JP5899715B2 - Mounting structure for waterside cover - Google Patents

Mounting structure for waterside cover Download PDF

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JP5899715B2
JP5899715B2 JP2011191417A JP2011191417A JP5899715B2 JP 5899715 B2 JP5899715 B2 JP 5899715B2 JP 2011191417 A JP2011191417 A JP 2011191417A JP 2011191417 A JP2011191417 A JP 2011191417A JP 5899715 B2 JP5899715 B2 JP 5899715B2
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water
waterside
covering material
drainage plate
covering
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JP2013053432A (en
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渡部 渉
渉 渡部
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Caname Co Ltd
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    • 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
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/50Photovoltaic [PV] energy

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  • Roof Covering Using Slabs Or Stiff Sheets (AREA)
  • Photovoltaic Devices (AREA)

Description

本発明は、屋根材付き太陽光発電パネルに組み合わせることができる水上側被覆材に関するものである。   The present invention relates to a waterside covering material that can be combined with a photovoltaic power generation panel with a roof material.

従来技術について、図5から図7A及び図7Bにより説明する。   The prior art will be described with reference to FIGS. 5 to 7A and 7B.

図5は、出願人が特願2011−507486として出願した「屋根材付き太陽光発電パネル及び屋根材付き軒先材」における図5をもとにしたものである。この出願においては、最も上段に取り付ける屋根材付き太陽光発電パネルにおける水上側の納めが課題であった。とくに、豪雪地帯で屋根材付き太陽光発電パネルを設置する場合、最も上段に取り付けた屋根材付き太陽光発電パネルの水上側に雪がたまる。そのため、屋根材付き太陽光発電パネルに積雪荷重による流れ方向への力がかかる上、その雪が凍結することによるすがもれの恐れがあった。   FIG. 5 is based on FIG. 5 in “Solar power generation panel with roofing material and eaves with roofing material” filed by the applicant as Japanese Patent Application No. 2011-507486. In this application, the upper side of the solar power generation panel with a roof material attached to the uppermost stage is a problem. In particular, when installing a solar power generation panel with a roofing material in a heavy snowy region, snow accumulates on the water side of the solar power generation panel with the roofing material attached to the uppermost stage. As a result, the solar power generation panel with a roof material is subjected to a force in the flow direction due to a snow load, and the snow may be frozen.

この図5の技術に対し、図6、又は図7A及び図7Bに示すような技術の応用が考えられる。図6、図7A及び図7Bは、太陽光発電パネルを屋根上に固定したところに雨水を浸入させないようにする、水切りの技術である。   Application of the technique shown in FIG. 6 or 7A and 7B to the technique shown in FIG. 5 can be considered. FIG. 6, FIG. 7A and FIG. 7B are draining techniques for preventing rainwater from entering a place where a photovoltaic power generation panel is fixed on a roof.

図6は、波形金属板12に太陽電池パネル18を取り付けた取付において、水切り金属板10で波形金属板12の上流側開口部12aを遮蔽する技術である。   FIG. 6 is a technique for shielding the upstream opening 12 a of the corrugated metal plate 12 with the draining metal plate 10 in the attachment in which the solar cell panel 18 is attached to the corrugated metal plate 12.

図7A及び図7Bは、太陽電池パネル付き屋根構造において、モジュール用水切部材26に係合片部26dが形成されていて、そこが、横フレーム20の係合部23に係合され、固着板部26aで固着する技術である。   7A and 7B show a roof structure with a solar cell panel in which an engaging piece portion 26d is formed on the module draining member 26, which is engaged with the engaging portion 23 of the horizontal frame 20, and the fixing plate This is a technique for fixing by the portion 26a.

特許第4478240号Patent No. 4478240 特許第3499725号Japanese Patent No. 3499725

図5に、図6の技術を応用した場合、力板20を取り付け、そこに水切り金属板10を係止することになる。そのため、施工に手間がかかる。また、水切り金属板10が、波形金属板12の上流側開口部12aを遮蔽してしまうので、屋根材付き太陽光発電パネルの効果である排水・換気が阻害されてしまう。   When the technique of FIG. 6 is applied to FIG. 5, the force plate 20 is attached and the draining metal plate 10 is locked there. Therefore, it takes time for construction. Moreover, since the draining metal plate 10 shields the upstream side opening part 12a of the corrugated metal plate 12, the drainage and ventilation which are the effect of a solar power generation panel with a roof material will be inhibited.

