for fixing a solar panel to a building having a roof that is covered with a magnetic metal plate.

11 谷溝
11f 前端部
12 下地合板
12a 下部合板
12b 上部合板
13 ジョイントベース
13a 凹溝部
13b 側縁部
13e 補強用凸条
13f 前縁部
13r 後縁部
14 スプリングキャッチャー
14a 溝部
14b 平坦部
14c 脚部
15 葺上材
15a 辺縁部
16 カバーキャップ
16a 凸条部
16b カバー部
16c 空洞
17 両面粘着テープ
18 ポリエチレンシート
20 ソーラーパネル取付け構造
21 建築物
22 屋根
23 ソーラーパネル
24 磁石
25 支持脚
25a 雄ネジ部
27 軸受け
28 雌ネジ部28
R 勾配方向 11 Valley groove 11f Front end portion 12 Base plywood 12a Lower plywood 12b Upper plywood 13 Joint base 13a Concave groove portion 13b Side edge portion 13e Reinforcing protrusion 13f Front edge portion 13r Rear edge portion 14 Spring catcher 14a Groove portion 14b Flat portion 14c Leg portion 15葺 Upper material 15a Edge 16 Cover cap 16a Projection 16b Cover 16c Cavity 17 Double-sided adhesive tape 18 Polyethylene sheet 20 Solar panel mounting structure 21 Building 22 Roof 23 Solar panel 24 Magnet 25 Support leg 25a Male thread 27 Bearing 28 Female thread portion 28
R Gradient direction

Claims (3)

着磁性を有する金属材で葺かれた屋根に吸着された磁石と、前記磁石に立設された支持脚と、前記支持脚によって支持されたソーラーパネルとを備えたことを特徴とするソーラーパネル取付け構造。   A solar panel mounting comprising: a magnet adsorbed on a roof sown by a metal material having magnetism; a support leg standing on the magnet; and a solar panel supported by the support leg Construction. 前記支持脚の支持高さを変更可能な伸縮手段を設けた請求項1記載のソーラーパネル取付け構造。   The solar panel mounting structure according to claim 1, further comprising expansion / contraction means capable of changing a support height of the support legs. 前記伸縮手段として、ネジ式の伸縮機構を設けた請求項2記載のソーラーパネル取付け構造。   The solar panel mounting structure according to claim 2, wherein a screw-type extension mechanism is provided as the extension means.
JP2010258161A 2010-11-18 2010-11-18 Solar panel attachment structure Pending JP2012107449A (en)

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Cited By (7)

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Publication number Priority date Publication date Assignee Title
JP2013040462A (en) * 2011-08-12 2013-02-28 Alpha Kogyo Kk Structure for mounting photovoltaic power generation system
KR101485054B1 (en) 2013-04-30 2015-01-22 주식회사 케이디파워 Photovoltaic Generation Device
AT517121A3 (en) * 2015-04-30 2018-08-15 Rene Schmid Photovoltaic module and fastening system
US10371185B2 (en) 2017-01-09 2019-08-06 David Lynn Magnetically-controlled connectors and methods of use
US10651786B2 (en) 2018-01-08 2020-05-12 David Lynn Panel with magnetically-controlled connectors for attachment to a support member
KR20200133497A (en) * 2019-05-20 2020-11-30 주식회사 금호테크닉스 Solar Module of Magnetic Attachment Type
US10971870B2 (en) 2018-08-17 2021-04-06 David Lynn Connection interface for a panel and support structure

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2013040462A (en) * 2011-08-12 2013-02-28 Alpha Kogyo Kk Structure for mounting photovoltaic power generation system
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AT517121A3 (en) * 2015-04-30 2018-08-15 Rene Schmid Photovoltaic module and fastening system
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US10651786B2 (en) 2018-01-08 2020-05-12 David Lynn Panel with magnetically-controlled connectors for attachment to a support member
US10971870B2 (en) 2018-08-17 2021-04-06 David Lynn Connection interface for a panel and support structure
KR20200133497A (en) * 2019-05-20 2020-11-30 주식회사 금호테크닉스 Solar Module of Magnetic Attachment Type
KR102257881B1 (en) * 2019-05-20 2021-05-28 주식회사 금호테크닉스 Solar Module of Magnetic Attachment Type

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