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Flexible support structure suitable for mountainous large-gradient terrain and construction method of flexible support structure
The flexible support structure comprises end beam supports and side anchor piles, the end beam supports are provided with supporting columns, the upper portions and the lower portions of the supporting columns are connected with end beams and the supporting piles respectively, the end beams are provided with connecting plates, the connecting plates of the end beam supports on the two sides are jointly connected with a bearing cable, and the bearing cable is connected with the side anchor piles. Photovoltaic modules are mounted on the adjacent load-bearing cables; stay cables are connected to the connecting plates in the same extension direction of the bearing cables, and the ends, away from the bearing cables, of the stay cables are connected to the side anchor piles. The supporting columns of the end beam support are vertically installed on the angular bisectors of the load-bearing cables and the stay cables, so that the tension on the load-bearing cables and the stay cables can be self-balanced to the maximum degree, the horizontal force borne by the end supports and the supporting columns is greatly reduced, the requirement for supporting piles is lowered, and the service life of the end supports and the stay cables is prolonged. And the bearing capacity of the flexible bracket structure is improved.
本发明提供了一种适用于山地大坡度地形的柔性支架结构,包括端梁支架和边锚桩,所述端梁支架上设置有支撑柱,所述支撑柱的上、下方分别连接端梁和支撑桩,所述端梁上设有连接板,两侧所述端梁支架的连接板上共同连接承重索,相邻榀所述承重索上安装有光伏组件;所述连接板上沿承重索同向延展方向连接斜拉索,所述斜拉索的远离承重索的一端连接在边锚桩上。本发明通过将端梁支架的支撑柱竖立安装在承重索和斜拉索的角平分线上,使得承重索和斜拉索上的拉力可以达到最大程度的自平衡,从而大大降低端撑及支撑柱所承受的水平力,降低了对支撑桩的要求,增大了柔性支架结构的承重能力。
Flexible support structure suitable for mountainous large-gradient terrain and construction method of flexible support structure
The flexible support structure comprises end beam supports and side anchor piles, the end beam supports are provided with supporting columns, the upper portions and the lower portions of the supporting columns are connected with end beams and the supporting piles respectively, the end beams are provided with connecting plates, the connecting plates of the end beam supports on the two sides are jointly connected with a bearing cable, and the bearing cable is connected with the side anchor piles. Photovoltaic modules are mounted on the adjacent load-bearing cables; stay cables are connected to the connecting plates in the same extension direction of the bearing cables, and the ends, away from the bearing cables, of the stay cables are connected to the side anchor piles. The supporting columns of the end beam support are vertically installed on the angular bisectors of the load-bearing cables and the stay cables, so that the tension on the load-bearing cables and the stay cables can be self-balanced to the maximum degree, the horizontal force borne by the end supports and the supporting columns is greatly reduced, the requirement for supporting piles is lowered, and the service life of the end supports and the stay cables is prolonged. And the bearing capacity of the flexible bracket structure is improved.
本发明提供了一种适用于山地大坡度地形的柔性支架结构,包括端梁支架和边锚桩,所述端梁支架上设置有支撑柱,所述支撑柱的上、下方分别连接端梁和支撑桩,所述端梁上设有连接板,两侧所述端梁支架的连接板上共同连接承重索,相邻榀所述承重索上安装有光伏组件;所述连接板上沿承重索同向延展方向连接斜拉索,所述斜拉索的远离承重索的一端连接在边锚桩上。本发明通过将端梁支架的支撑柱竖立安装在承重索和斜拉索的角平分线上,使得承重索和斜拉索上的拉力可以达到最大程度的自平衡,从而大大降低端撑及支撑柱所承受的水平力,降低了对支撑桩的要求,增大了柔性支架结构的承重能力。
Flexible support structure suitable for mountainous large-gradient terrain and construction method of flexible support structure
一种适用于山地大坡度地形的柔性支架结构及其施工方法
ZHAO YUE (author) / SUN XINGJIAN (author) / SHI YONG (author) / SHI YUBIN (author) / JIA XIANLIN (author) / WANG KANGJIE (author) / GAO XIAOYU (author) / CHEN XIUHUAN (author) / LYU GUOER (author) / LOU WEI (author)
2024-07-12
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
/
E02D
FOUNDATIONS
,
Gründungen
/
F24S
Sonnenkollektoren
,
SOLAR HEAT COLLECTORS
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