JP2012102544A - Installation structure of solar cell module on standing seam roof - Google Patents

Installation structure of solar cell module on standing seam roof Download PDF

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JP2012102544A
JP2012102544A JP2010252100A JP2010252100A JP2012102544A JP 2012102544 A JP2012102544 A JP 2012102544A JP 2010252100 A JP2010252100 A JP 2010252100A JP 2010252100 A JP2010252100 A JP 2010252100A JP 2012102544 A JP2012102544 A JP 2012102544A
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roof
hanger
roof plate
pressing member
solar cell
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Toshio Uemi
利夫 上見
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KAMISHO KK
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KAMISHO KK
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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
    • F24S25/30Arrangement 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
    • 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
    • F24S25/615Fixation means, e.g. fasteners, specially adapted for supporting solar heat collector modules for fixing to the ground or to building structures for fixing to protruding parts of buildings, e.g. to corrugations or to standing seams
    • 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)
  • Photovoltaic Devices (AREA)

Abstract

PROBLEM TO BE SOLVED: To provide an installation structure of a solar cell module on a standing seam roof, which is capable of stably supporting a cell module support bar and a solar cell module and of sufficiently withstanding strong winds, earthquakes, and the like.SOLUTION: A roof plate pressing member 14 which is also used as a trestle is formed by folding downward a top plate 15 for supporting a cell module support bar 4 and a pair of right and left side plates 16 from the left and right side edges of the top plate 15. The roof plate pressing member 14 which is also used as a trestle covers a seam clip 2 and the left and right rising connection edges 6 of roof plates 1 and 1 from above, while the top plate 15 of the roof plate pressing member 14 which is also used as a trestle is fixed to a top part 12 of the seam clip 2 with a second screw 26, and the roof plates 1 and 1 are pressed down by roof plate pressing portions 16a provided in the lower ends of the left and right side plates 16 from above.

Description

本発明は、立てはぜ葺屋根への太陽電池モジュール(太陽電池パネル)の設置構造に関する。   The present invention relates to a structure for installing a solar cell module (solar cell panel) on a vertical roof roof.

従来、立てはぜ葺屋根として、図5に示すように、はぜ吊子35を屋根下地36に固定し、左右の両側縁に立上り連結縁37,37を有した屋根板38を屋根下地36に敷設した後、隣り合う屋根板38,38の立上り連結縁37,37の各上端の被係留部39,39をはぜ吊子35の上端の左右両側の係留部40,40に係止するとともに、はぜ吊子35の中間高さ部に設けた左右の係止凸条41,41に屋根板38,38の立上り連結縁37,37の中間高さ部に設けた遮水凸条42,42を係合する。その後、隣り合う屋根板38,38の立上り連結縁37,37およびはぜ吊子35に亘ってキャップ43をその上から被せ、キャップ43の左右の各遮水凹条44を立上り連結縁37の遮水凸条42に外嵌固定させるものがある(例えば、特許文献1参照。)。   Conventionally, as a vertical roof, as shown in FIG. 5, a vertical hanger 35 is fixed to a roof base 36, and a roof plate 38 having rising connection edges 37, 37 on both left and right edges is used as the roof base 36. After being laid, the anchored portions 39, 39 at the upper ends of the rising connection edges 37, 37 of the adjacent roof plates 38, 38 are locked to the anchor portions 40, 40 at the left and right sides of the upper end of the hanger 35. At the same time, the right and left locking ridges 41, 41 provided at the intermediate height portion of the hanger suspension 35, and the water shielding ridges 42 provided at the intermediate height portion of the rising connection edges 37, 37 of the roof plates 38, 38 are provided. , 42 are engaged. Thereafter, the cap 43 is placed over the rising connection edges 37, 37 of the adjacent roof plates 38, 38 and the hanger 35, and the right and left impermeable grooves 44 of the cap 43 are connected to the rising connection edges 37. There is one that is fitted and fixed to the water-impervious protrusion 42 (for example, see Patent Document 1).

一方、縦葺き屋根に対する太陽電池モジュールの設置構造として、例えば、図6(a)(b)に示すように、瓦棒30の上に、瓦棒30の長手方向(軒棟方向)と直交する複数の横架台(電池モジュール支持バー)31を瓦棒30の長手方向に所定間隔置きに配備し、隣り合う横架台31,31間で太陽電池モジュール32を支持するようにしたものがある(例えば、特許文献2参照。)。横架台31にはねじ止めフランジ33を設け、このねじ止めフランジ33を瓦棒30に金属製ねじ34で固定するようにしてある。   On the other hand, as an installation structure of the solar cell module with respect to the vertical roof, for example, as shown in FIGS. 6 (a) and 6 (b), it is orthogonal to the longitudinal direction (eave building direction) of the tile rod 30 on the tile rod 30. A plurality of horizontal mounts (battery module support bars) 31 are arranged at predetermined intervals in the longitudinal direction of the rod 30 so that the solar cell modules 32 are supported between the adjacent horizontal mounts 31 and 31 (for example, , See Patent Document 2). The horizontal base 31 is provided with a screwing flange 33, and the screwing flange 33 is fixed to the roof bar 30 with a metal screw 34.

特許第3423671号公報Japanese Patent No. 3423671 特開2001−262800号公報JP 2001-262800 A

図6に示す上記太陽電池モジュールの設置構造を図5に示す上記立てはぜ葺屋根に適用することが考えられる。こうした場合、図6(b)に示す横架台31のねじ止めフランジ33は図5に示すキャップ43の上に金属製ねじ34で固定することになる。   It can be considered that the installation structure of the solar cell module shown in FIG. 6 is applied to the roof of the roof shown in FIG. In such a case, the screwing flange 33 of the horizontal base 31 shown in FIG. 6B is fixed on the cap 43 shown in FIG.

