近地表条件下平斜井巷道衬砌结构研究

doi:10.11799/ce202105022

摘要/Abstract

摘要： 由于巷道围岩力学性质不佳、初期支护所采用的衬砌截面较薄等因素，处于不良地质条件下的巷道在二次支护之前经常会产生变形，既影响施工进度，又危及施工人员安全。基于上述问题将近地表条件下巷道初期支护衬砌结构简化为两铰拱，利用结构力学原理推导了拱脚为活动铰半圆拱拱圈弯矩及轴力计算公式。以新疆伊犁煤矿一号矿井回风井为工程背景，采用FLAC3D软件对伊犁煤矿巷道开挖后的初期支护进行数值模拟。结果表明衬砌厚度、围岩级别对衬砌半圆拱内力分布有很大影响：当衬砌厚度及围岩强度级别都减少时，半圆拱拱脚处弯矩及轴力呈同步下降的趋势|半圆拱弯矩最大值在衬砌拱脚厚度为拱顶厚度1～1.5倍之间波动最为剧烈，在衬砌拱脚厚度进一步增长后趋于平稳。当衬砌厚度不足、围岩强度水平较低时，围岩弹性抗力对半圆拱拱脚轴力影响更大，表明活动铰计算方法更适合此种力学环境下的内力计算。

关键词: 巷道支护, 衬砌结构, 近地表, 围岩控制

Abstract: Due to the poor mechanical properties of the surrounding rock of the roadway and the thinner section of the lining used in the initial support, the roadway under adverse geological conditions often deforms before the secondary support, which slows down the construction progress and affects the construction personnel. Personal safety. Based on the above problems, this paper simplified the initial support lining structure of the roadway under near surface conditions to a two-hinged arch. Using the principles of structural mechanics, the bending moment and axial force calculation formulas of the semicircular arch arch ring with the arch toe as the living hinge were derived. At the same time, with the air return shaft of No. 1 mine in Xinjiang Yili Coal Mine as the engineering background, Flac3D software is used to numerically simulate the initial support after the excavation of the roadway in Yili Coal Mine. The results show that the lining thickness and surrounding rock level have a great influence on the internal force distribution of the lining semicircular arch: when the lining thickness and surrounding rock strength level decrease, the bending moment and axial force at the semicircular arch foot will decrease simultaneously; semicircular arch bending The maximum value of the moment fluctuates most sharply when the thickness of the arch toe of the lining is 1-1.5 times the thickness of the vault, and it stabilizes after the thickness of the arch of the lining increases further. When the thickness of the lining is insufficient and the strength of the surrounding rock is low, the elastic resistance of the surrounding rock has a greater impact on the axial force of the semicircular arch arch foot. Research shows that the living hinge calculation method is more suitable for the internal force calculation under this mechanical environment.

中图分类号:

TU923

彭岩岩, 樊啸, 邓浩翔, 陶志刚, 张晓云. 近地表条件下平斜井巷道衬砌结构研究[J]. 煤炭工程, 2021, 53(5): 114-120.

