Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Extra-high voltage converter station auxiliary control building structure in high intensity area
The invention provides an extra-high voltage converter station auxiliary control building structure in a high intensity area. The extra-high voltage converter station auxiliary control building structure comprises four first frame columns arranged at four corners of an area jointly defined by a staircase and an elevator room, and further comprises split shear walls arranged at the other three corners of an auxiliary control building, wherein the split shear walls are arranged in the staircase and the elevator room with the first frame columns as anchoring ends correspondingly, and a space structure is formed in the staircase and the elevator room through the split shear walls; and the split shear walls all penetrate from a roof to a foundation. Window holes are formed in the shear walls in the short span direction of the staircase, hidden beams are arranged on the upper sides and the lower sides of the holes, and hidden columns are arranged on the left sides and the right sides of the holes. According to the extra-high voltage converter station auxiliary control building structure, the structural rigidity and the lateral movement resistance are effectively improved, the structural interlayer displacement requirement under the earthquake working condition can be met, and the economic efficiency is good; and meanwhile, compared with a steel structure, the engineering investment can be greatly saved, and good fireproof and anti-corrosion performance is achieved.
本发明提出一种高烈度区的特高压换流站辅控楼结构,包括在楼梯间以及电梯间共同围成区域的四个角设置的四根第一框架柱,并以第一框架柱为锚固端分别在楼梯间和电梯间设置分片式剪力墙,通过分片式剪力墙在楼梯间和电梯间形成空间结构;还包括设置在辅控楼其它三个角的分片式剪力墙,所述的分片式剪力墙均从屋面贯通至基础上。在楼梯间短跨方向的剪力墙上开设窗户洞口,洞口上下两侧布置暗梁、左右两侧布置暗柱。本发明有效提高了结构刚度和抗侧移能力,能够满足地震工况下结构层间位移要求,且经济性较好;同时相对于钢结构,可大幅节省工程投资,且具有良好的防火和防腐蚀性能。
Extra-high voltage converter station auxiliary control building structure in high intensity area
The invention provides an extra-high voltage converter station auxiliary control building structure in a high intensity area. The extra-high voltage converter station auxiliary control building structure comprises four first frame columns arranged at four corners of an area jointly defined by a staircase and an elevator room, and further comprises split shear walls arranged at the other three corners of an auxiliary control building, wherein the split shear walls are arranged in the staircase and the elevator room with the first frame columns as anchoring ends correspondingly, and a space structure is formed in the staircase and the elevator room through the split shear walls; and the split shear walls all penetrate from a roof to a foundation. Window holes are formed in the shear walls in the short span direction of the staircase, hidden beams are arranged on the upper sides and the lower sides of the holes, and hidden columns are arranged on the left sides and the right sides of the holes. According to the extra-high voltage converter station auxiliary control building structure, the structural rigidity and the lateral movement resistance are effectively improved, the structural interlayer displacement requirement under the earthquake working condition can be met, and the economic efficiency is good; and meanwhile, compared with a steel structure, the engineering investment can be greatly saved, and good fireproof and anti-corrosion performance is achieved.
本发明提出一种高烈度区的特高压换流站辅控楼结构,包括在楼梯间以及电梯间共同围成区域的四个角设置的四根第一框架柱,并以第一框架柱为锚固端分别在楼梯间和电梯间设置分片式剪力墙,通过分片式剪力墙在楼梯间和电梯间形成空间结构;还包括设置在辅控楼其它三个角的分片式剪力墙,所述的分片式剪力墙均从屋面贯通至基础上。在楼梯间短跨方向的剪力墙上开设窗户洞口,洞口上下两侧布置暗梁、左右两侧布置暗柱。本发明有效提高了结构刚度和抗侧移能力,能够满足地震工况下结构层间位移要求,且经济性较好;同时相对于钢结构,可大幅节省工程投资,且具有良好的防火和防腐蚀性能。
Extra-high voltage converter station auxiliary control building structure in high intensity area
一种高烈度区的特高压换流站辅控楼结构
SHI SHANGMIAN (Autor:in) / SHI XUELEI (Autor:in) / CHANG WEI (Autor:in) / GU QUN (Autor:in) / YING JIE (Autor:in) / LI YU (Autor:in)
24.08.2021
Patent
Elektronische Ressource
Chinesisch
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