しかしながら、かかるキャップ43では、隣り合う屋根板38,38の立上り連結縁37,37およびはぜ吊子35に被せ、該キャップ43の左右の各遮水凹条44を、はぜ吊子35の左右の係止凸条41,41に係合した立上り連結縁37,37の遮水凸条42,42に外嵌固定しているだけであるため、図6の横架台31、太陽電池モジュール32の支持力に劣り、不安定になる。特に、そのように立上り連結縁37の遮水凸条42に外嵌固定させているだけのキャップ43は、暴風や台風等の外乱力で屋根板38およびはぜ吊子35から外れる虞が大であって、横架台31、太陽電池モジュール32の支持機能を全うし難い。   However, in such a cap 43, the rising connection edges 37, 37 of the adjacent roof plates 38, 38 and the hose suspension 35 are covered, and the right and left water shielding grooves 44 of the cap 43 are attached to the hose hanger 35. Since it is only externally fitted and fixed to the water shielding projections 42 and 42 of the rising connection edges 37 and 37 engaged with the left and right locking projections 41 and 41, the horizontal base 31 and the solar cell module 32 in FIG. It is inferior to the supporting ability of and becomes unstable. In particular, the cap 43 that is only externally fitted and fixed to the water-impervious protrusion 42 of the rising connection edge 37 is likely to be detached from the roof plate 38 and the hanger suspension 35 due to a disturbance force such as a storm or a typhoon. However, it is difficult to achieve the support function of the horizontal base 31 and the solar cell module 32.

また、上記従来技術では、キャップ43に金属製ねじ40で孔をあけることになるが、従来の立てはぜ葺屋根ではこのようなことが全く想定されていないため、この孔から屋根板の裏側(屋内側)に雨水等が侵入するおそれがある。特に、屋根の構造に関する知識の乏しい設置業者に太陽光パネル(太陽電池モジュール)の設置を依頼した場合(太陽光パネルの設置業者には、大きく言って電気関連の業者と屋根専門の業者とがある)、雨仕舞いを全く考慮せずに立てはぜ部分や屋根板部分に孔をあけてしまうことがある。   Further, in the above prior art, a hole is made in the cap 43 with the metal screw 40. However, since this is not assumed at all in the case of a conventional roof, the back side of the roof plate is formed from this hole. There is a risk of rainwater entering the indoor side. In particular, when a solar panel (solar cell module) is requested to be installed by a installer who has little knowledge about the structure of the roof. There is a case where a hole is made in a vertical part or a roof plate part without taking into account the rain.

本発明は、このような問題を解決するためになされたものであり、その目的とするところは、複数の金属製の屋根板をはぜ吊子を介して連結した立てはぜ葺屋根のはぜ吊子の上に、はぜ吊子の長手方向と直交する複数の電池モジュール支持バーをはぜ吊子の長手方向に所定間隔置きに配備し、隣り合う電池モジュール支持バー間で太陽電池モジュールを支持するようにした立てはぜ葺屋根への太陽電池モジュールの設置構造において、在来の上記構造の立てはぜ葺屋根のキャップを省略し、これに代えて特殊な架台兼屋根板押さえ部材を採用し、また該架台兼屋根板押さえ部材の吊子への取付け方に工夫を凝らすことにより電池モジュール支持バーおよび太陽電池モジュールを安定よく支持することができ、暴風や台風などにも十分に対抗できる立てはぜ葺屋根への太陽電池モジュールの設置構造を提供することにある。   The present invention has been made in order to solve such problems, and the object of the present invention is to have a vertical roof constructed by connecting a plurality of metal roof plates via a hanger. A plurality of battery module support bars orthogonal to the longitudinal direction of the spiral hanger are arranged on the spiral hanger at predetermined intervals in the longitudinal direction of the spiral hanger, and the solar cell module is disposed between adjacent battery module support bars. In the structure of installing the solar cell module on the roof of the roof that supports the roof, the conventional structure of the above structure omits the cap of the roof of the roof. In addition, the battery module support bar and the solar cell module can be stably supported by elaborating the mounting method of the pedestal and roof plate pressing member to the suspension, and it is sufficient for storms and typhoons. In opposition That stand is to provide an installation structure of a solar cell module to ze 葺 roof.

本発明の立てはぜ葺屋根への太陽電池モジュールの設置構造は、請求項1に記載のように、その発明の内容を理解しやすくするために図1〜4に示す符号を参照して説明すると、複数の金属製の屋根板(1)をはぜ吊子(2)を介して連結した立てはぜ葺屋根(3)のはぜ吊子(2)の上に、はぜ吊子(2)の長手方向と直交する複数の電池モジュール支持バー(4)をはぜ吊子(2)の長手方向に所定間隔置きに配備し、隣り合う電池モジュール支持バー(4)(4)間で太陽電池モジュール(5)を支持するようにした立てはぜ葺屋根への太陽電池モジュールの設置構造において、以下のように構成したことを特徴とする。
すなわち、 屋根板(1)には、その左右の各側縁を折り上げて左右の各立上り連結縁(6)を形成し、この立上り連結縁(6)の上端側に被係留部(7)を形成する。
はぜ吊子(2)は屋根下地(23)に第1のビス(24)で固定されるベース部(9)を形成するとともに、このベース部(9)から起立部(10)を立ち上げ、この起立部(10)の上端側に左右一対の係留部(11)を断面傘形状に形成し、係留部(11)より上方にトップ部(12)を形成する。
はぜ吊子(2)のトップ部(12)には軒棟方向に延びる金属製の架台兼屋根板押さえ部材(14)を取付け、この架台兼屋根板押さえ部材(14)は電池モジュール支持バー(4)を支持する天板(15)と、この天板(15)の左右両側縁から左右一対の各側板(16)を折り下げて形成する。
はぜ吊子(2)の左右の各横外側部に左右の両屋根板(1)(1)の各立上り連結縁(6)を配置し、各立上り連結縁(6)の被係留部(7)をはぜ吊子(2)の左右の各係留部(11)で上から受け止めるように構成する。
そして、架台兼屋根板押さえ部材(14)ははぜ吊子(2)および左右の両立上り連結縁(6)に亘ってその上から覆い被せるとともに、天板(15)をトップ部(12)に第2のビス(26)で固定して、左右の各側板(16)の下端に設けた屋根板押さえ部(16a)で屋根板(1)(1)をこれの上方から押圧接当したものである。
The installation structure of the solar cell module on the vertical roof of the present invention is described with reference to the reference numerals shown in FIGS. 1 to 4 in order to facilitate understanding of the contents of the invention. Then, a plurality of metal roofing plates (1) connected via a hanger hanger (2), a vertical hanger (2) on a hanger roof (3), a hanger hanger ( A plurality of battery module support bars (4) orthogonal to the longitudinal direction of 2) are arranged at predetermined intervals in the longitudinal direction of the hanger (2), and between adjacent battery module support bars (4) (4). The standing structure for supporting the solar cell module (5) is configured as follows in the installation structure of the solar cell module on the roof roof.
That is, the left and right side edges of the roof plate (1) are folded up to form the left and right rising connection edges (6), and the moored portion (7) is formed on the upper end side of the rising connection edges (6). Form.
The hanger suspension (2) forms a base portion (9) fixed to the roof base (23) with the first screw (24), and the upright portion (10) is raised from the base portion (9). A pair of left and right mooring portions (11) are formed in a cross-sectional umbrella shape on the upper end side of the standing portion (10), and a top portion (12) is formed above the mooring portion (11).
A metal frame and roof plate pressing member (14) extending in the direction of the eaves ridge is attached to the top portion (12) of the hanger suspension (2), and this frame and roof plate pressing member (14) is a battery module support bar. A top plate (15) for supporting (4) and a pair of left and right side plates (16) are folded from the left and right side edges of the top plate (15).
The rising connection edges (6) of the left and right roof plates (1) (1) are arranged on the left and right lateral outer sides of the hanger suspension (2), and the mooring portions ( 7) is configured to be received from above by the left and right mooring portions (11) of the hanger (2).
The pedestal and roof plate pressing member (14) covers the top suspension (2) and the right and left compatible rising connection edges (6) from above, and the top plate (15) is covered with the top portion (12). The roof plates (1) and (1) are pressed and contacted from above by the roof plate pressing portions (16a) provided at the lower ends of the left and right side plates (16). Is.