参考文献 52

[1]	冯伟, 韩立军, 张帆舸, 任光住.巷道变形及衬砌受力的影响因素敏感性分析[J].中国矿业, 2013, 22(08):90-93
[2]	Feng Wei, Han Lijun, Zhang Fanke, Ren Guangzhu, et, al.The sensivity analysis of influence factors on roadway deformation and lining force [J] China Mining Magazine, 2013, 22(08):90-93.[J].China Mining Magazine, 2013, 22(08):90-93
[3]	蔡晓鸿, 蔡勇斌, 蔡勇平, 康怀鹏.考虑中间主应力影响的压力隧洞围岩抗力系数通用计算式[J].岩土工程学报, 2007(07):1004-1008.[J].岩土工程学报, 2007, 29(7):1004-1008
[4]	Cai Xiaohong, Cai Yongbin, Cai Yongping, Kang Huaipeng, et, al.Calculation of resistance coefficient of adjoining rock for pressure tunnels considering effect of intermediate principal stress [J] Chinese Journal of Geotechnical Engineering, 2007(07):1004-1008.[J].Chinese Journal of Geotechnical Engineering, 2007, 29(7):1004-1008
[5]	任明洋, 张强勇, 陈尚远, 尹相杰, 李帆, 向文, 余光远.复杂地质条件下大埋深隧洞衬砌与围岩协同作用物理模型试验研究[J].土木工程学报, 2019, 52(08):98-109
[6]	Ren Mingyang，Zhang Qiangyong, Chen Shangyuan, Yin Xiangjie, Li Fan, Xiang Wen, Yu Guangyuan, et, al.Physical model test study on synergistic action of lining-rock for deep tunnel under complex geological conditions[J]China Civil Engineering Journal, 2019, 52(08):98-109.[J].China Civil Engineering Journal, 2019, 52(08):98-109
[7]	李文江, 孙明磊, 朱永全, 朱正国, 李玉良.软弱围岩隧道台阶法施工中拱脚稳定性及其控制技术[J].岩石力学与工程学报, 2012, 31(S1):2729-2737
[8]	Li Wenjiang, Sun Minglei, Zhu Yongquan, Zhe Guozheng, Li Yuliang, et, al.Arch springing stability and its control techniques during construction of tunnels with weak surrounding rocks by bench cut method [J] Chinese Journal of Rock Mechanics and Engineering, 2012, 31(S1):2729-2737.[J].Chinese Journal of Rock Mechanics and Engineering, 2012, 31(S1):2729-2737
[9]	高玮.龙潭隧道围岩参数与地应力场联合反演[J].交通科学与工程, 2010, 26(04):11-16
[10]	Gao Wei, et, al.Back analysis of material patameters of underground rockmass and initial stress in Longtan Tunnel[J], Journal of Transport Science and Engineering, 2010, 26(04):11-16.[J].Journal of Transport Science and Engineering, 2010, 26(104):11-16
[11]	王薇, 张恒文, 赵东, 张学民.隧底溶洞对衬砌结构力学行为的影响[J].东北大学学报自然科学版, 2017, 38(09):1353-1357
[12]	Wang Wei, Zhang Hengwen, Zhao Dong, Zhang Xuemin, et, al.Influence of Karst Caver on Mechanical Behavior of Tunnel Lining Structure[J]，Journal of Northeastern University(Natural Science)，2017, 38(09):1353-1357.[J].Journal of Northeastern University(Natural Science), 2017, 38(09):1353-1357
[13]	张成平, 张旭, 冯岗, 张顶立.衬砌厚度不足对隧道结构安全性的影响分析[J].现代隧道技术, 2017, 54(02):137-143
[14]	Zhang Chengping, Zhang Xu, Feng Gang, Zhang Dingli, et, al.Small-scale model experiments fot fires in tunnels with roof openiings based on orthogonal design[J], Modern Tunnelling Technology, 2017, 54(02):137-143+169.[J].Beijing Jiaotong University, 2017, 54(02):137-143
[15]	孙玉永, 周顺华, 肖红菊, 王明芳.管棚法应用于软土地层的稳定性分析[J].岩石力学与工程学报, 2013, 32(S2):4199-4206
[16]	Sun Yuyong, Zhou Shunhua, Xiao Hongju, Wang Mingfang, et, al.Applicatin of pipe-roof method to stability analysis of soft ground[J], Chinese Journal of Rock Mechanics and Engineering, 2013, 32(S2):4199-4206.[J].Chinese Journal of Rock Mechanics and Engineering, 2013, 32(S2):4199-4206