図5に、図7A及び図7Bの技術を応用した場合、モジュール用水切部材26のほかに、縦フレーム用水切り部材32などが必要である。このように、部材数が多くなり、また、雨仕舞を考慮してそれらを複雑な組合せとする必要があるので、施工に手間がかかってしまう。さらに、図7A及び図7Bの技術は、係合片部26dと係合部23との間に間隔があり、固着板部26aから止着具を打ち込んで、モジュール用水切部材を固定しておかないと、それらを係合できない。これは、係合片部26dの下に、縦フレーム用水切部材32を圧着させることが目的であるためである。   In the case of applying the technique of FIG. 7A and FIG. 7B to FIG. 5, in addition to the module draining member 26, the vertical frame draining member 32 and the like are necessary. In this way, the number of members increases, and it is necessary to make them a complex combination in consideration of the rain, so that it takes time for construction. Further, in the technique of FIGS. 7A and 7B, there is a gap between the engaging piece portion 26d and the engaging portion 23, and a fastener is driven from the fixing plate portion 26a to fix the draining member for the module. Otherwise, they cannot be engaged. This is because the purpose is to press-fit the vertical frame draining member 32 under the engagement piece portion 26d.

このほか、図5に、図7A及び図7Bの技術を応用した場合でも、図6の技術を応用した場合と同様、屋根材付き太陽光発電パネルの水上側を、モジュール用水切り部材26や縦フレーム用水切り部材32などで遮蔽してしまうので、排水・換気が阻害されてしまう。   In addition, even when the techniques of FIGS. 7A and 7B are applied to FIG. 5, as in the case of applying the technique of FIG. Since it is shielded by the frame draining member 32 and the like, drainage and ventilation are hindered.

本願の水上側被覆材は、水下側が屋根材付き太陽光発電パネルに、下面側が排水板に組み合わされるものである。   In the waterside covering material of the present application, the underwater side is combined with a solar power generation panel with a roof material, and the lower surface side is combined with a drainage plate.

本願の水上側被覆材に組み合わされる屋根材付き太陽光発電パネルは、山部と谷部と軒棟方向に連通する空間とが形成された屋根材と、水上側に水上嵌合部が形成された枠体とを有している。   The solar power generation panel with a roof material combined with the waterside covering material of the present application has a roof material in which a mountain part, a valley part and a space communicating in the eaves direction are formed, and a water fitting part is formed on the water side. And a frame.

本願の水上側被覆材に組み合わされる排水板は、山部と谷部と軒棟方向に連通する空間とを有しており、屋根材の水上側に重ねられる。   The drainage plate combined with the waterside covering material of the present application has a mountain part, a valley part, and a space communicating in the eaves ridge direction, and is stacked on the waterside of the roofing material.

本願の水上側被覆材は、下段の屋根材付き太陽光発電パネルの水上嵌合部に嵌合する嵌合部が水下側に形成され、嵌合部から水上側へ延出された被覆面が形成され、被覆面から延出されて排水板の山部と山部との間に折り下げられる面戸部が形成されている。   The waterside covering material of the present application is a covering surface in which a fitting portion that fits into the water fitting portion of the lower roof solar power generation panel is formed on the waterside, and extends from the fitting portion to the waterside. Is formed, and a face door portion is formed which extends from the covering surface and is folded between the ridge portions of the drainage plate.

本願の水上側被覆材は、排水板の山部に固定する止着部を有している。   The waterside covering material of the present application has a fastening portion that is fixed to the peak portion of the drainage plate.