上記の構成によると、架台兼屋根板押さえ部材(14)の天板(15)を直接はぜ吊子(2)のトップ部(12)に第2のビス(26)で締め付け固定することにより、暴風や台風等で架台兼屋根板押さえ部材(14)が屋根板(1)およびはぜ吊子(2)から外れるのを確実に防止することができる。このため、架台兼屋根板押さえ部材(14)によって電池モジュール支持バー(4)および太陽電池モジュール(5)を安定よく確実に支持することができる。   According to the above configuration, the top plate (15) of the gantry and roof plate pressing member (14) is directly fastened and fixed to the top portion (12) of the screw suspension (2) with the second screw (26). Further, it is possible to reliably prevent the gantry and roof plate pressing member (14) from being detached from the roof plate (1) and the hanger suspension (2) due to a storm or a typhoon. For this reason, the battery module support bar (4) and the solar cell module (5) can be stably and reliably supported by the gantry and roof plate pressing member (14).

また、架台兼屋根板押さえ部材(14)の左右の各側板(16)の下端に設けた屋根板押さえ部(16a)を屋根板(1)(1)上に押圧接当させているため、架台兼屋根板押さえ部材(14)を屋根板(1)(1)上に安定良く定置固定できる。これにより、架台兼屋根板押さえ部材(14)で電池モジュール支持バー(4)および太陽電池モジュール(5)をさらに一層安定良く支持することができる。   In addition, because the roof plate pressing portion (16a) provided at the lower ends of the left and right side plates (16) of the gantry and roof plate pressing member (14) is pressed against the roof plates (1) and (1), The gantry and roof plate pressing member (14) can be stably fixed on the roof plates (1) and (1). Thereby, a battery module support bar (4) and a solar cell module (5) can be supported still more stably by a gantry and roof board pressing member (14).

他方、架台兼屋根板押さえ部材(14)の左右の各側板(16)の下端に設けた屋根板押さえ部(16a)で屋根板(1)(1)をこれの上方から強く押圧接当することにより屋根板(1)(1)を強固に固定しているので、強風等によって屋根板(1)(1)が外れる心配がなく、別途キャップ等によって屋根板(1)(1)をはぜ吊子(2)に固定する必要がない。これにより、本発明の架台兼屋根板押さえ部材(14)は、電池モジュール支持バー(4)および太陽電池モジュール(5)を支持するための架台と、屋根板(1)(1)を固定するための屋根板押さえ部材とを兼ねることになる。   On the other hand, the roof plates (1) and (1) are strongly pressed from above the roof plate pressing portions (16a) provided at the lower ends of the left and right side plates (16) of the gantry and roof plate pressing member (14). Since the roof plate (1) (1) is firmly fixed by this, there is no fear that the roof plate (1) (1) will come off due to strong wind or the like. There is no need to fix it to the hanger (2). Thus, the gantry and roof plate pressing member (14) of the present invention fixes the gantry for supporting the battery module support bar (4) and the solar cell module (5) and the roof plates (1) and (1). Therefore, it also serves as a roof plate pressing member.

さらに、屋根板押さえ部(16a)で屋根板(1)(1)をこれの上方から強く押圧接当しているので、暴風雨や台風などの風雨が強く吹き付けられるときも風雨が屋根板押さえ部(16a)と屋根板(1)との間から侵入するのを防止できる。
仮に、屋根板押さえ部(16a)と屋根板(1)の間から雨水が侵入したとしても、屋根板(1)の立上り連結縁(6)の被係留部(7)をはぜ吊子(2)の左右の係留部(11)で上から受け止めるように構成しているため、被係留部(7)が係留部(11)によって遮蔽され、雨水が屋根板(1)の裏側(屋内側)に侵入するのを防止することができる。
Further, since the roof plate (1) and (1) are strongly pressed and contacted from above by the roof plate pressing portion (16a), even when wind and rain such as storms and typhoons are strongly blown, the wind and rain is prevented by the roof plate pressing portion. Intrusion from between (16a) and the roof plate (1) can be prevented.
Even if rainwater invades between the roof plate pressing portion (16a) and the roof plate (1), the anchored portion (7) of the rising connection edge (6) of the roof plate (1) 2) Since the left and right mooring parts (11) are configured to be received from above, the moored part (7) is shielded by the mooring part (11), and rainwater is behind the roof plate (1) (indoor side) ) Can be prevented.

さらに、はぜ吊子(2)の起立部(10)の上端側に左右一対の係留部(11)を断面傘形状に形成するので、架台兼屋根板押さえ部材(14)の天板(15)およびはぜ吊子(2)のトップ部(12)とこれらに挿通される第2のビス(26)との間の隙間から雨水が侵入しても、この雨水を断面傘形状の左右一対の係留部(11)で左右の屋根板(1)(1)の両立上り連結縁(6)(6)と架台兼屋根板押さえ部材(14)の左右の側板(16)(16)との間の下方へ向けて垂れ流すことができるため、左右の屋根板の両立上り連結縁(6)(6)同士間に雨水が侵入するのを防止できて屋根裏への雨漏りを防止できる。   Furthermore, since a pair of left and right mooring portions (11) are formed in a cross-sectional umbrella shape on the upper end side of the standing portion (10) of the hanger suspension (2), the top plate (15) of the gantry and roof plate pressing member (14) ) And even if rainwater enters from the gap between the top part (12) of the hanger suspension (2) and the second screw (26) inserted through these, Between the left and right roof plates (1) and (1) and the left and right side plates (16) and (16) of the frame / roof plate pressing member (14). Since it can drip down downward, rainwater can be prevented from invading between the compatible rising connecting edges (6) and (6) of the left and right roof boards, and rain leakage to the attic can be prevented.