[17]	冯岗.隧道衬砌厚度不足和背后空洞对衬砌结构安全性影响研究[D].北京交通大学, 2013.
[18]	Feng Gang, et, al.Study on the Influence of Inadequate Thickness of Tunnel Lining and Back Holes on the Safety of Lining Structure[D], Beijing Jiaotong University, 2013.
[19]	涂忠仁.公路隧道围岩抗力系数计算[J].地下空间与工程学报, 2006(03):369-372.[J].地下空间与工程学报, 2006, 2(3):369-372
[20]	Tu Zhongren, et, al.Determination of rock resistant conefficient in road tunnel[J], Chinese Journal of Underground Space and Engineering, 2006(03):369-372.[J].Chinese Journal of Underground Space and Engineering, 2006, 2(3):369-372
[21]	杜林林, 王秀英, 刘维宁.预筑拱控制软弱围岩变形机理的研究[J].现代隧道技术, 2014, 51(01):62-69
[22]	Du Linlin, Wang Xiuying, Liu Weining, et, al.On the mechanism of controlling deformation of weak surrounding rock with a Pre-arch[J], Modern Tunnelling Technology, 2014, 51(01):62-69.[J].Modern Tunnelling Technology, 2014, 51(01):62-69
[23]	杨凯, 吴顺川, 吴庆良, 宋伟超, 王强志.并行隧道顺序开挖围岩及衬砌承载行为分析[J].地下空间与工程学报, 2015, 11(S1):239-245
[24]	Yang Kai, Wu Shunchuan, Wu Liangqing, Song Weichao, Wang Zhiqiang, dt, al.Analysis on bearing behavior of surrounding rock and lining of parallel tunnels with sequential excavation[J], Chinese Journal of Underground Space and Engineering, 2015, 11(S1):239-245.[J].Chinese Journal of Underground Space and Engineering, 2015, 11(S1):239-245
[25]	王婷, 赵继, 魏盼.京张高铁八达岭长城站大跨深埋三连拱围岩压力计算方法研究[J].铁道标准设计, 2020, 64(01):57-62
[26]	Wang Ting, Zhao Ji, Wei Pan, et, al.Study on calculation method for surrounding rock pressure of large-span deep buried three-arch based on the badaling great wall station on Beijing-zhangjiakou high-speed railway[J], Railway Standard Design, 2020, 64(01):57-62.[J].Railway Standard Design, 2020, 64(01):57-62
[27]	丁文其, 郑康成, 金威.某深埋分岔隧道空间荷载结构计算方法[J].中国公路学报, 2016, 29(02):90-97
[28]	Ding Wenqi, Zheng Kangcheng, Jin Wei, et, al.Spatial load-structure calculation method for a deep forked tunnel[J], China Journal of Highway and Transport, 2020, 64(01):57-62.[J].China Journal of Highway and Transport, 2016, 29(02):90-97
[29]	李潇, 王宏志, 李世萍, 傅向荣, 蒋秀根.解析型弹性地基梁单元构造[J].工程力学, 2015, 32(03):66-72
[30]	Li Xiao, Wang Hongzhi, Li Shiping, Fu Xiangrong, Jiang Xiugen, et, al.Element for beam on winkler elastic foundation based on analysis trial functions[J], Engineering Mechanics, 2015, 32(03):66-72.[J].Engineering Mechanics, 2015, 32(03):66-72
[31]	马青, 赵均海, 魏雪英.基于统一强度理论的巷道围岩抗力系数研究[J].岩土力学, 2009, 30(11):3393-3398
[32]	Ma Qing, Zhao Junhai, Wei Xueying, et, al.Investigation of rock resistant coefficient in rocks around tunnel based on unified strength theory[J], Rock and Soil Mechanics, 2009, 30(11):3393-3398.[J].Rock and Soil Mechanics, 2009, 30(11):3393-3398
[33]	韩旭, 吴立, 李波, 宋万鹏.考虑蠕变效应的软岩特大断面隧道围岩抗力系数计算[J].科学技术与工程, 2014, 14(21):146-151
[34]	Han Xu, Wu Li, Li Bo, Song Wanpeng, et, al.Calculation of rock resistang coefficients in soft rock large cross section tunnel considering creep effect[J], Science Technology and Engineering, 2014, 14(21):146-151.[J].Science Technology and Engineering, 2014, 14(21):146-151
