Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Modular photoelectric building material
The invention discloses a modular photoelectric building material. A photovoltaic module on the upper layer and a thermal insulation layer on the lower layer are assembled together through a certain structural form. Design requirements of structural stress, heat insulation, cold bridge effect of a component frame, ventilation and cooling of a photovoltaic component and the like are integrated in one BIPV module unit in a unified manner, and installation is simpler and more convenient. According to the modular photoelectric building material, heat generated when the photovoltaic module works is discharged through the height difference at the cavity opening of the ventilation cavity, and the temperature in the ventilation cavity is reduced; the member for connecting the upper photovoltaic module and the lower thermal insulation layer can effectively ensure the overall strength after the upper photovoltaic module and the lower thermal insulation layer are assembled together, and can provide the structural bearing capacity of the modular photoelectric building material between the roof purlins; meanwhile, wiring and wiring are more convenient and regular due to the wire passing holes in the components for connecting the upper-layer photovoltaic module and the lower-layer heat preservation layer; the heat insulation strips can greatly reduce heat transfer between the long frame of the customized frame of the upper layer photovoltaic module and the member connecting the upper layer photovoltaic module and the lower layer thermal insulation layer.
本发明公开了一种模块化光电建材,其上层的光伏组件和下层的保温层通过一定的结构形式装配在一起。将结构受力、保温隔热、组件边框的冷桥效应、光伏组件的通风降温等设计要求统一集成在一个BIPV模块单元中,并使安装更简便。这种模块化光电建材中通过其通风腔腔口处的高差将光伏组件工作时产生的热量排走,降低通风腔内的温度;其连接上层光伏组件与下层保温层的构件能有效保证上层光伏组件与下层保温层装配在一起后的整体强度,并能提供模块化光电建材在屋面檩条间的自身的结构承载力,同时连接上层光伏组件与下层保温层的构件上的过线孔使接线和布线更方便规整;其隔热条可大幅减少上层光伏组件的定制边框的长边框和连接上层光伏组件与下层保温层的构件之间的热传递。
Modular photoelectric building material
The invention discloses a modular photoelectric building material. A photovoltaic module on the upper layer and a thermal insulation layer on the lower layer are assembled together through a certain structural form. Design requirements of structural stress, heat insulation, cold bridge effect of a component frame, ventilation and cooling of a photovoltaic component and the like are integrated in one BIPV module unit in a unified manner, and installation is simpler and more convenient. According to the modular photoelectric building material, heat generated when the photovoltaic module works is discharged through the height difference at the cavity opening of the ventilation cavity, and the temperature in the ventilation cavity is reduced; the member for connecting the upper photovoltaic module and the lower thermal insulation layer can effectively ensure the overall strength after the upper photovoltaic module and the lower thermal insulation layer are assembled together, and can provide the structural bearing capacity of the modular photoelectric building material between the roof purlins; meanwhile, wiring and wiring are more convenient and regular due to the wire passing holes in the components for connecting the upper-layer photovoltaic module and the lower-layer heat preservation layer; the heat insulation strips can greatly reduce heat transfer between the long frame of the customized frame of the upper layer photovoltaic module and the member connecting the upper layer photovoltaic module and the lower layer thermal insulation layer.
本发明公开了一种模块化光电建材,其上层的光伏组件和下层的保温层通过一定的结构形式装配在一起。将结构受力、保温隔热、组件边框的冷桥效应、光伏组件的通风降温等设计要求统一集成在一个BIPV模块单元中,并使安装更简便。这种模块化光电建材中通过其通风腔腔口处的高差将光伏组件工作时产生的热量排走,降低通风腔内的温度;其连接上层光伏组件与下层保温层的构件能有效保证上层光伏组件与下层保温层装配在一起后的整体强度,并能提供模块化光电建材在屋面檩条间的自身的结构承载力,同时连接上层光伏组件与下层保温层的构件上的过线孔使接线和布线更方便规整;其隔热条可大幅减少上层光伏组件的定制边框的长边框和连接上层光伏组件与下层保温层的构件之间的热传递。
Modular photoelectric building material
一种模块化光电建材
SUN CHUNGENG (Autor:in) / HUANG YOUBO (Autor:in) / WANG SIPING (Autor:in)
17.02.2023
Patent
Elektronische Ressource
Chinesisch
IPC:
E04C
STRUCTURAL ELEMENTS
,
Bauelemente
/
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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