請求項1に記載の立てはぜ葺屋根への太陽電池モジュールの設置構造は、請求項2に記載のように、架台兼屋根板押さえ部材(14)の左右の各側板(16)の屋根板押さえ部(16a)は断面凸円弧状に湾曲形成していることに特徴を有するものである。   The installation structure of the solar cell module on the vertical roof according to claim 1 is the roof plate of the left and right side plates (16) of the gantry / roof plate pressing member (14) as described in claim 2. The pressing portion (16a) is characterized by being curved in a convex arc shape in cross section.

これにより、屋根板押さえ部(16a)と屋根板(1)の接触面積を小さくすることができるため、屋根板(1)と屋根板押さえ部(16a)との接触間に雨水が停滞するのをよく抑えることができ、異なる金属製の屋根板(1)と屋根板押さえ部(16a)との接触間で電蝕が発生するのを防止することができる。   Thereby, since the contact area of a roof board pressing part (16a) and a roof board (1) can be made small, rainwater stagnates between the contact of a roof board (1) and a roof board holding part (16a). It is possible to suppress the occurrence of electrolytic corrosion between the contact between the different metal roof plate (1) and the roof plate pressing portion (16a).

本発明の立てはぜ葺屋根への太陽電池モジュールの設置構造は、隣り合う屋根板(1)(1)の立上り連結縁(6)(6)同士間への雨水侵入を防止する機能と、屋根板(1)(1)を押さえる機能を兼備するのみならず、電池モジュール支持バー(4)および太陽電池モジュール(5)を安定よく支持することができ、暴風や台風などにも十分に対抗できるという利点がある。   The installation structure of the solar cell module on the vertical roof of the present invention has the function of preventing rainwater intrusion between the rising connection edges (6) and (6) of the adjacent roof plates (1) and (1), Not only has the function of holding down the roof panels (1) and (1), but also can stably support the battery module support bar (4) and the solar cell module (5), and resists storms and typhoons. There is an advantage that you can.

本発明の一実施例を示す立てはぜ葺屋根への太陽電池モジュールの設置構造の縦断正面図である。It is the vertical front view of the installation structure of the solar cell module to the roof roof which shows one Example of this invention. 図1における一部拡大図であるIt is a partially expanded view in FIG. 図1におけるA−A線断面図である。It is the sectional view on the AA line in FIG. 他の実施例の立てはぜ葺屋根への太陽電池モジュールの設置構造を図1に相応して示す縦断正面図である。FIG. 6 is a longitudinal front view showing the installation structure of the solar cell module on the roof of another embodiment corresponding to FIG. 従来例の立てはぜ葺屋根構造の断面図である。The conventional stand is a cross-sectional view of a roof roof structure. 他の従来例の縦葺き屋根への太陽電池モジュールの設置構造を示し、(a)はその斜視図、(b)はその断面図である。The installation structure of the solar cell module to the vertical thatched roof of another prior art example is shown, (a) is its perspective view, and (b) is its sectional view.

以下、本発明の立てはぜ葺屋根への太陽電池モジュールの設置構造の実施の形態を、図面に基き説明する。   Hereinafter, an embodiment of a structure for installing a solar cell module on a roof roof of the present invention will be described with reference to the drawings.

図1〜図3において、この立てはぜ葺屋根への太陽電池モジュールの設置構造は、複数の鋼板など金属製の屋根板1をはぜ吊子2を介して連結した立てはぜ葺屋根3のはぜ吊子2の上に、はぜ吊子2の長手方向(軒棟方向・屋根傾斜方向)と直交する複数の電池モジュール支持バー4をはぜ吊子2の長手方向に所定間隔置きに配備し、隣り合う電池モジュール支持バー4,4間で太陽電池モジュール5を支持するようにしたものである。   In FIG. 1 to FIG. 3, the vertical structure of the solar cell module installed on the roof is a vertical roof 3 in which a metal roof plate 1 such as a plurality of steel plates is connected through a vertical hanger 2. A plurality of battery module support bars 4 perpendicular to the longitudinal direction (the eaves ridge direction and the roof inclination direction) of the helical suspension 2 are placed on the helical suspension 2 at predetermined intervals in the longitudinal direction of the helical suspension 2. And the solar cell module 5 is supported between the adjacent battery module support bars 4 and 4.

図1、図2に示すように、屋根板1には、屋根板本体1aの左右の各側縁を折り上げて左右の各立上り連結縁6を形成するとともに、この立上り連結縁6の上端縁を屋根板本体1a側へ折り返し、この折り返し部分(はぜ)で被係留部7を形成する。立上り連結縁6の中間高さ部には遮水凸条8を屋根板本体1a側へ膨出させて形成する。   As shown in FIGS. 1 and 2, the roof plate 1 is formed by folding the left and right side edges of the roof plate body 1 a to form the left and right rising connection edges 6, and the upper edge of the rising connection edge 6. Is folded back to the roof plate body 1a side, and the anchored portion 7 is formed by the folded portion (haze). At the intermediate height portion of the rising connection edge 6, a water shielding ridge 8 is formed to bulge toward the roof plate body 1 a side.

