Chinese Journal of Underground Space and Engineering >

2024 , Vol. 20 >Issue 6: 2020 - 2033

DOI: https://doi.org/10.20174/j.JUSE.2024.06.28

Test Research of Ultra Deep Special-Shaped Diaphragm Wall with Rigid Joint of Row Inserted Mesh Reinforcement

  • Xia Huan ,
  • Zeng Xutao ,
  • Fu Jinlei ,
  • Zhu Juntao ,
  • Qu Cheng
Expand
  • 1. CCCC Second Harbour Engineering Co., Ltd., Wuhan 430014, P. R. China;
    2. The 4th Engineering Company, CCCC Second Harbor Engineering Co., Ltd., Wuhu, Anhui 241001, P. R. China;
    3. Key Laboratory of Construction Technology of Long Span Bridges, Transportation Industry, Wuhan 430014, P. R. China

Received date: 2024-03-04

  Online published: 2025-01-03

Fold

Abstract

Based on the field process test of the south anchorage foundation of Zhangjinggao Yangtze River Bridge, the key technology in the construction of ultra deep special-shaped grid joint diaphragm wall was innovated and verified. The results show that: The combined construction process of trench cutter and hydraulic grab can ensure the verticality of the ultrasonic irregular groove section and the stability of the groove wall by reasonable setting construction sequence, introducing virtual collision detection technology for slot segments based on composite detection methods and extended guide frame and strengthening mud performance control and other control measures, the verticality and stability of ultra deep special-shaped panel trench can be ensured. The inclinometer and three-dimensional hydraulic jack are used to adjust the posture of the rigid joint, and the guide device is used to assist the rigid joint to enter the trench, so that the precision can be measured and controlled during the installation of the rigid joint. Intelligent synchronous welding technology can effectively control welding deformation and optimize welding quality. The relative position relationship between rigid joints and reinforcement cages can be effectively controlled on the basis of matching fabrication of reinforcement cages, supplemented by verticality monitoring means. The special wall brushing device is used to clean up the sludge at the row inserted reinforcement, and the synchronous pouring platform is used to realize the synchronous pouring of each compartment of the rigid joint, which is conducive to the improvement of the pouring quality and the structural safety control of the joint. The concrete bypass channel can be blocked with anti flowing water tape, which can effectively prevent the concrete from polluting the rebar at the joint and ensure the strength and integrity of the diaphragm wall. Later excavation tests have verified that the construction control measures proposed in this article can effectively ensure the quality of the diaphragm wall and the bearing capacity of the joints.

Key words: transforming support into structure; composite diaphragm wall foundation; rigid joint; ultra deep special-shaped diaphragm wall; construction technique; bypass of the concrete

Cite this article

Xia Huan , Zeng Xutao , Fu Jinlei , Zhu Juntao , Qu Cheng . Test Research of Ultra Deep Special-Shaped Diaphragm Wall with Rigid Joint of Row Inserted Mesh Reinforcement[J]. Chinese Journal of Underground Space and Engineering, 2024 , 20(6) : 2020 -2033 . DOI: 10.20174/j.JUSE.2024.06.28

