Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Integrated modular photovoltaic roof
The invention discloses an integrated modular photovoltaic roof. The integrated modular photovoltaic roof comprises a double-glass assembly, a sealing assembly, integrated combined frames and a heat preservation layer, wherein the integrated combined frames are of a cuboid frame structure as a whole; the double-glass assembly is arranged at the top positions of the integrated combined frames; thesealing assembly is arranged between the double-glass assembly and the tops of the integrated combined frames; and the heat preservation layer is arranged at the bottom positions of the integrated combined frames. The integrated combined frames are made of aluminum alloy materials with the thickness being 2-3mm, and the overall weight is reduced under the condition that the overall strength and bearing capacity are guaranteed; the integrated combined frames can be connected with the four integrated combined frames in different directions through connecting fixing pieces, and the mounting procedures and steps of the BIPV roof are simplified; ventilation openings are formed in the scheme, and overall heat dissipation is guaranteed; and meanwhile, the heat preservation layer is arranged at the bottom of the roof, and therefore the roof integrally has the structural bearing capacity, the heat preservation and insulation capacity and a ventilation cavity with the height being 130-150mm.
本发明公开了一体型模块化光伏屋顶,包括双玻组件、密封组件、一体化组合框和保温层;所述一体化组合框整体为长方体框架结构,所述双玻组件设置在一体化组合框的顶部位置,所述密封组件设置在双玻组件和一体化组合框顶部之间,所述保温层设置在一体化组合框的底部位置;本发明一体化组件框采用2~3mm厚铝合金材料制作,在保证整体强度和承载力的情况下减轻整体重量,通过连接固定件可以与不同方向的4个一体化组合框进行连接,简化了BIPV屋面的安装程序和步骤,本方案中设置有有通风口,保证整体的散热,同时本屋顶底部设置有保温层,使本屋顶整体具有结构承载能力、保温隔热能力和高130~150mm的通风腔。
Integrated modular photovoltaic roof
The invention discloses an integrated modular photovoltaic roof. The integrated modular photovoltaic roof comprises a double-glass assembly, a sealing assembly, integrated combined frames and a heat preservation layer, wherein the integrated combined frames are of a cuboid frame structure as a whole; the double-glass assembly is arranged at the top positions of the integrated combined frames; thesealing assembly is arranged between the double-glass assembly and the tops of the integrated combined frames; and the heat preservation layer is arranged at the bottom positions of the integrated combined frames. The integrated combined frames are made of aluminum alloy materials with the thickness being 2-3mm, and the overall weight is reduced under the condition that the overall strength and bearing capacity are guaranteed; the integrated combined frames can be connected with the four integrated combined frames in different directions through connecting fixing pieces, and the mounting procedures and steps of the BIPV roof are simplified; ventilation openings are formed in the scheme, and overall heat dissipation is guaranteed; and meanwhile, the heat preservation layer is arranged at the bottom of the roof, and therefore the roof integrally has the structural bearing capacity, the heat preservation and insulation capacity and a ventilation cavity with the height being 130-150mm.
本发明公开了一体型模块化光伏屋顶,包括双玻组件、密封组件、一体化组合框和保温层;所述一体化组合框整体为长方体框架结构,所述双玻组件设置在一体化组合框的顶部位置,所述密封组件设置在双玻组件和一体化组合框顶部之间,所述保温层设置在一体化组合框的底部位置;本发明一体化组件框采用2~3mm厚铝合金材料制作,在保证整体强度和承载力的情况下减轻整体重量,通过连接固定件可以与不同方向的4个一体化组合框进行连接,简化了BIPV屋面的安装程序和步骤,本方案中设置有有通风口,保证整体的散热,同时本屋顶底部设置有保温层,使本屋顶整体具有结构承载能力、保温隔热能力和高130~150mm的通风腔。
Integrated modular photovoltaic roof
一体型模块化光伏屋顶
HUANG YOUBO (Autor:in) / SUN CHUNGENG (Autor:in) / WANG SIPING (Autor:in) / MU ZHIJUN (Autor:in) / QUAN QILIN (Autor:in)
05.06.2020
Patent
Elektronische Ressource
Chinesisch
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