Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Concrete supporting structure locally adopting servo system and construction method
The invention relates to the technical field of foundation pit engineering construction, in particular to a concrete supporting structure locally adopting a servo system, the concrete supporting structure comprises an enclosure body, a force applying device and a concrete transverse supporting system, the concrete transverse supporting system comprises a ring beam, and the ring beam is used for being supported on the inner side wall of the enclosure body; the ring beam comprises inner beams, outer beams and beam bodies, the beam bodies are located at the two ends of each side edge of the enclosure body, the inner beams are located in the middles of the side edges of the enclosure body, the two ends of each inner beam are fixedly arranged with the two adjacent beam bodies, the outer beams are parallel to the inner beams, and the outer beams and the inner beams are the same in height. The outer beams are located on the sides, facing the inner walls of the corresponding enclosure bodies, of the inner beams, and the outer beams and the inner beams are arranged at intervals and used for containing the multiple forcing devices. The end of the outer beam is connected with the beam body through a sliding support, and the sliding direction of the sliding support is horizontal and perpendicular to the axis direction of the outer beam. The device has the effect of fully utilizing the forcing device installed on the edge of the transverse supporting system.
本申请涉及一种基坑工程施工的技术领域,尤其是涉及一种局部采用伺服系统的混凝土支撑结构,其包括围护体、加力装置和混凝土横向支撑体系,混凝土横向支撑体系包括圈梁,圈梁用于支撑在围护体的内侧壁;圈梁包括内梁、外梁和梁本体,梁本体处于围护体每个侧边的两端位置,内梁位于围护体侧边的中部位置,内梁的两端与相邻的两个梁本体固定设置,外梁平行与内梁设置,外梁与内梁高度相同,所述外梁位于内梁朝向于对应的围护体内壁一侧,外梁与内梁之间间隔设置并用于放置多个所述加力装置;外梁的端部与梁本体通过滑动支座连接,所述滑动支座的滑动方向水平且垂直于外梁的轴线方向。本申请具有充分利用横向支撑体系边缘安装的加力装置的效果。
Concrete supporting structure locally adopting servo system and construction method
The invention relates to the technical field of foundation pit engineering construction, in particular to a concrete supporting structure locally adopting a servo system, the concrete supporting structure comprises an enclosure body, a force applying device and a concrete transverse supporting system, the concrete transverse supporting system comprises a ring beam, and the ring beam is used for being supported on the inner side wall of the enclosure body; the ring beam comprises inner beams, outer beams and beam bodies, the beam bodies are located at the two ends of each side edge of the enclosure body, the inner beams are located in the middles of the side edges of the enclosure body, the two ends of each inner beam are fixedly arranged with the two adjacent beam bodies, the outer beams are parallel to the inner beams, and the outer beams and the inner beams are the same in height. The outer beams are located on the sides, facing the inner walls of the corresponding enclosure bodies, of the inner beams, and the outer beams and the inner beams are arranged at intervals and used for containing the multiple forcing devices. The end of the outer beam is connected with the beam body through a sliding support, and the sliding direction of the sliding support is horizontal and perpendicular to the axis direction of the outer beam. The device has the effect of fully utilizing the forcing device installed on the edge of the transverse supporting system.
本申请涉及一种基坑工程施工的技术领域,尤其是涉及一种局部采用伺服系统的混凝土支撑结构,其包括围护体、加力装置和混凝土横向支撑体系,混凝土横向支撑体系包括圈梁,圈梁用于支撑在围护体的内侧壁;圈梁包括内梁、外梁和梁本体,梁本体处于围护体每个侧边的两端位置,内梁位于围护体侧边的中部位置,内梁的两端与相邻的两个梁本体固定设置,外梁平行与内梁设置,外梁与内梁高度相同,所述外梁位于内梁朝向于对应的围护体内壁一侧,外梁与内梁之间间隔设置并用于放置多个所述加力装置;外梁的端部与梁本体通过滑动支座连接,所述滑动支座的滑动方向水平且垂直于外梁的轴线方向。本申请具有充分利用横向支撑体系边缘安装的加力装置的效果。
Concrete supporting structure locally adopting servo system and construction method
一种局部采用伺服系统的混凝土支撑结构及施工方法
XIA JIANKUN (Autor:in) / JIANG XIAOQIANG (Autor:in) / TENG YINGWEI (Autor:in) / LIN JI (Autor:in) / WU XIAOFENG (Autor:in) / ZHAO CHEN (Autor:in) / ZHAO PEI (Autor:in)
16.05.2023
Patent
Elektronische Ressource
Chinesisch
IPC:
E02D
FOUNDATIONS
,
Gründungen
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