Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Shock absorption and energy consumption ALC wallboard structure and construction method thereof
The invention discloses a shock-absorbing and energy-consuming ALC wallboard structure and a construction method thereof.The structure comprises a spliced wall, the spliced wall comprises a plurality of ALC boards arranged below a structural beam of a steel frame structure, the ALC boards are arranged in the length direction of the structural beam, and filling spaces are formed between the ALC boards and frame columns at the two ends of the structural beam; the lower end of the ALC plate is fixedly arranged on a floor support plate below the structural beam; the supporting piece is installed at the upper end of the ALC plate, and a guide through groove is formed in the upper portion of the supporting piece; the friction plate is laid at the groove bottom of the guide through groove, the structural beam is arranged in the guide through groove in a sliding mode, and the friction plate is supported on the structural beam; the limiting column is installed on the supporting piece, a strip-shaped limiting hole is formed in the beam bottom of the structural beam, the limiting hole is formed in the length direction of the structural beam, and the limiting column is movably inserted into the limiting hole; and the elastic energy absorption layer is embedded in the filling space. The problem that an effective shock absorption and energy consumption system cannot be formed due to the fact that the ALC wall and the main structure are connected through a common connection method is solved.
本发明公开了一种减震耗能ALC墙板结构及其施工方法,该结构包括:拼接墙,包括设置于钢框架结构的结构梁的下方的多块ALC板,多块ALC板沿结构梁的长度方向设置,多块ALC板与结构梁的两端的框架柱之间形成有填充空间,ALC板的下端固设于结构梁的下方的楼承板;支承件,支承件安装于ALC板的上端,支承件的上部形成有导向通槽;磨擦板,铺设于导向通槽的槽底,结构梁滑设于导向通槽中,磨擦板支撑于结构梁;限位柱,安装于支承件,结构梁的梁底形成有条形的限位孔,限位孔沿结构梁的长度方向设置,限位柱可活动的插设于限位孔中;弹性吸能层,嵌设于填充空间中。本发明解决了ALC墙与主结构的连接采用普通连接做法存在不能形成有效的减震耗能体系的问题。
Shock absorption and energy consumption ALC wallboard structure and construction method thereof
The invention discloses a shock-absorbing and energy-consuming ALC wallboard structure and a construction method thereof.The structure comprises a spliced wall, the spliced wall comprises a plurality of ALC boards arranged below a structural beam of a steel frame structure, the ALC boards are arranged in the length direction of the structural beam, and filling spaces are formed between the ALC boards and frame columns at the two ends of the structural beam; the lower end of the ALC plate is fixedly arranged on a floor support plate below the structural beam; the supporting piece is installed at the upper end of the ALC plate, and a guide through groove is formed in the upper portion of the supporting piece; the friction plate is laid at the groove bottom of the guide through groove, the structural beam is arranged in the guide through groove in a sliding mode, and the friction plate is supported on the structural beam; the limiting column is installed on the supporting piece, a strip-shaped limiting hole is formed in the beam bottom of the structural beam, the limiting hole is formed in the length direction of the structural beam, and the limiting column is movably inserted into the limiting hole; and the elastic energy absorption layer is embedded in the filling space. The problem that an effective shock absorption and energy consumption system cannot be formed due to the fact that the ALC wall and the main structure are connected through a common connection method is solved.
本发明公开了一种减震耗能ALC墙板结构及其施工方法,该结构包括:拼接墙,包括设置于钢框架结构的结构梁的下方的多块ALC板,多块ALC板沿结构梁的长度方向设置,多块ALC板与结构梁的两端的框架柱之间形成有填充空间,ALC板的下端固设于结构梁的下方的楼承板;支承件,支承件安装于ALC板的上端,支承件的上部形成有导向通槽;磨擦板,铺设于导向通槽的槽底,结构梁滑设于导向通槽中,磨擦板支撑于结构梁;限位柱,安装于支承件,结构梁的梁底形成有条形的限位孔,限位孔沿结构梁的长度方向设置,限位柱可活动的插设于限位孔中;弹性吸能层,嵌设于填充空间中。本发明解决了ALC墙与主结构的连接采用普通连接做法存在不能形成有效的减震耗能体系的问题。
Shock absorption and energy consumption ALC wallboard structure and construction method thereof
减震耗能ALC墙板结构及其施工方法
WANG ZHANGPING (Autor:in) / LIU CAN (Autor:in) / ZHU JIAN (Autor:in) / JI JUN (Autor:in) / WANG JIANXIN (Autor:in) / WANG LEI (Autor:in)
28.02.2023
Patent
Elektronische Ressource
Chinesisch
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