図1〜図3に示すように、はぜ吊子2はアルミニューム合金を押出成形して得る型材などからなる金属製のものであって、木毛セメント板など野地板21および母屋22などの屋根下地23にセルフドリルビスなど第1のビス24で固定され軒棟方向に延びる形のベース部9と、このベース部9の左右方向中央部から軒棟方向に延びる形の起立部10を垂直に立ち上げ、この起立部10の上端側に軒棟方向に延びる左右一対の係留部11を断面傘形状に形成し、係留部11より更に上方部位(ベース部9の頂部)に軒棟方向に延びるトップ部12を断面一文字形状に形成する。トップ部12は、はぜ吊子2の長手方向に亘って一連に形成されている。これにより、後述する第2のビス26を設ける場所(したがって架台兼屋根板押さえ部材14を固定する場所)の制約を受けないという利点がある。起立部10の係留部11より下方部位には軒棟方向に延びる左右一対の各係止凸条13を横外側へ向けて突設する。なお、はぜ吊子2には軒棟方向に長尺の通し吊子、あるいは短尺の部分吊子が用いられる。   As shown in FIG. 1 to FIG. 3, the hanger suspension 2 is made of metal such as a mold material obtained by extrusion molding of an aluminum alloy, and includes a base plate 21 such as a wood wool cement board and a purlin 22. The base portion 9 fixed to the roof base 23 with a first screw 24 such as a self-drilling screw and extending in the eave building direction, and the upright portion 10 extending in the eave building direction from the central portion in the horizontal direction of the base portion 9 are vertically arranged. A pair of left and right mooring portions 11 extending in the eave building direction is formed in an umbrella shape on the upper end side of the upright portion 10 so as to have an umbrella shape in cross section, and extend in the eaves building direction further above the mooring portion 11 (the top of the base portion 9) The top portion 12 is formed in a single character shape in cross section. The top portion 12 is formed in series along the longitudinal direction of the hanger suspension 2. Accordingly, there is an advantage that there is no restriction on the place where the second screw 26 described later is provided (thereby, the place where the gantry / roof board pressing member 14 is fixed). A pair of left and right locking projections 13 extending in the eave building direction project from the mooring portion 11 of the standing portion 10 toward the laterally outer side. In addition, a long hanging hook or a short partial hanging piece is used for the eaves hanger 2 in the eaves-ridge direction.

そして軒棟方向に延びる長尺の架台兼屋根板押さえ部材14を用意する。この架台兼屋根板押さえ部材14はアルミニューム合金を押出成形して得る型材などからなる金属製のものであって、天板15と、この天板15の左右両側縁から折り下げて断面くの字形状に形成する左右一対の側板16とを有する断面逆溝形状に形成している。左右の各側板16の下端には屋根板押さえ部16aを形成している。側板16は、さらに具体的には、天板15の左右両側縁から下方拡がり状に傾斜する傾斜部と、ほぼ真下に垂下する垂下部とを有し、この垂下部の下端に屋根板押さえ部16aが形成されている。天板15は、はぜ吊子2のトップ部12の幅にほぼ合致する幅を有している。   Then, a long pedestal and roof plate pressing member 14 extending in the eaves direction is prepared. The pedestal and roof plate pressing member 14 is made of metal such as a mold obtained by extruding aluminum alloy, and is folded from the top plate 15 and the left and right side edges of the top plate 15 to have a cross section. It is formed in a cross-section reverse groove shape having a pair of left and right side plates 16 formed in a letter shape. Roof plate pressing portions 16 a are formed at the lower ends of the left and right side plates 16. More specifically, the side plate 16 has an inclined portion that inclines downward from both left and right side edges of the top plate 15 and a hanging portion that hangs down almost directly below, and a roof plate pressing portion at the lower end of the hanging portion. 16a is formed. The top plate 15 has a width that substantially matches the width of the top portion 12 of the hanger suspension 2.

上記はぜ吊子2の左右一対の各係止凸条13と、屋根板1の左右の立上り連結縁6の各遮水凸条8の各断面形状は、それぞれ横外向きの鋭角の三角形状に形成する。その各係止凸条13の斜め上向き斜面13aと斜め下向き斜面13bとの両方に、各遮水凸条8の斜め上向き斜辺8aと斜め下向き斜辺8bとの両方を面接当させるようにしている。これにより屋根板1の左右の立上り連結縁6の各遮水凸条8の斜め上向き斜辺8aと斜め下向き斜辺8bとは変形しないように嵌合固定されることになる。   Each of the cross-sectional shapes of the pair of left and right engaging protrusions 13 of the helical hanger 2 and the water shielding protrusions 8 of the right and left rising connection edges 6 of the roof plate 1 is a triangular shape with a sharp outward angle. To form. Both the obliquely upward inclined side 8a and the obliquely downward inclined side 8b of each water shielding ridge 8 are brought into contact with both the obliquely upward slope 13a and the obliquely downward slope 13b of each locking ridge 13. As a result, the diagonally upward hypotenuse 8a and the diagonally downward hypotenuse 8b of each of the water shielding projections 8 on the left and right rising connection edges 6 of the roof plate 1 are fitted and fixed so as not to be deformed.

図3に示すように、電池モジュール支持バー4は全体を断面ハット形状に形成して太陽電池モジュール5の周枠5aを受け止める一対の周枠受け部4a,4aと、一対のねじ止めフランジ4b,4bを設けている。ねじ止めフランジ4bは架台兼屋根板押さえ部材14の天板15の上に直交状に載置し、止めねじ17で固定するようしてある。電池モジュール支持バー4は、太陽電池モジュール5を支持するにあたって、モジュール押さえ部材18、硬質ゴム19および押さえねじ20を併用する。モジュール押さえ部材18は、一対の係止部18a,18aを有する断面溝形状に形成され、電池モジュール支持バー4の上に硬質ゴム19を介して載置されて押さえねじ20で固定されるとともに、係止部18a,18aを隣り合う太陽電池モジュール5の周枠5aの溝部5bに嵌合するようにしてある。   As shown in FIG. 3, the battery module support bar 4 has a pair of peripheral frame receiving portions 4a and 4a for receiving the peripheral frame 5a of the solar cell module 5 by forming a cross-sectional hat shape as a whole, and a pair of screw flanges 4b, 4b is provided. The screwing flange 4 b is placed orthogonally on the top plate 15 of the gantry and roof plate pressing member 14 and fixed with a setscrew 17. The battery module support bar 4 uses a module pressing member 18, a hard rubber 19, and a pressing screw 20 together when supporting the solar cell module 5. The module pressing member 18 is formed in a cross-sectional groove shape having a pair of locking portions 18a, 18a, is placed on the battery module support bar 4 via a hard rubber 19, and is fixed by a pressing screw 20. The locking portions 18a and 18a are fitted into the groove portions 5b of the peripheral frames 5a of the adjacent solar cell modules 5.

