A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
High-pile wharf tough anti-seismic system and mounting method thereof
The invention provides a high-piled wharf tough anti-seismic system and an installation method thereof.The system comprises a high-piled wharf body, a shore side pile shock insulation structure and a shore connecting shock absorption system, and the shore side pile shock insulation structure is installed above the high-piled wharf body and located on the shore side of the high-piled wharf; the shore connection damping system is installed between the long-piled wharf body and the shore connection. The rigidity of the wharf and the overall energy dissipation capacity of the structure can be improved, and then the recoverability of the wharf structure after an earthquake is improved; pile body shearing force of landside pile bodies of the wharf can be reduced, so that earthquake response and damage of the wharf are reduced, and the anti-seismic toughness of the wharf structure is improved; the repairing time and cost can be greatly reduced; cost is low, and rapid replacement and daily maintenance after an earthquake are facilitated.
本发明提供一种高桩码头韧性抗震系统及其安装方法,系统包括:高桩码头主体、岸侧桩隔震构造和接岸减震系统,所述岸侧桩隔震构造安装在高桩码头主体上方,位于高桩码头岸侧;所述接岸减震系统安装在高桩码头主体和接岸之间。本发明可提高码头刚度与结构整体耗能能力,进而提高码头结构在震后可恢复能力;可降低码头陆侧桩体桩身剪力,从而降低码头地震反应与破坏,提高码头结构抗震韧性;可大幅降低修复时间和成本;造价低廉,便于震后快速更换和日常维护。
High-pile wharf tough anti-seismic system and mounting method thereof
The invention provides a high-piled wharf tough anti-seismic system and an installation method thereof.The system comprises a high-piled wharf body, a shore side pile shock insulation structure and a shore connecting shock absorption system, and the shore side pile shock insulation structure is installed above the high-piled wharf body and located on the shore side of the high-piled wharf; the shore connection damping system is installed between the long-piled wharf body and the shore connection. The rigidity of the wharf and the overall energy dissipation capacity of the structure can be improved, and then the recoverability of the wharf structure after an earthquake is improved; pile body shearing force of landside pile bodies of the wharf can be reduced, so that earthquake response and damage of the wharf are reduced, and the anti-seismic toughness of the wharf structure is improved; the repairing time and cost can be greatly reduced; cost is low, and rapid replacement and daily maintenance after an earthquake are facilitated.
本发明提供一种高桩码头韧性抗震系统及其安装方法,系统包括:高桩码头主体、岸侧桩隔震构造和接岸减震系统,所述岸侧桩隔震构造安装在高桩码头主体上方,位于高桩码头岸侧;所述接岸减震系统安装在高桩码头主体和接岸之间。本发明可提高码头刚度与结构整体耗能能力,进而提高码头结构在震后可恢复能力;可降低码头陆侧桩体桩身剪力,从而降低码头地震反应与破坏,提高码头结构抗震韧性;可大幅降低修复时间和成本;造价低廉,便于震后快速更换和日常维护。
High-pile wharf tough anti-seismic system and mounting method thereof
一种高桩码头韧性抗震系统及其安装方法
CUI YAO (author) / WANG ZHUOXIN (author) / QU ZHENGYAN (author)
2024-06-04
Patent
Electronic Resource
Chinese
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