本願の水上側被覆材が、排水板の山部に固定されたときに、排水板の山部と山部との間に面戸部が折り下げられ、面戸部の水上側の端部と排水板谷部との間には排水隙間部が形成されている。   When the waterside covering material of the present application is fixed to the peak portion of the drainage plate, the face door portion is folded between the peak portion and the peak portion of the drainage plate, and the waterside end of the face door portion and the drainage plate valley A drainage gap is formed between the two parts.

本願の水上側被覆材は、嵌合部を下段の屋根材付き太陽光発電パネルの水上嵌合部に嵌合させて止着部で排水板に固定するだけ、もしくは、あらかじめ止着部で排水板に固定しておいて嵌合部を下段の屋根材付き太陽光発電パネルの水上嵌合部に嵌合させて排水板を屋根上に固定するだけで取り付けられるので、必要な部材が少なくて済み、現場施工の簡素化が図れる。   The waterside covering material of the present application can be fitted to the water fitting portion of the lower solar photovoltaic panel with roof material and fixed to the drain plate at the fastening portion, or drained at the fastening portion in advance. Since it can be attached simply by fixing the drainage plate on the roof by fitting the fitting part to the water fitting part of the photovoltaic panel with roof material in the lower stage while fixing to the board, there are few necessary members This simplifies on-site construction.

また、本願の水上側被覆材は、屋根材付き太陽光発電パネルの水上側に積もった雪を、面戸部及び被覆面によって、太陽光発電パネル上(受光面)へ、さらに軒下へと導くことができる。その結果、積雪荷重による流れ方向への力を低減でき、凍結によるすがもれを防ぐことができる。   Moreover, the waterside covering material of this application guides the snow accumulated on the waterside of the photovoltaic power generation panel with a roof material to the photovoltaic power generation panel (light receiving surface) and further to the eaves by the face door portion and the covering surface. Can do. As a result, it is possible to reduce the force in the flow direction due to a snow load, and to prevent leakage due to freezing.

さらに、本願の水上側被覆材は、面戸部の水上側の端部と排水板の谷部との間に排水隙間部を形成することによって、雪解け水を下段の屋根材付き太陽光発電パネルの軒棟方向に連通する空間を通じて排水することができる。それと同時に、排水隙間部によって、下段の屋根材付き太陽光発電パネルであたためられた空気を換気できるので、太陽光発電パネルの温度上昇を防ぎ、発電効率の低下を抑制できる。   Furthermore, the waterside covering material of the present application forms a drainage gap between the waterside end of the face door and the trough of the drainage plate, so that the snow melting water can be removed from the lower roofing solar power generation panel. It can be drained through a space communicating in the direction of the eaves. At the same time, since the warmed air can be ventilated by the lower roof-covered solar power generation panel by the drain gap portion, the temperature increase of the solar power generation panel can be prevented, and the decrease in power generation efficiency can be suppressed.

本発明の水上側被覆材の実施例である。It is an Example of the waterside coating | covering material of this invention. 本発明の水上側被覆材と組み合わされる排水板の実施例である。It is an Example of the drain plate combined with the waterside coating | covering material of this invention. 本発明の水上側被覆材の取り付け例の説明図である。It is explanatory drawing of the example of attachment of the waterside coating | covering material of this invention. 本発明の水上側被覆材を応用した排水板付き水上側被覆材の実施例である。It is an Example of the water-side coating | covering material with a drain plate which applied the water-side coating | covering material of this invention. 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. 従来技術の説明図である。It is explanatory drawing of a prior art.

本願の水上側被覆材、それを組み合わせる排水板及び屋根材付き太陽光発電パネルの実施例について、図1から図5により説明する。図1は、本願の水上側被覆材の実施例の説明図である。図2は、本願の水上側被覆材と組み合わされる排水板の実施例の説明図である。図3は、本願の水上側被覆材の取り付け例の説明図である。図4は、本願の水上側被覆材と排水板とを一体化した排水板付き水上側被覆材の実施例の説明図である。図5は、従来技術の説明図であるが、本願の水上側被覆材と組み合わされる屋根材付き太陽光発電パネルの実施例である。   Examples of the water-side covering material of the present application, a drainage plate combined therewith, and a solar power generation panel with a roof material will be described with reference to FIGS. Drawing 1 is an explanatory view of the example of the waterside covering material of this application. Drawing 2 is an explanatory view of the example of the drainage board combined with the waterside covering material of this application. Drawing 3 is an explanatory view of the example of attachment of the waterside covering material of this application. FIG. 4 is an explanatory diagram of an embodiment of the waterside covering material with a drainage plate in which the waterside coating material and the drainage plate of the present application are integrated. Although FIG. 5 is explanatory drawing of a prior art, it is an Example of the solar power generation panel with a roof material combined with the waterside coating | covering material of this application.