立てはぜ葺屋根3の施工に際しては、はぜ吊子2を屋根下地23に第1のビス24で固定し、このはぜ吊子2の左右の各横外側部に、野地板21上に防水シートSを介して敷設する左右の両屋根板1,1の各立上り連結縁6を配置する。各立上り連結縁6の被係留部7をはぜ吊子2の左右の各係留部11で上から受け止める。   In the construction of the vertical roof roof 3, the spring suspension 2 is fixed to the roof base 23 with the first screws 24. The rising connection edges 6 of the left and right roof plates 1, 1 laid through the waterproof sheet S are arranged. The moored portion 7 of each rising connection edge 6 is received from above by the left and right mooring portions 11 of the hanger suspension 2.

そして、はぜ吊子2および屋根板1,1の立上り連結縁6,6に亘って架台兼屋根板押さえ部材14をこれの左右の側板16,16が立上り連結縁6,6を覆うようにその上方から覆い被せるとともに、架台兼屋根板押さえ部材14の天板15をはぜ吊子2のトップ部12にセルフドリルビス等の第2のビス26で締め付け固定する。この締め付けにより、架台兼屋根板押さえ部材14の左右の各側板16の下端に設けた屋根板押さえ部16aが屋根板1,1をこれの上方から押圧して該屋根板1,1の上面に接当することになる。屋根板1,1は、この架台兼屋根板押さえ部材14の押圧接当により野地板21等の屋根下地23上に強固に固定されることになる。   Then, the frame / roof board pressing member 14 is covered over the rising connection edges 6 and 6 of the hanger suspension 2 and the roof boards 1 and 1 so that the left and right side plates 16 and 16 cover the rising connection edges 6 and 6. The top plate 15 of the gantry / roof plate pressing member 14 is covered with the second screw 26 such as a self-drill screw. By this tightening, the roof plate pressing portion 16a provided at the lower ends of the left and right side plates 16 of the gantry / roof plate pressing member 14 presses the roof plates 1 and 1 from above to bring them to the upper surface of the roof plates 1 and 1. I will be in touch. The roof boards 1 and 1 are firmly fixed on the roof base 23 such as the field board 21 by the pressing contact of the gantry and roof board pressing member 14.

次に、架台兼屋根板押さえ部材14の天板15の上に電池モジュール支持バー4を直交状に載置し、ねじ止めフランジ4bを止めねじ17で固定する。電池モジュール支持バー4の一対の周枠受け部4a上に隣り合う太陽電池モジュール5の周枠5aをそれぞれ載置し、モジュール押さえ部材18を電池モジュール支持バー4の上に硬質ゴム19を介して載置して係止部18a,18aを隣り合う太陽電池モジュール5の周枠5aの溝部5bに嵌合係止する。かくして押さえねじ20でモジュール押さえ部材18を硬質ゴム19ごと電池モジュール支持バー4に固定する。   Next, the battery module support bar 4 is placed orthogonally on the top plate 15 of the gantry and roof plate pressing member 14, and the screwing flange 4 b is fixed with the setscrew 17. The peripheral frames 5a of the adjacent solar cell modules 5 are placed on the pair of peripheral frame receiving portions 4a of the battery module support bar 4, respectively, and the module pressing member 18 is placed on the battery module support bar 4 via the hard rubber 19. The locking portions 18a, 18a are placed and fitted and locked in the grooves 5b of the peripheral frames 5a of the adjacent solar cell modules 5. Thus, the module holding member 18 is fixed to the battery module support bar 4 together with the hard rubber 19 with the holding screw 20.

上記のように、架台兼屋根板押さえ部材14はこれの天板15をはぜ吊子2のトップ部12に第2のビス26で締め付け固定することにより、暴風や台風等で架台兼屋根板押さえ部材14が屋根板1およびはぜ吊子2から外れるのを確実に防止できるため、架台兼屋根板押さえ部材14による電池モジュール支持バー4および太陽電池モジュール5の支持機能を十分に果たすことができる。   As described above, the gantry / roof board pressing member 14 is fastened and fixed to the top portion 12 of the hanger 2 by the second screw 26 to fix the top board 15 to the gantry / roof board in a storm or typhoon. Since it can prevent reliably that the holding member 14 remove | deviates from the roof board 1 and the hanger suspension 2, it can fully fulfill | perform the support function of the battery module support bar 4 and the solar cell module 5 by the mount frame / roof board holding member 14. it can.

また、架台兼屋根板押さえ部材14の天板15ははぜ吊子2のトップ部12に第2のビス26で締め付け固定することにより、架台兼屋根板押さえ部材14の左右の各側板26の下端に設けた屋根板押さえ部16aで屋根板1,1をこれの上方から強く押さえ付けることができる。これにより架台兼屋根板押さえ部材14を屋根板1,1およびはぜ吊子2に対し安定良く定置固定でき、この架台兼屋根板押さえ部材14により電池モジュール支持バー4および太陽電池モジュール5をより一層安定良く確実に支持することができる。   Further, the top plate 15 of the gantry / roof board pressing member 14 is fastened and fixed to the top portion 12 of the hanger suspension 2 with the second screw 26, whereby the left and right side plates 26 of the gantry / roof board pressing member 14 are fixed. The roof plate 1 and 1 can be strongly pressed from above by the roof plate pressing portion 16a provided at the lower end. As a result, the gantry / roof board pressing member 14 can be stably fixed and fixed to the roof boards 1, 1 and the hanger suspension 2, and the gantry / roof board pressing member 14 allows the battery module support bar 4 and the solar cell module 5 to be more securely fixed. It can be supported more stably and reliably.

さらに、架台兼屋根板押さえ部材14の左右の各側板16の下端に設けた屋根板押さえ部16aが屋根板1,1をこれの上方から強く押圧接当することにより、暴風雨や台風などの風雨が強く吹き付けられるときも風雨が屋根板押さえ部16aと屋根板1との間から侵入するのを防止できるとともに、強風から生ずる負圧で屋根板1が浮き上がって引き剥がされるのを確実に防止できる。したがって、別途キャップ等によって屋根板1,1をはぜ吊子2に固定しておく必要がない。架台兼屋根板押さえ部材14は、かかるキャップによる屋根板固定機能を兼備しているものである。   Further, the roof plate pressing portion 16a provided at the lower ends of the left and right side plates 16 of the gantry / roof plate pressing member 14 strongly presses and contacts the roof plates 1 and 1 from above, thereby causing wind and rain such as storms and typhoons. When wind is strongly blown, it is possible to prevent wind and rain from entering between the roof plate pressing portion 16a and the roof plate 1, and reliably prevent the roof plate 1 from being lifted and peeled off by the negative pressure generated by the strong wind. . Therefore, it is not necessary to fix the roof boards 1 and 1 to the hanger 2 with a separate cap or the like. The gantry and roof plate pressing member 14 also has a roof plate fixing function by such a cap.