[35]	宋玉香, 刘勇, 齐键旭.铁路隧道复合衬砌内力计算方法研究[J].铁道工程学报, 2015, 32(08):73-75
[36]	Song Yuxiang, Liu Yong, Qi Jianxu, et, al.Reseatch on the calculation method of composite lining internal force for railway tunnel[J], Journal of Railway Engineering Society, 2015, 32(08):73-75+110.[J].Journal of Railway Engineering Society, 2015, 32(08):73-75
[37]	孙中辉.富水厚卵砾石层斜井井筒围岩稳定性研究[D]. 中国矿业大学（北京）, 2010.
[38]	Sun Zhonghui, et, al.Study on the stability of the surrounding rock of inclined shaft in thick gravel stratum with abundant water[D], China University of Mining & Technology, Beijing, 2010.
[39]	李林毅, 阳军生, 谢壮, 薛君, 郑静.基于~的隧道单层衬砌结构力学特征研究[J].公路交通科技, 2019, 36(10):74-82
[40]	Li Linyi, Yang Junsheng, Xie Zhuang, Xue Jun, Zheng Jin, et, al.Study on mechanical characterictics of tunnel single-layer lining structure based on Flac3D[J], Journal of Highway and Transportation Research and Development, 2019, 36(10):74-82.[J].Journal of Highway and Transportation Research and Development, 2019, 36(60):74-82
[41]	崔铁军, 马云东.基于的盾构隧道施工过程建模影响因素分析[J].中国安全生产科学技术, 2013, 9(10):15-20
[42]	Cui Tiejun, Ma Yundong, et, al.Analysis on influence of modeling for consturtion process of shield tunnel based on Flac3D[J], Journal of Safety Science and Technology, 2013, 9(10):15-20.
[43]	连拱墙衬砌计算方法探讨[J].铁路标准设计通讯, 1975(03):1-7+45.
[44]	Discussion on calculation method of double arch wall lining[J], Railway Standard Design, 1975(03):1-7+45.
[45]	李顺群, 郑刚.复杂条件下Winkler地基梁的解析解[J].岩土工程学报, 2008(06):873-879.
[46]	Li Shunqun, Zheng Gang, et, al.Analysis solution of beams on Winkler foundation under complex conditions[J], Chinese Journal of Geotechnical Engineering, 2008(06):873-879.
[47]	张茂础, 盛谦, 崔臻, 张传庆.围岩-衬砌接触面剪切力学性质及破坏机制的试验研究[J].岩石力学与工程学报, 2020, 39(03):550-559
[48]	Zhang Maochu, Sheng Qian, Cui Zhen, Zhang Chuanqing, et, al.Expermental study on shear properties and failure mechanisms of surrounding rock-lining contact surfaces[J], Chinese Journal of Rock Mechanics and Engineering, 2020, 39(03):550-559.[J].Chinese Journal of Rock Mechanics and Engineering, 2020, 39(03):550-559
[49]	罗贞焱, 史秀志, 代转, 丁春胜.级围岩小净距隧道二次衬砌支护荷载分担比优化研究[J].矿冶工程, 2020, 40(02):24-27
[50]	Luo Zhenyan, Shi Xiuzhi, Dai Zhuan, Ding Chunsheng, et, al.Optimization of load-shearing tatio of secondary liner support for small-clearance tunnel with Ⅴ-grade surrounding rock[J], Mining and Metallurgical Engineering, 2020, 40(02):24-27+32.[J].Mining and Metallurgical Engineering, 2020, 40(02):24-27
[51]	李为腾, 李术才, 玄超, 王琦, 王新, 邵行.高应力软岩巷道支护失效机制及控制研究[J].岩石力学与工程学报, 2015, 34(09):1836-1848
[52]	Li Weiteng, Li Shucai, Xuan Chao, Wang Qi, Wang Xin, Shao Xing, et, al.Mechanism and contial of failure of rock roadway support in highly stressed soft rock[J], Chinese Journal of Rock Mechanics and Engineering, 2015, 34(09):1836-1848.[J].Chinese Journal of Rock Mechanics and Engineering, 2015, 34(09):1836-1848

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