References

[1] 周建军,饶思礼,张有光,等.虎门大桥西锚碇大型混合基础的设计与施工[J].桥梁建设,1995(2):44-47.(Zhou Jianjun, Rao Sili, Zhang Youguang, et al. Design and construction of large mixed foundation for west anchorage of Humen Bridge[J].Bridge Construction, 1995(2):44-47. (in Chinese))
[2] 吴胜东,吉林,阮静.润扬大桥悬索桥北锚碇基础方案比选[J].桥梁建设,2003(2):44-46.(Wu Shengdong, Ji Lin, Ruan Jing. Comparison and selection of north anchorage foundation alternatives for Runyang bridge suspension spans[J]. Bridge Construction, 2003(2):44-46. (in Chinese))
[3] 徐国平,刘明虎,刘化图.阳逻长江大桥南锚碇圆形地下连续墙设计[J].公路,2004(10):11-14.(Xu Guoping, Liu Minghu, Liu Huatu. Design of circular diaphragm wall for south anchorage of Yangluo Yangtze River Bridge[J]. Highway, 2004(10):11-14.(in Chinese))
[4] 崔冰,贾立峰,李丹.南京长江第四大桥南锚碇地下连续墙支护结构设计[J].中国工程科学,2013,15(8):26-30.(Cui Bing, Jia Lifeng, Li Dan. The design of the south anchorage diaphragm wall for the Fourth Nanjing Yangtze River Bridge[J]. Strategic Study of CAE, 2013, 15(8):26-30. (in Chinese))
[5] 周沛栋,彭祥,杨光华,等.土岩组合地层圆形竖井结构设计方案优化分析[J].地下空间与工程学报,2022,18(增1):252-259,273.(Zhou Peidong, Peng Xiang, Yang Guanghua, et al. Analysis of optimum design scheme of circular shaft in soil and rock combination stratum[J]. Chinese Journal of Underground Space and Engineering, 2022,18(Supp.1):252-259,273. (in Chinese))
[6] 翁其平,王卫东,周建龙.超深圆形基坑逆作法“两墙合一”地下连续墙设计[J].建筑结构学报,2010,31(5):188-194. (Weng Qiping, Wang Weidong, Zhou Jianlong. Design of diaphragm wall of an ultra-deep cylindrical excavation constructed by top-down method[J]. Journal of Building Structures,2010,31(5):188-194. (in Chinese))
[7] 夏明锬.支护与主体结构一体化地连墙施工技术研究[J].铁道建筑技术,2021(7):101-105. (Xia Mingtan. Research on construction technology of integration of support and main structure for underground diaphragm wall[J]. Railway Construction Technology, 2021(7):101-105. (in Chinese))
[8] 沈健.地下连续墙工字形型钢接头的设计与分析[J].西北地震学报,2011,33(增1):316-320. (Shen Jian. Design and analysis of “I” formed steel joint of diaphragm wall[J]. Northwestern Seismological Journal, 2011,33(Supp.1):316-320. (in Chinese))
[9] 郑谦文,顾丽黎.华东电网调度中心大楼逆作法工艺地下连续墙关键施工技术[J].武汉大学学报(工学版),2013,46(增1):354-357. (Zheng Qianwen, Gu Lili. Research on key construction technologies of underground diaphragm in top-down construction process for East China Power Grid Dispatching Center Building[J]. Engineering Journal of Wuhan University, 2013,46(Supp.1):354-357. (in Chinese))
[10] 陈其志,徐良英,徐长节,等.“两墙合一”技术在深基坑围护优化设计中的应用[J].地下空间与工程学报,2015,11(增1):189-194.(Chen Qizhi, Xu Liangying, Xu Changjie, et al. Optimal design in deep excavation engineering adopting dual-purpose diaphragm walls retaining[J]. Chinese Journal of Underground Space and Engineering, 2015,11(Supp.1):189-194. (in Chinese))
[11] 黄栩,刘小荣,刘念武.分节预制地连墙结构基坑稳定与结构受力研究[J].地下空间与工程学报,2021,17(增1):491-497.(Huang Xu, Liu Xiaorong, Liu Nianwu. Research on the stability of excavation and structural behaviour for segmental Pre-cast diaphragm wall structure[J]. Chinese Journal of Underground Space and Engineering, 2021,17(Supp.1):491-497. (in Chinese))
[12] 周文青,英明鉴,巫虹.栓钉在刚性地下连续墙接头中的应用[J].建筑施工,2016,38(11):1506-1508,1511. (Zhou Wenqing, Ying Mingjian, Wu Hong. Application of stud to rigid underground diaphragm wall joint[J]. Building Construction,2016,38(11):1506-1508,1511. (in Chinese))
