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A platform for research: civil engineering, architecture and urbanism
Light photovoltaic module building integrated structure and construction method
The invention discloses a light photovoltaic module building integrated structure and a construction method, endurance plates and light groove base plates are arranged between wave crests of a color steel tile roof of an existing building, the height of the endurance plates and the light groove base plates is flush with the wave crests of color steel tiles, and then light photovoltaic modules are laid on the roof. Light endurance plates capable of being cut into different shapes are laid in irregular roof areas such as roof corners and shadow shielding, the purpose of 100% full laying of the roof is achieved, a second layer of light building integrated photovoltaics (BIPV) waterproof system is formed, and the second layer of light building integrated photovoltaics waterproof system is characterized in that the endurance plates are laid at non-light photovoltaic module connection positions between color steel tile wave crests; the light groove base plate is laid between the wave crests of the color steel tile and at the joint between the two light photovoltaic modules, the water leakage detection rope is laid in a groove of the light groove base plate, the edges of the light photovoltaic modules are lapped on the groove in the top of the light groove base plate, and waterproof structural adhesive is smeared to enable the light photovoltaic modules to form a waterproof physical barrier.
本发明公开了一种轻质光伏组件建筑一体化结构及施工方法,在既有建筑彩钢瓦屋顶的波峰与波峰之间设置耐力板和轻质凹槽垫板,其高度与彩钢瓦的波峰齐平,再将轻质光伏组件铺设在屋顶上面,屋顶边角、阴影遮挡等非规则屋顶区域铺设可切割不同形状的轻质耐力板,达成100%满铺屋顶的目的,形成第二层轻质BIPV光伏建筑一体化防水系统,包括耐力板铺设在彩钢瓦波峰与波峰之间非轻质光伏组件接驳处;轻质凹槽垫板铺设在彩钢瓦波峰与波峰之间且在两块轻质光伏组件之间的接缝处,轻质凹槽垫板的凹槽中铺设漏水检测绳,轻质光伏组件的边缘搭在轻质垫板顶部的凹槽上并涂抹防水结构胶使轻质光伏组件形成防水物理屏障。
Light photovoltaic module building integrated structure and construction method
The invention discloses a light photovoltaic module building integrated structure and a construction method, endurance plates and light groove base plates are arranged between wave crests of a color steel tile roof of an existing building, the height of the endurance plates and the light groove base plates is flush with the wave crests of color steel tiles, and then light photovoltaic modules are laid on the roof. Light endurance plates capable of being cut into different shapes are laid in irregular roof areas such as roof corners and shadow shielding, the purpose of 100% full laying of the roof is achieved, a second layer of light building integrated photovoltaics (BIPV) waterproof system is formed, and the second layer of light building integrated photovoltaics waterproof system is characterized in that the endurance plates are laid at non-light photovoltaic module connection positions between color steel tile wave crests; the light groove base plate is laid between the wave crests of the color steel tile and at the joint between the two light photovoltaic modules, the water leakage detection rope is laid in a groove of the light groove base plate, the edges of the light photovoltaic modules are lapped on the groove in the top of the light groove base plate, and waterproof structural adhesive is smeared to enable the light photovoltaic modules to form a waterproof physical barrier.
本发明公开了一种轻质光伏组件建筑一体化结构及施工方法,在既有建筑彩钢瓦屋顶的波峰与波峰之间设置耐力板和轻质凹槽垫板,其高度与彩钢瓦的波峰齐平,再将轻质光伏组件铺设在屋顶上面,屋顶边角、阴影遮挡等非规则屋顶区域铺设可切割不同形状的轻质耐力板,达成100%满铺屋顶的目的,形成第二层轻质BIPV光伏建筑一体化防水系统,包括耐力板铺设在彩钢瓦波峰与波峰之间非轻质光伏组件接驳处;轻质凹槽垫板铺设在彩钢瓦波峰与波峰之间且在两块轻质光伏组件之间的接缝处,轻质凹槽垫板的凹槽中铺设漏水检测绳,轻质光伏组件的边缘搭在轻质垫板顶部的凹槽上并涂抹防水结构胶使轻质光伏组件形成防水物理屏障。
Light photovoltaic module building integrated structure and construction method
一种轻质光伏组件建筑一体化结构及施工方法
LIU XIANHAI (author) / ZHOU WEILIANG (author) / ZHU WENJUAN (author) / ZHANG MINGLANG (author)
2023-03-14
Patent
Electronic Resource
Chinese
IPC:
E04D
ROOF COVERINGS
,
Dacheindeckungen
/
F21V
FUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF
,
Funktionsmerkmale oder Einzelheiten von Leuchten oder Beleuchtungssystemen
/
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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