A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Building integrated photovoltaic system
The invention discloses a building integrated photovoltaic system, and relates to the field of photovoltaic systems, the building integrated photovoltaic system comprises a plurality of double-glass assemblies arranged on a building roof in an array mode, each double-glass assembly comprises at least one string of photovoltaic cells, the two ends of each double-glass assembly in the length direction are rotationally connected to a roof support, and angle adjusting mechanisms are arranged at the connecting positions; the roof supports at the two ends of the double-glass assemblies are obliquely arranged, and a ventilation channel is formed between every two adjacent double-glass assemblies. When the inclination angle between each double-glass assembly and the roof support is minimum, the bottom edge of the previous double-glass assembly is in lap joint with the top edge of the next double-glass assembly, and the ventilation channel is closed. The inclination angle of each double-glass assembly is adjusted, the gap between every two adjacent double-glass assemblies is changed, and the ventilation channel is changed accordingly. According to the invention, a plurality of double-glass assemblies with adjustable angles are used as the roof, so that indoor lighting can be ensured, the indoor ventilation effect can be improved, and the photovoltaic heat dissipation effect of a building can be improved by utilizing the air duct, so that the working efficiency of a photovoltaic cell is improved.
本发明公开一种建筑一体化光伏系统,涉及光伏系统领域,包括若干阵列布设在建筑屋顶上的双玻组件,双玻组件包括至少一串光伏电池,各双玻组件长度方向的两端转动连接在屋顶支架上,并在连接位置设有角度调节机构,双玻组件两端的屋顶支架倾斜设置,相邻两双玻组件之间具有通风通道;当各双玻组件与屋顶支架的倾斜角度最小时,上一双玻组件的底部边缘搭接在下一双玻组件的顶部边缘,通风通道闭合;调节各双玻组件的倾斜角度,相邻两双玻组件之间的间隙发生变化,通风通道随之变化。本发明以多个角度可调的双玻组件作为屋顶,可以保证室内采光,可以提高室内通风效果,还可以利用通过风道提升建筑光伏的散热效果,从而提高光伏电池的工作效率。
Building integrated photovoltaic system
The invention discloses a building integrated photovoltaic system, and relates to the field of photovoltaic systems, the building integrated photovoltaic system comprises a plurality of double-glass assemblies arranged on a building roof in an array mode, each double-glass assembly comprises at least one string of photovoltaic cells, the two ends of each double-glass assembly in the length direction are rotationally connected to a roof support, and angle adjusting mechanisms are arranged at the connecting positions; the roof supports at the two ends of the double-glass assemblies are obliquely arranged, and a ventilation channel is formed between every two adjacent double-glass assemblies. When the inclination angle between each double-glass assembly and the roof support is minimum, the bottom edge of the previous double-glass assembly is in lap joint with the top edge of the next double-glass assembly, and the ventilation channel is closed. The inclination angle of each double-glass assembly is adjusted, the gap between every two adjacent double-glass assemblies is changed, and the ventilation channel is changed accordingly. According to the invention, a plurality of double-glass assemblies with adjustable angles are used as the roof, so that indoor lighting can be ensured, the indoor ventilation effect can be improved, and the photovoltaic heat dissipation effect of a building can be improved by utilizing the air duct, so that the working efficiency of a photovoltaic cell is improved.
本发明公开一种建筑一体化光伏系统,涉及光伏系统领域,包括若干阵列布设在建筑屋顶上的双玻组件,双玻组件包括至少一串光伏电池,各双玻组件长度方向的两端转动连接在屋顶支架上,并在连接位置设有角度调节机构,双玻组件两端的屋顶支架倾斜设置,相邻两双玻组件之间具有通风通道;当各双玻组件与屋顶支架的倾斜角度最小时,上一双玻组件的底部边缘搭接在下一双玻组件的顶部边缘,通风通道闭合;调节各双玻组件的倾斜角度,相邻两双玻组件之间的间隙发生变化,通风通道随之变化。本发明以多个角度可调的双玻组件作为屋顶,可以保证室内采光,可以提高室内通风效果,还可以利用通过风道提升建筑光伏的散热效果,从而提高光伏电池的工作效率。
Building integrated photovoltaic system
一种建筑一体化光伏系统
CHEN ZHIJUN (author) / SU CHUNYANG (author) / YUAN BEIHAI (author) / ZHANG KANGPING (author) / JIE LEI (author) / LIU WANGLI (author) / LI LINGZHI (author) / LI JIADONG (author) / XU XINGXING (author)
2024-11-08
Patent
Electronic Resource
Chinese
IPC:
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
/
E04B
Allgemeine Baukonstruktionen
,
GENERAL BUILDING CONSTRUCTIONS
/
E04D
ROOF COVERINGS
,
Dacheindeckungen
/
F24S
Sonnenkollektoren
,
SOLAR HEAT COLLECTORS
| European Patent Office | 2023