まず、本願の水上側被覆材、それと組み合わせられる屋根材付き太陽光発電パネル及び排水板の実施例について、図1から図3及び図5で説明する。   First, examples of the water-side covering material of the present application, a solar power generation panel with a roof material and a drain plate combined therewith will be described with reference to FIGS. 1 to 3 and FIG. 5.

本願の水上側被覆材1は図3に示すように、水下側が屋根材付き太陽光発電パネルBと組み合わされるものである。また、本願の水上側被覆材1は、下面側が排水板2と組み合わされるものである。   As shown in FIG. 3, the waterside covering material 1 of the present application is combined with a solar power generation panel B with a roofing material on the underwater side. Further, the water-side covering material 1 of the present application is combined with the drain plate 2 on the lower surface side.

本願の水上側被覆材1と組み合わされる屋根材付き太陽光発電パネルBの具体例として、図5のようなものがあげられる。山部51と谷部52と軒棟方向に連通する空間とが形成された屋根材5と、水上側に水上嵌合部61が形成された枠体6とを有している。屋根材5は、山部51と谷部52とを交互に形成した波状のものでもよいし、谷部52を広くした形状又は、谷部52を狭くした形状でもよい。   As a specific example of the solar power generation panel B with a roof material combined with the waterside covering material 1 of the present application, there is a structure as shown in FIG. It has the roofing material 5 in which the mountain part 51, the trough part 52, and the space connected in the eaves-ridge direction were formed, and the frame 6 in which the water fitting part 61 was formed in the water upper side. The roof material 5 may have a wave shape in which the mountain parts 51 and the valley parts 52 are alternately formed, or may have a shape in which the valley parts 52 are widened or a shape in which the valley parts 52 are narrowed.

排水板2は図2に示すように、山部21と谷部22と軒棟方向に連通する空間とを有している。排水板2は、図3のように屋根材5に重ねて組み合わせたときに排水ができれば、山部21と谷部22とを交互に形成した波状のものでもよいし、谷部22を広くした形状又は、谷部22を狭くした形状でもよい。なお、排水板2として、下段の屋根材付き太陽光発電パネルBの屋根材5と同じ形状のものを使用するとよい。   As shown in FIG. 2, the drain plate 2 has a mountain portion 21, a valley portion 22, and a space communicating with the eaves ridge direction. If the drainage plate 2 can be drained when combined with the roofing material 5 as shown in FIG. 3, the drainage plate 2 may be a corrugated shape in which the ridges 21 and the valleys 22 are alternately formed, or the valleys 22 are widened. The shape or the shape which narrowed the trough part 22 may be sufficient. In addition, it is good to use the thing of the same shape as the roofing material 5 of the photovoltaic power generation panel B with a lower roofing material as the drain plate 2. FIG.

排水板2は図3に示すように、下段に取り付けた屋根材付き太陽光発電パネルBの屋根材5の水上側に重ねられる。図5に示した屋根材付き太陽光発電パネルBに本願の発明を応用する場合、屋根材付き太陽光発電パネルBは、屋根材5の水上側に止着部53を形成しているので、この上に図3に示すように排水板2の水下側を重ねる。重ねることによって、下段の屋根材5の止着部53を上から覆う状態になるので、下段の屋根材付き太陽光発電パネルBの取り付けにおける止水処理等が不要になる。   As shown in FIG. 3, the drainage plate 2 is overlaid on the water side of the roofing material 5 of the photovoltaic power generation panel B with the roofing material attached to the lower stage. When the invention of the present application is applied to the photovoltaic power generation panel B with the roofing material shown in FIG. 5, the photovoltaic power generation panel B with the roofing material forms the fastening portion 53 on the water side of the roofing material 5. On this, the underwater side of the drainage plate 2 is overlapped as shown in FIG. By overlapping, it will be in the state which covers the fixing part 53 of the lower roof material 5 from the top, Therefore The water stop process etc. in attachment of the photovoltaic power generation panel B with a lower roof material become unnecessary.