他方、屋根板押さえ部16aで屋根板1,1をこれの上方から強く押圧接当しているので、暴風雨や台風などの風雨が強く吹き付けられるときも風雨が屋根板押さえ部16aと屋根板1との間から侵入するのを防止できる。
仮に、屋根板押さえ部16aと屋根板1の間から雨水が侵入したとしても、屋根板1の立上り連結縁6の被係留部7をはぜ吊子2の左右の係留部11で上から受け止めるように構成しているため、被係留部7が係留部11によって遮蔽され、雨水が屋根板1の裏側(屋内側)に侵入するのを防止することができる。
On the other hand, since the roof plate 1 and 1 are strongly pressed and contacted from above by the roof plate pressing portion 16a, even when wind and rain such as storms and typhoons are strongly blown, the wind and rain are strongly affected by the roof plate pressing portion 16a and the roof plate 1. Can be prevented from entering between.
Even if rainwater enters between the roof plate pressing portion 16 a and the roof plate 1, the moored portion 7 of the rising connection edge 6 of the roof plate 1 is received from above by the left and right mooring portions 11 of the vertical hanger 2. Therefore, the moored portion 7 is shielded by the mooring portion 11, and rainwater can be prevented from entering the back side (indoor side) of the roof plate 1.

さらに、はぜ吊子2の起立部10の上端側に左右一対の係留部11を断面傘形状に形成するので、架台兼屋根板押さえ部材14の天板15およびはぜ吊子2のトップ部12とこれらに挿通される第2のビス26との間の隙間から雨水が侵入しても、この雨水を傘形状の左右一対の係留部11で左右の屋根板の両立上り連結縁6,6と架台兼屋根板押さえ部材14の左右の側板16,16との間の下方へ向けて垂れ流すことができるため、左右の屋根板の両立上り連結縁6,6同士間に雨水が侵入するのを防止できて屋根裏への雨漏りを防止できる。   Furthermore, since a pair of left and right mooring portions 11 are formed in a cross-sectional umbrella shape on the upper end side of the upright portion 10 of the hanger suspension 2, the top plate 15 of the gantry and roof plate pressing member 14 and the top portion of the hanger suspension 2. 12 and the second screw 26 inserted therethrough, even if rainwater enters from the gap between the left and right roofboards at the pair of left and right umbrella-shaped anchoring portions 11, 6 And the left and right side plates 16, 16 of the gantry / roof plate holding member 14, the rainwater intrudes between the compatible rising connection edges 6, 6 of the left and right roof plates. Can prevent rain leakage into the attic.

架台兼屋根板押さえ部材14の側板16と屋根板1と立上り連結縁6とで取り囲まれた内部に、広い緩衝空間27(図1参照)を形成することができる。これにより屋根板1上の雨水の一部が、たとえ、架台兼屋根板押さえ部材14の側板16の下端の屋根板押さえ部16aと屋根板1との間から侵入しても、この侵入雨水は側板16内の広い緩衝空間27で失速・落下するため、風雨の強いときでも、雨水が屋根板1,1同士間の連結部から屋根裏へ漏れるのを防止できる。   A wide buffer space 27 (see FIG. 1) can be formed in the interior surrounded by the side plate 16, the roof plate 1, and the rising connection edge 6 of the gantry / roof plate pressing member 14. As a result, even if a part of rainwater on the roof plate 1 enters from between the roof plate pressing portion 16a at the lower end of the side plate 16 of the gantry / roof plate pressing member 14 and the roof plate 1, Since the vehicle stalls and falls in the wide buffer space 27 in the side plate 16, rainwater can be prevented from leaking from the connecting portion between the roof plates 1 and 1 to the attic even when the wind and rain are strong.

立上り連結縁6の中間高さ部に遮水凸条8を屋根板本体1a側へ膨出させて形成することにより、緩衝空間27内で失速し、勢いの弱まった侵入水は、立上り連結縁6の遮水凸条8により下方へ跳ね返されるため、緩衝空間27内を上向きに通過することが殆ど無くなり、屋根板1,1同士間の連結部からの雨漏り防止に貢献する。   By forming the impermeable ridges 8 at the intermediate height portion of the rising connection edge 6 so as to bulge toward the roof plate main body 1a side, the intruding water stalled in the buffer space 27 and weakened in momentum is Since it is bounced downward by the six water-impervious protrusions 8, it hardly passes upward in the buffer space 27 and contributes to prevention of rain leakage from the connecting portion between the roof plates 1 and 1.

図4は、他の実施例に係る立てはぜ葺屋根への太陽電池モジュールの設置構造を示している。図4において、図1〜3に示した実施例と同じ部材には同じ符号を付している。
図4の実施例では、架台兼屋根板押さえ部材14の左右の各側板16の屋根板押さえ部16aを断面凸円弧状に湾曲する形に形成している。
これにより、屋根板1と屋根板押さえ部16aとの接触面積を小さくすることができるため、そこに雨水が停滞するのをよく抑えることができ、異なる金属製の屋根板1と屋根板押さえ部16aとの接触間で電蝕が発生するのを防止することができる。
FIG. 4 shows an installation structure of a solar cell module on a vertical roof according to another embodiment. In FIG. 4, the same members as those in the embodiment shown in FIGS.
In the embodiment of FIG. 4, the roof plate pressing portions 16 a of the left and right side plates 16 of the gantry / roof plate pressing member 14 are formed to be curved in a convex arc shape in cross section.
Thereby, since the contact area of the roof board 1 and the roof board holding | suppressing part 16a can be made small, it can suppress well that rainwater stagnates there, and different metal roof boards 1 and the roof board holding | maintenance part It is possible to prevent electric corrosion from occurring between the contact with 16a.

