Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Variable-wall-thickness tower connecting structure of framing bridge and construction method of variable-wall-thickness tower connecting structure
The invention relates to a variable-wall-thickness tower connecting structure of a framing bridge and a construction method, the variable-wall-thickness tower connecting structure comprises a connecting cross beam, an inner side tower column, two outer side tower columns and a bearing platform foundation, the inner side tower column is connected to the middle of the connecting cross beam, and the connecting cross beam is divided into a left bridge area and a right bridge area; the two outer side tower columns are arranged on the left side and the right side of the inner side tower column respectively and connected with the ends of the connecting beams so that a framing bridge can be formed in a bridge area between the outer side tower columns and the inner side tower column. The bearing platform foundation is connected to the bottom of the inner side tower column and the bottom of the outer side tower column. The framing bridge has the advantages that the connecting cross beam is divided into the left bridge area and the right bridge area through the inner side tower columns, the outer side tower columns are arranged on the left sides and the right sides of the inner side tower columns respectively, the framing bridge is formed in the bridge areas between the outer side bridge towers and the inner side bridge towers, and the space for building the framing bridge is effectively saved.
本发明涉及一种分幅桥梁的变壁厚联塔结构及施工方法,包括连接横梁、内侧塔柱、两个外侧塔柱及承台基础,内侧塔柱连接于连接横梁中部,并将连接横梁分成左右两个桥梁区域;两个外侧塔柱分设于内侧塔柱的左右两侧,并与连接横梁的端部相连,以使位于外侧塔柱与内侧塔柱之间的桥梁区域形成分幅桥梁;承台基础连接于内侧塔柱及外侧塔柱的底部。本发明的有益效果在于:利用内侧塔柱将连接横梁分成左右两个桥梁区域,利用外侧塔柱分设于内侧塔柱左右两侧,使位于外侧桥塔与内侧桥塔之间的桥梁区域形成分幅桥梁,有效节省了建设分幅桥梁的空间。
Variable-wall-thickness tower connecting structure of framing bridge and construction method of variable-wall-thickness tower connecting structure
The invention relates to a variable-wall-thickness tower connecting structure of a framing bridge and a construction method, the variable-wall-thickness tower connecting structure comprises a connecting cross beam, an inner side tower column, two outer side tower columns and a bearing platform foundation, the inner side tower column is connected to the middle of the connecting cross beam, and the connecting cross beam is divided into a left bridge area and a right bridge area; the two outer side tower columns are arranged on the left side and the right side of the inner side tower column respectively and connected with the ends of the connecting beams so that a framing bridge can be formed in a bridge area between the outer side tower columns and the inner side tower column. The bearing platform foundation is connected to the bottom of the inner side tower column and the bottom of the outer side tower column. The framing bridge has the advantages that the connecting cross beam is divided into the left bridge area and the right bridge area through the inner side tower columns, the outer side tower columns are arranged on the left sides and the right sides of the inner side tower columns respectively, the framing bridge is formed in the bridge areas between the outer side bridge towers and the inner side bridge towers, and the space for building the framing bridge is effectively saved.
本发明涉及一种分幅桥梁的变壁厚联塔结构及施工方法,包括连接横梁、内侧塔柱、两个外侧塔柱及承台基础,内侧塔柱连接于连接横梁中部,并将连接横梁分成左右两个桥梁区域;两个外侧塔柱分设于内侧塔柱的左右两侧,并与连接横梁的端部相连,以使位于外侧塔柱与内侧塔柱之间的桥梁区域形成分幅桥梁;承台基础连接于内侧塔柱及外侧塔柱的底部。本发明的有益效果在于:利用内侧塔柱将连接横梁分成左右两个桥梁区域,利用外侧塔柱分设于内侧塔柱左右两侧,使位于外侧桥塔与内侧桥塔之间的桥梁区域形成分幅桥梁,有效节省了建设分幅桥梁的空间。
Variable-wall-thickness tower connecting structure of framing bridge and construction method of variable-wall-thickness tower connecting structure
一种分幅桥梁的变壁厚联塔结构及施工方法
LI LIN (Autor:in) / XU WEI (Autor:in) / HE WENTAO (Autor:in) / YANG GUANGWU (Autor:in) / GAO BAOFENG (Autor:in) / LI SHIWEN (Autor:in) / WANG FAN (Autor:in) / MAO XIANGDONG (Autor:in) / MEI SHUHUI (Autor:in) / ZHAO YUHANG (Autor:in)
26.03.2024
Patent
Elektronische Ressource
Chinesisch
IPC:
E01D
BRIDGES
,
Brücken
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