水上側被覆材1は図1及び図4に示すように、水下側に下段の屋根材付き太陽光発電パネルBの水上嵌合部61に嵌合する嵌合部11が形成され、嵌合部11から水上側へ延出された被覆面12が形成され、被覆面12から延出されて排水板2の山部21と山部21との間に折り下げられる面戸部13が形成され、排水板2の山部21に固定する止着部141を有している。図1及び図4の実施例では、排水板2の山部21に当接する当接面14が設けられている。そして、当接面14に止着部141を形成している。   As shown in FIGS. 1 and 4, the water-side covering material 1 is formed with a fitting portion 11 that fits on the water-fitting portion 61 of the photovoltaic power generation panel B with the roof material on the lower side. A covering surface 12 extending from the portion 11 to the water side is formed, and a face door portion 13 extending from the covering surface 12 and being folded between the peak portion 21 and the peak portion 21 of the drainage plate 2 is formed, It has a fastening part 141 that is fixed to the peak part 21 of the drainage plate 2. In the embodiment of FIGS. 1 and 4, an abutment surface 14 that abuts against the peak portion 21 of the drainage plate 2 is provided. A fastening portion 141 is formed on the contact surface 14.

嵌合部11は、下段の屋根材付き太陽光発電パネルBの水上嵌合部61に嵌合する形状を形成している。嵌合部11が下段の水上嵌合部61と嵌合することによって、本願の水上側被覆材1が上方にはずれないように組み合わされている。たとえば、図3のように、嵌合部11を下段の水上嵌合部61と屋根材5との間に差し込むように組み合わせ、下段の水上嵌合部61が嵌合部11を上から押さえている状態となるのが望ましい。このような形状の組合せとすることによって、施工しやすく、負圧に強い構造とすることができる。   The fitting part 11 forms a shape that fits into the water fitting part 61 of the lower roof solar photovoltaic panel B. The fitting portion 11 is combined with the lower water fitting portion 61 so that the water-side covering material 1 of the present application is combined so as not to move upward. For example, as shown in FIG. 3, the fitting portion 11 is combined so as to be inserted between the lower water fitting portion 61 and the roof material 5, and the lower water fitting portion 61 holds the fitting portion 11 from above. It is desirable to be in a state. By adopting such a combination of shapes, it is easy to construct and can withstand a negative pressure.

被覆面12は、嵌合部11から水上側へ延出されて排水板2を被覆する。被覆面12の水下側の端部は、下段の屋根材付き太陽光発電パネルBの受光面(上面)よりやや高い位置であることが望ましい。そうすることによって、本願の水上側被覆材1から下段の屋根材付き太陽光発電パネルBの受光面へと、雪をためることなく、導くことができる。もし、被覆面12の水下側の端部が、下段の屋根材付き太陽光発電パネルBの受光面よりも低いと、そこに雪がたまる可能性があり、効果を十分に得られないことが考えられる。また、被覆面12の水下側の端部が、下段の屋根材付き太陽光発電パネルBの受光面よりも著しく高いと、本願の水上側被覆材1を取り付けた際に、被覆面12上を雪が滑落するだけの傾斜を形成させる必要があるために水上側被覆材1そのものが大型化してしまったり、意匠性が損なわれたりすることもありうる。   The covering surface 12 extends from the fitting portion 11 to the water side and covers the drainage plate 2. It is desirable that the water-side end of the covering surface 12 is at a slightly higher position than the light receiving surface (upper surface) of the lower roof solar photovoltaic panel B. By doing so, it can guide, without accumulating snow, from the waterside covering material 1 of the present application to the light receiving surface of the photovoltaic power generation panel B with the roof in the lower stage. If the water-side end of the covering surface 12 is lower than the light-receiving surface of the lower roofed solar power generation panel B, snow may accumulate there and the effect may not be sufficiently obtained. Conceivable. Further, if the water-side end of the covering surface 12 is significantly higher than the light-receiving surface of the lower roof solar photovoltaic panel B, when the water-side covering material 1 of the present application is attached, Therefore, it is necessary to form an inclination enough for the snow to slide down, so that the waterside covering material 1 itself may be increased in size or the design properties may be impaired.