1 屋根板
2 はぜ吊子
3 立てはぜ葺屋根
4 電池モジュール支持バー
5 太陽電池モジュール
6 立上り連結縁
7 被係留部
9 ベース部
10 起立部
11 係留部
12 トップ部
14 架台兼屋根板押さえ部材
15 天板
16 側板
16a 屋根板押さえ部
23 屋根下地
24 第1のビス
26 第2のビス
DESCRIPTION OF SYMBOLS 1 Roof board 2 Hatch lift 3 Stand-up roof 4 Battery module support bar 5 Solar cell module 6 Rising connection edge 7 Anchored part 9 Base part 10 Standing part 11 Mooring part 12 Top part 14 Mounting board and roof board pressing member 15 Top plate 16 Side plate 16a Roof plate holding part 23 Roof base 24 First screw 26 Second screw

Claims (2)

複数の金属製の屋根板(1)をはぜ吊子(2)を介して連結した立てはぜ葺屋根(3)のはぜ吊子(2)の上に、はぜ吊子(2)の長手方向と直交する複数の電池モジュール支持バー(4)をはぜ吊子(2)の長手方向に所定間隔置きに配備し、隣り合う電池モジュール支持バー(4)(4)間で太陽電池モジュール(5)を支持するようにした立てはぜ葺屋根への太陽電池モジュールの設置構造において、
屋根板(1)には、その左右の各側縁を折り上げて左右の各立上り連結縁(6)を形成し、この立上り連結縁(6)の上端側に被係留部(7)を形成しており、
はぜ吊子(2)は屋根下地(23)に第1のビス(24)で固定されるベース部(9)を形成するとともに、このベース部(9)から起立部(10)を立ち上げ、この起立部(10)の上端側に左右一対の係留部(11)を断面傘形状に形成し、係留部(11)より上方にトップ部(12)を形成しており、
はぜ吊子(2)のトップ部(12)には軒棟方向に延びる金属製の架台兼屋根板押さえ部材(14)を取付け、この架台兼屋根板押さえ部材(14)は電池モジュール支持バー(4)を支持する天板(15)と、この天板(15)の左右両側縁から左右一対の各側板(16)を折り下げて形成しており、
はぜ吊子(2)の左右の各横外側部に左右の両屋根板(1)(1)の各立上り連結縁(6)を配置し、各立上り連結縁(6)の被係留部(7)をはぜ吊子(2)の左右の各係留部(11)で上から受け止めるように構成しており、
架台兼屋根板押さえ部材(14)ははぜ吊子(2)および左右の両立上り連結縁(6)に亘ってその上から覆い被せるとともに、天板(15)をトップ部(12)に第2のビス(26)で固定して、左右の各側板(16)の下端に設けた屋根板押さえ部(16a)で屋根板(1)(1)をこれの上方から押圧接当していることを特徴とする立てはぜ葺屋根への太陽電池モジュールの設置構造。
A plurality of metal roofing plates (1) connected via a hanger suspension (2), a vertical hanger (2) on a vertical roof (3), a hanger hanger (2) A plurality of battery module support bars (4) orthogonal to the longitudinal direction of the battery are disposed at predetermined intervals in the longitudinal direction of the hanger (2), and solar cells between adjacent battery module support bars (4) (4) are arranged. In the installation structure of the solar cell module on the roof that supports the module (5),
On the roof plate (1), the left and right side edges are folded to form the left and right rising connection edges (6), and the anchored portion (7) is formed on the upper end side of the rising connection edge (6). And
The hanger suspension (2) forms a base portion (9) fixed to the roof base (23) with the first screw (24), and the upright portion (10) is raised from the base portion (9). The pair of left and right mooring portions (11) is formed in a cross-sectional umbrella shape on the upper end side of the standing portion (10), and the top portion (12) is formed above the mooring portion (11).
A metal frame and roof plate pressing member (14) extending in the direction of the eaves ridge is attached to the top portion (12) of the hanger suspension (2), and this frame and roof plate pressing member (14) is a battery module support bar. The top plate (15) that supports (4) and the pair of left and right side plates (16) are folded from the left and right side edges of the top plate (15),
The rising connection edges (6) of the left and right roof plates (1) (1) are arranged on the left and right lateral outer sides of the hanger suspension (2), and the mooring portions ( 7) is configured to be received from above by the left and right mooring portions (11) of the hanger (2),
The pedestal and roof plate pressing member (14) covers the top suspension (2) and the right and left compatible rising connection edges (6) from above, and the top plate (15) is attached to the top portion (12). The roof plate (1) (1) is pressed and contacted from above by a roof plate pressing portion (16a) fixed at the lower end of each of the left and right side plates (16). The stand is characterized by the installation structure of the solar cell module on the roof.
架台兼屋根板押さえ部材(14)の左右の各側板(16)の屋根板押さえ部(16a)は断面凸円弧状に湾曲形成している、請求項1記載の立てはぜ葺屋根への太陽電池モジュールの設置構造。   2. The stand to the roof of the rooftop according to claim 1, wherein the roof plate pressing portions (16 a) of the left and right side plates (16) of the gantry / roof plate pressing member (14) are curved in a convex arc shape in cross section. Battery module installation structure.
JP2010252100A 2010-11-10 2010-11-10 Installation structure of solar cell module on standing seam roof Pending JP2012102544A (en)

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US9416992B2 (en) 2014-02-28 2016-08-16 Sunpower Corporation End clamps for solar systems
US9813015B1 (en) 2016-06-29 2017-11-07 Sunpower Corporation End clamp for mounting solar module to rail
WO2022222451A1 (en) * 2021-04-23 2022-10-27 隆基乐叶光伏科技有限公司 Support and photovoltaic roof

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2015100048A1 (en) * 2013-12-23 2015-07-02 Sunpower Corporation Improved clamps for solar systems
US9531319B2 (en) 2013-12-23 2016-12-27 Sunpower Corporation Clamps for solar systems
US10432133B2 (en) 2013-12-23 2019-10-01 Sunpower Corporation Clamps for solar systems
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US11121668B2 (en) 2013-12-23 2021-09-14 Sunpower Corporation Clamps for solar system
US11575344B2 (en) 2013-12-23 2023-02-07 Sunpower Corporation Clamps for solar system
US9416992B2 (en) 2014-02-28 2016-08-16 Sunpower Corporation End clamps for solar systems
US9777948B2 (en) 2014-02-28 2017-10-03 Sunpower Corporation End clamps for solar systems
US9813015B1 (en) 2016-06-29 2017-11-07 Sunpower Corporation End clamp for mounting solar module to rail
US10243507B2 (en) 2016-06-29 2019-03-26 Sunpower Corporation End clamp for mounting solar module to rail
WO2022222451A1 (en) * 2021-04-23 2022-10-27 隆基乐叶光伏科技有限公司 Support and photovoltaic roof

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