[13] 张思源,童立元,朱文骏,等.常州地铁车站基坑地下连续墙不同接头型式分析[J].岩土工程学报,2019,41(增2):240-243,248.(Zhang Siyuan, Tong Liyuan, Zhu Wenjun, et al. Different mechanical modes of diaphragm wall joints for foundation pit of subway station in Changzhou[J]. Chinese Journal of Geotechnical Engineering, 2019,41(Supp.2): 240-243,248. (in Chinese))
[14] 曹骥.地下连续墙接头形式研究与创新[J].地下工程与隧道,2013(4):36-41,60. (Cao Ji. Research and innovation of joint type of diaphragm wall[J]. Underground Engineering and Tunnels, 2013(4):36-41,60. (in Chinese))
[15] 李武,勾国勇,陈廷国.框筒式码头结构拉板接头承载力试验研究[J].水运工程,2018(12):67-72,92. (Li Wu, Gou Guoyong, Chen Tingguo. Experimental study on bearing capacity of frame drum wharf structure's tension plate joint[J]. Port & Waterway Engineering, 2018(12):67-72,92. (in Chinese))
[16] 杨宝珠,丁克胜,邵强,等.基于ABAQUS的超深地下连续墙工字钢接头型式分析[J].地下空间与工程学报,2014,10(1):96-101. (Yang Baozhu, Ding Kesheng, Shao Qiang, et al. Analysis of H-steel Joint in Ex-deep diaphragm wall based on ABAQUS[J]. Chinese Journal of Underground Space and Engineering, 2014, 10(1): 96-101. (in Chinese))
[17] 何旭升,何玉华.圆砾地层地下连续墙成槽工法与施工接头技术[J].地下空间与工程学报,2013,9(增1):1701-1704,1712. (He Xusheng, He Yuhua. Trenching technology and construction joint technology of the diaphragm wall in the round gravel stratum[J]. Chinese Journal of Underground Space and Engineering, 2013,9(Supp.1):1701-1704,1712. (in Chinese))
[18] 刘波,唐碧波,李家洪,等.武汉绿地中心临江基坑超深地下连续墙施工技术[J].施工技术,2016,45(10):10-13. (Liu Bo, Tang Bibo, Li Jiahong, et al. Construction technology of super-deep diaphragm wall in Wuhan Greenland center riverside foundation[J]. Construction Technology, 2016,45(10):10-13. (in Chinese))
[19] 陈若强.悬索桥锚碇基础地下连续墙施工工艺及质量控制措施[J].水运工程,2011,452(4):159-165. (Chen Ruoqiang. Technology and quality control measures of diaphragm wall of suspension bridge anchorage foundation[J]. Port & Waterway Engineering, 2011,452(4):159-165. (in Chinese))
[20] 赵明时.超深异型地连墙施工关键技术研究[J].现代隧道技术,2016,53(2):207-212.(Zhao Mingshi. Research on key construction technology of super deep special-shaped diaphragm wall[J]. Modern Tunnelling Technology,2016,53(2):207-212. (in Chinese))
[21] 金晓飞,骆明红,梁书亭,等.“Ⅱ”型接头地连墙的施工方法及应用研究[J].建筑科学,2015,31(9):98-103. (Jin Xiaofei, Luo Minghong, Liang Shuting, et al. Construction method and application research of “Ⅱ” type joint diaphragm walls[J]. Building Science, 2015,31(9):98-103. (in Chinese))
[22] 王飞,王凡,屈天葵.地连墙H型钢接头混凝土绕流预防及处理技术[J].现代隧道技术,2021,58(增2):192-196. (Wang Fei, Wang Fan, Qu Tiankui. Prevention and treatment technology of H steel joint concrete around the ground wall[J]. Modern Tunnelling Technology, 2021,58(Supp.2):192-196. (in Chinese))
[23] 伍军,邓稀肥.超深基坑地连墙十字钢板接头变形控制方法[J].现代隧道技术,2021,58(2):204-207,237. (Wu Jun, Deng Xifei. Deformation control method of cross-steel joint of the diaphragm wall in super deep foundation pit[J]. Modern Tunnelling Technology, 2021,58(2):204-207,237. (in Chinese))
[24] 覃晖,王峥峥,耿铁锁,等.地下连续墙接头病害的跨孔雷达检测方法[J].地下空间与工程学报,2021,17(6):1935-1943. (Qin Hui, Wang Zhengzheng, Geng Tiesuo, et al. Detection of diaphragm wall joint defects using crosshole GPR[J]. Chinese Journal of Underground Space and Engineering, 2021,17(6):1935-1943. (in Chinese))
Options
Outlines

/

Copyright © Chinese Journal of Underground Space and Engineering, All Rights Reserved.
Tel: 023-65120728 
E-mail: dxkjbjb@126.com
Powered by Beijing Magtech Co. Ltd.