面戸部13は、被覆面12から延出されて排水板2の山部21と山部21との間に折り下げられる。図3のように、被覆面12の水上側端縁が排水板2の山部21に面で当接するように折り曲げて当接面14を形成し、そこからさらに延出されて排水板2の山部21と山部21との間に折り下げられた面戸部13を形成するとよい。   The face door portion 13 extends from the covering surface 12 and is folded between the crest portion 21 and the crest portion 21 of the drainage plate 2. As shown in FIG. 3, the water-side edge of the covering surface 12 is bent so as to come into contact with the crest portion 21 of the drainage plate 2 to form the contact surface 14, and is further extended therefrom to extend the drainage plate 2. It is good to form the face door part 13 folded down between the peak part 21 and the peak part 21. FIG.

また、面戸部13は、山部21と山部21との間の断面に合わせた形状にすることによって、下方に折り下げた状態で取り付けやすく、かつ雪が大量に入り込むことを防止する面戸としての役割を果たすようにできる。   In addition, the face door portion 13 is a face door that is easy to attach in a state of being folded downward and prevents a large amount of snow from entering by making the shape to match the cross section between the mountain portions 21 and 21. Can play a role.

止着部141は、図3のとおり、排水板2の山部21に当接する部分である当接面14に形成する。ただし、排水板2の山部21に当接する部分である当接面14すべてに止着部141を形成する必要はなく、当接面14のうち、止着しやすく、また、強度的に適切な箇所に止着部141を形成すればよい。   As shown in FIG. 3, the fastening portion 141 is formed on the contact surface 14 that is a portion that contacts the peak portion 21 of the drainage plate 2. However, it is not necessary to form the fastening portion 141 on all the contact surfaces 14 that are in contact with the ridges 21 of the drainage plate 2. The fastening portion 141 may be formed at any location.

止着部141は、たとえば図3のように、被覆面12から延出して面戸部13までの間の当接面14に形成してもよいし、後述する図4のように被覆面12の下面側に形成した当接面14に形成してもよい。   For example, as shown in FIG. 3, the fastening portion 141 may be formed on the contact surface 14 extending from the covering surface 12 to the face door portion 13, or the covering surface 12 may be formed as shown in FIG. 4 described later. You may form in the contact surface 14 formed in the lower surface side.

排水板2の山部21に当接する部分を面状にした当接面14とすることによって、本願の水上側被覆材1を排水板2に載置しても、排水板2を損傷させたり、変形させたりしにくくできる。そのため、当接面14を形成し、そこを止着部141を形成することによって、本願の水上側被覆材1を排水板2に安定した状態で固定することができる。   Even if the waterside covering material 1 of the present application is placed on the drainage plate 2, the drainage plate 2 may be damaged by setting the portion of the drainage plate 2 that contacts the peak portion 21 to be a planar contact surface 14. Can be difficult to deform. Therefore, by forming the contact surface 14 and forming the fastening portion 141 there, the waterside covering material 1 of the present application can be stably fixed to the drainage plate 2.

水上側被覆材1が、排水板2の山部21に固定されたときに、面戸部13の水上側の端部と排水板2の谷部22との間には排水隙間部3が形成されている。この排水隙間部3は、排水・換気が可能であって、面戸部13が雪が大量に入り込むのを防止することができれば、大きさは問わない。また、面戸部13の水上側の端部も排水隙間部3の効果を妨げなければいかなる形状であってもよい。   When the waterside covering material 1 is fixed to the peak portion 21 of the drainage plate 2, a drainage gap portion 3 is formed between the waterside end portion of the face door portion 13 and the valley portion 22 of the drainage plate 2. ing. The drain gap 3 can be drained and ventilated and can be of any size as long as the face door 13 can prevent a large amount of snow from entering. Further, the water-side end of the face door 13 may have any shape as long as the effect of the drain gap 3 is not hindered.

