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A platform for research: civil engineering, architecture and urbanism
SOLAR PANEL FIXING AUXILIARY BRACKET, SUPPORT BRACKET AND INSTALLATION STRUCTURE
To reinforce the rear panel of the solar panel frame to improve the fixing strength to the support bracket.SOLUTION: A solar panel fixing auxiliary bracket integrally includes a lower piece 42 that contacts the back surface of a frame 13a of a solar panel 13, a vertical piece 43 that contacts the outer surface, and an upper piece 44 that holds down the front surface of the frame 13a when the lower piece 42 and the vertical piece 43 contact the back surface and the outer surface of the frame 13a, respectively. The lower piece 42 is formed with a fixing hole 42a into which a fixing bolt 14 is inserted that passes through a back plate 17 constituting the back surface of the frame 13a and a receiving piece 34 of a support bracket 31 that supports the solar panel 13, and the size of the fixing hole 42a corresponds to the thickness of a fixing bolt 14.SELECTED DRAWING: Figure 2
【課題】太陽電池パネルのフレームの裏面板を補強して、支持金具に対する固定強度の向上をはかる。【解決手段】太陽電池パネル13のフレーム13aにおける裏面に接する下片42と、外側面に接する縦片43と、これら下片42と縦片43がそれぞれフレーム13aの裏面と外側面に接したときにフレーム13aの表面を押さえる上片44を一体に備える。下片42には、フレーム13aの裏面を構成する裏面板17と太陽電池パネル13を支持する支持金具31の受け片34を貫通する固定ボルト14が挿入される固定穴42aを形成し、固定穴42aの大きさを固定ボルト14の太さに対応する大きさとする。【選択図】図2
SOLAR PANEL FIXING AUXILIARY BRACKET, SUPPORT BRACKET AND INSTALLATION STRUCTURE
To reinforce the rear panel of the solar panel frame to improve the fixing strength to the support bracket.SOLUTION: A solar panel fixing auxiliary bracket integrally includes a lower piece 42 that contacts the back surface of a frame 13a of a solar panel 13, a vertical piece 43 that contacts the outer surface, and an upper piece 44 that holds down the front surface of the frame 13a when the lower piece 42 and the vertical piece 43 contact the back surface and the outer surface of the frame 13a, respectively. The lower piece 42 is formed with a fixing hole 42a into which a fixing bolt 14 is inserted that passes through a back plate 17 constituting the back surface of the frame 13a and a receiving piece 34 of a support bracket 31 that supports the solar panel 13, and the size of the fixing hole 42a corresponds to the thickness of a fixing bolt 14.SELECTED DRAWING: Figure 2
【課題】太陽電池パネルのフレームの裏面板を補強して、支持金具に対する固定強度の向上をはかる。【解決手段】太陽電池パネル13のフレーム13aにおける裏面に接する下片42と、外側面に接する縦片43と、これら下片42と縦片43がそれぞれフレーム13aの裏面と外側面に接したときにフレーム13aの表面を押さえる上片44を一体に備える。下片42には、フレーム13aの裏面を構成する裏面板17と太陽電池パネル13を支持する支持金具31の受け片34を貫通する固定ボルト14が挿入される固定穴42aを形成し、固定穴42aの大きさを固定ボルト14の太さに対応する大きさとする。【選択図】図2
SOLAR PANEL FIXING AUXILIARY BRACKET, SUPPORT BRACKET AND INSTALLATION STRUCTURE
太陽電池パネル固定補助金具、支持金具および設置構造
TOMONO OSAMU (author)
2024-10-31
Patent
Electronic Resource
Japanese
IPC:
E04D
ROOF COVERINGS
,
Dacheindeckungen
/
H02S
GENERATION OF ELECTRIC POWER BY CONVERSION OF INFRA-RED RADIATION, VISIBLE LIGHT OR ULTRAVIOLET LIGHT, E.G. USING PHOTOVOLTAIC [PV] MODULES
,
Erzeugung elektrischer Energie durch Umwandlung von Infrarot-Strahlung, sichtbarem Licht oder ultraviolettem Licht, z.B. unter Verwendung von Photovoltaik [PV]-Modulen
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