水上側被覆材1の取り付けについて、図3で説明する。まず、下段の屋根材付き太陽光発電パネルBの屋根材5の水上側に、排水板2の水下側を重ねて固定しておく。   The attachment of the waterside covering material 1 will be described with reference to FIG. First, the lower side of the drainage plate 2 is overlapped and fixed on the upper side of the roof material 5 of the photovoltaic power generation panel B with the lower roof material.

次に、本願の水上側被覆材1を取り付ける。水上側被覆材1の嵌合部11を屋根上に取り付けた屋根材付き太陽光発電パネルBの水上嵌合部61に嵌合して、止着部141に止着具4を打ち込んで排水板2の山部21に止着する。   Next, the waterside covering material 1 of the present application is attached. The fitting part 11 of the waterside covering material 1 is fitted to the water fitting part 61 of the photovoltaic power generation panel B with the roofing material attached on the roof, and the fastening device 4 is driven into the fastening part 141 and the drainage plate Fasten to 2 peak portions 21.

このように、水上側被覆材1の表面側から排水板2の山部21へ止着具4を打ち込んで固定する場合は、止着具4としてパッキン付きビスを用いるなど、止着具4を貫通させたことによる水漏れがないようにした方がよい。   As described above, when the fastening device 4 is driven and fixed from the surface side of the water-side covering material 1 to the peak portion 21 of the drainage plate 2, the fastening device 4 is used by using a screw with packing as the fastening device 4. It is better not to leak water due to penetration.

また、当接面14と排水板2の山部21との間にシーラー材を挟み込む方法も有効である。なお、止着方法については、屋根上に止着した結果、積雪荷重、風荷重に耐えられる程度の強度が確保できれば、止着具4を使わない方法でもよい。   Further, a method of sandwiching a sealer material between the contact surface 14 and the peak portion 21 of the drain plate 2 is also effective. The fastening method may be a method that does not use the fastening tool 4 as long as it can secure the strength enough to withstand snow load and wind load as a result of fastening on the roof.

次に、本願の水上側被覆材1と排水板2とを一体化した実施例について、図4で説明する。屋根上への設置に先立ち、排水板2の山部21の裏面側から止着部141へと止着具4を打ち込んで、本願の水上側被覆材1と排水板2とが一体化された排水板付き水上側被覆材Aとする。このように排水板付き水上側被覆材Aとすることによって、屋根上での設置作業をさらに簡素化することができる。   Next, the Example which integrated the waterside coating | covering material 1 and the drain plate 2 of this application is demonstrated in FIG. Prior to installation on the roof, the fastening device 4 was driven from the back side of the peak portion 21 of the drainage plate 2 to the fastening portion 141, and the waterside covering material 1 and the drainage plate 2 of the present application were integrated. It is set as the water upper side covering material A with a drain plate. Thus, by setting it as the waterside coating | covering material A with a drain plate, the installation operation on a roof can further be simplified.

この場合、設置作業は、屋根上に取り付けた屋根材付き太陽光発電パネルBの水上嵌合部61に、嵌合部11を嵌合し、排水板2を屋根上に固定するだけである。   In this case, installation work only fits fitting part 11 in water fitting part 61 of photovoltaic power generation panel B with a roof material attached on the roof, and fixes drainage board 2 on the roof.

また、図4の実施例では、被覆面12の下面側に止着部141を形成しているので、止着具4を打ち込んだ部分が表面に露出しない構造である。そのため、止水処理が不要になり、さらに屋根上での手間を省くことができる。   In the embodiment of FIG. 4, since the fastening portion 141 is formed on the lower surface side of the covering surface 12, the portion into which the fastening device 4 is driven is not exposed on the surface. This eliminates the need for a water stop treatment and further saves labor on the roof.

次に、本願の水上側被覆材1の成形について、図1及び図4で説明する。本願の水上側被覆材1は、図1のように折板加工によって成形してもよいし、図4のように押出成形加工によって成形してもよい。   Next, the shaping | molding of the waterside coating | covering material 1 of this application is demonstrated in FIG.1 and FIG.4. The waterside covering material 1 of the present application may be formed by folded plate processing as shown in FIG. 1 or may be formed by extrusion processing as shown in FIG.

そのほか、水上側被覆材1は、それ自体の大きさや、組み合わせる屋根材付き太陽光発電パネル、排水板等の形状などによっては、複数の部材に分けて成形し、一体化して水上側被覆材1の形状としてもよい。   In addition, the waterside covering material 1 is divided into a plurality of members depending on the size of itself, the shape of the solar power generation panel with roofing material to be combined, the drainage plate, and the like, and is integrated into the waterside covering material 1. It is good also as a shape.

A 排水板付き水上側被覆材
1 水上側被覆材
11 嵌合部
12 被覆面
13 面戸部
14 当接面
141 止着部
2 排水板
21 山部
22 谷部
3 排水隙間部
4 止着具
B 屋根材付き太陽光発電パネル
5 屋根材
51 山部
52 谷部
53 止着部
6 枠体
61 水上嵌合部
A Water-side covering material with drain plate 1 Water-side covering material 11 Fitting portion 12 Cover surface 13 Face door portion 14 Contact surface 141 Fastening portion 2 Drainage plate 21 Mountain portion 22 Valley portion 3 Drain gap portion 4 Fastening tool B Roof Photovoltaic power generation panel 5 with roof material 51 Mountain portion 52 Valley portion 53 Fastening portion 6 Frame body 61 Water fitting portion

Claims (1)

水下側が屋根材付き太陽光発電パネルに、
下面側が排水板に組み合わされる水上側被覆材の取付構造であって、
前記屋根材付き太陽光発電パネルは、
山部と谷部と軒棟方向に連通する空間とが形成された屋根材と、
水上側に水上嵌合部が形成された枠体とを有しており、
前記排水板は、
山部と谷部と軒棟方向に連通する空間とを有しており、
前記屋根材の水上側に重ねられ、
前記水上側被覆材は、
水下側に下段の屋根材付き太陽光発電パネルの水上嵌合部に嵌合する嵌合部が形成され、
該嵌合部から水上側へ延出された被覆面が形成され、
該被覆面から延出された面戸部が形成され、
前記排水板の山部に固定する止着部を有しており、
排水板の山部と山部との間の面戸部は水上側端部に向けて下げられており、
該面戸部の水上側端部と排水板谷部との間には排水隙間部が形成されるように、
水上側被覆材が排水板の山部に固定された
水上側被覆材の取付構造
The underwater side is a photovoltaic panel with a roof,
It is an attachment structure of the waterside covering material in which the lower surface side is combined with the drain plate,
The roofing solar power panel is:
A roofing material formed with a mountain and a valley and a space communicating in the direction of the eaves;
It has a frame with a water fitting part formed on the water side,
The drain plate is
It has mountains and valleys and a space that communicates with the eaves.
Superimposed on the water side of the roofing material,
The waterside covering material is
A fitting part that fits into the water fitting part of the solar power generation panel with the lower roof material is formed on the water side,
A covering surface extending from the fitting portion to the water side is formed,
A face door extending from the covering surface is formed,
It has a fastening part to be fixed to the peak part of the drainage plate,
The face door between the crests of the drainage plate is lowered toward the water upper end,
A drainage gap is formed between the water-side end of the face door and the drainage plate valley ,
A water-side covering material mounting structure in which the water-side covering material is fixed to the peak portion of the drainage plate .
JP2011191417A 2011-09-02 2011-09-02 Mounting structure for waterside cover Expired - Fee Related JP5899715B2 (en)

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JP5972927B2 (en) * 2014-03-31 2016-08-17 ニイガタ製販株式会社 Solar panel roof snow guard
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