[关键词]地下工程;深基坑;淤泥;支护桩;锚索;施工技术 [中图分类号]TU753[文献标识码】A[文章编号〕1002-8498(2015)13-0008-04
inDeepSiltLayer ChenKai',DingXiaochun²,HeYuanjin²,Chen Hanbin',Li Peilin',Gui Fang' (1.China Construction Third Engineering Bureau Co.,Ltd.,Guangzhou,Guangdong 510600,China; 2.Shenzhen ConstruetionQuality Supervision Center,Shenzhen,Guangdong518000,China) Abstract:Based on engineering practice,this paper studied and resolved the problems encountered in the actual construction of the deeplayer of silt from aspects of earth excavation,construction of retaining piles and anchor cable, summarized construction experience and proposed treatment measures. Basin excavation bined with island excavation were adopted in the construction which were the high-efficient way to solve the problems. Key words:underground;deep foundation excavation;silt;supporting piles;anchor cables;construction
越高,其相应的基坑工程也越来越深。
施工技术 2017年7月下 104 CONSTRUCTION TECHNOLOGY 第46卷第14期 D0I:10.7672/sgjs2017140104 超浅埋隧道短台阶临时仰拱法施工技术 邓洪亮,马丽斌,郭树祥,赵树杰 (北京工业大学建筑工程学院,北京100124) [摘要]黄董坡隧道以超浅埋方式下穿21公路.为保证施工安全,采用既有线路改移、中管棚支护及小导管超 前注浆预加固措施和短台阶临时仰拱法施工,提高了围岩的自稳能力,控制了隧道在施工过程中的沉降和收敛,保 证了隧道的施工安全.监测结果表明:拱顶下沉、水平收敛、地表沉降最大值分别为19.57 16.78 20.17mm 均在 规范规定的控制基准范围之内,隧道围岩处于稳定状态,施工过程隧道没有出现任何开裂和塌陷等现象,说明所采 用的施工技术措施合理可行,方案安全可靠. [关键词]地下工程;隧道;监控;测量;施工技术 [中图分类号]U455 [文献标识码]A [文章编号]1002-8498(2017)14-0104-04 Construction Technology of Short Step Temporary Invert Method for Ultra Shallow Burried Tunnel DENG Hongliang MA Libin GUO Shuxiang ZHAO Shujie (School of Architecture Engineering Beijing University of Technology Beijing 100124 China) Abstract:Huangdongpo tunnel goes through the S201 highway in an ultra shallow buried way.In order to ensure the safety of the construction the existing lines changed the middle pipe shed support and the small pipe pregrouting reinforeement measures and the short step temporary inverted arch method are used for construction.The stability of surrounding rock is improved the settlement and convergence of the tunnel in the construction process are controlled and the construction safety of the tunnel is ensured.The monitoring results show that the crown settlement and horizontal convergence the maximum surface subsidence were 19.57 16.78 20.17mm which are within the control range of reference standard the tunnel wall rock is stable and the construction process of the tunnel without any crack and collapse phenomen...
[关键词]钢结构;网架;提升;格构柱;整体稳定性;数值模拟 [中图分类号]TU311.41[文献标识码]A[文章编号]1002-8498(2013)02-0023-02 Overall Stability Analysis of the Latticed Column as Support of Lifting Han Miaobing',Wang Yuling',Zhang Xiaoyong',Chen Haizhou',Zhang Qilin² (1.China Construction Eighth Engineering Division Co.,Lad.,Shanghai 200120,China; 2.School of Civil Engineering,TongjiUniversity,Shanghai 200092,China) AbstractThe integrated numerical model for lifting frame and laticed column is established,which are the key pairt of the lifting system for the COMAC installed plant with 30 000m².The overall stability of the integrated system is analyzed. The simulation results show that the biggest stress of the latticed column is individual and has no influence on integrity.And through detailed simulation analysis,local strengthening with stiffening rib is applied on the parts with high stresses. Key wordssteel structures; space truss; lifting;laticed column; overall stability; simulation 中国商用飞机有限责任公司(Commercial Aircraft Corporation of ChinaLtd.,简称 COMAC)部 装厂房是COMAC总装制造中心的重要厂房之一, 也是最大的厂房。
施工技术 2012年2月上 64 CONSTRUCTIONtECHNOLOGY 第41卷第358期 超大跨度异形折叠提升式防火卷帘门安装技术 何纯涛,王岱,艾晓东 (中建三局第二建设工程有限责任公司,湖北武汉430074) [摘要]鉴于目前国内商业型建筑的美观要求及其结构的复杂性,大跨度、超大跨度、异形大厅、异形洞口的构造越 来越多,在后期消防工程防火卷帘的安装中,如何在保证其美观的条件下,完成复杂结构和特殊需求的安装成为一 项新的课题.以沈阳盛世长安商业广场工程为例,介绍一种新型折叠提升式防火卷帘的工艺原理及操作流程. [关键词]卷帘门;防火;安装;整体提升式 [中图分类号]TU758.13 [文献标识码]A [文章编号]1002-8498(2012)03-0064-02 Installation Technology on Fireproofing Rolling Shutter Door with Super-large Span and Special-shape Folded Improving Type He Chuntao Wang Dai Ai Xiaodong (No.2 Construction Engineering Co.Lad.China Construction Third Engineering Bureau Wuhan Hubei 430074 China) Abstract:In view of beautiful requirement and plex structure of domestic mercial building there have more and more large or super-large span structure and special-shape hall and special-shape hall.In the installation of fireproofing rolling shutter door how to plete installation of plex structure in the condition of beauty and special requirement is a new study task.Taking the Shenyang Shengshi Chang' an Square as a example the authors introduce construction principal and installation process of a new type of fireproofing rolling shutter door with folded improving type. Key words:rolling shutter door;fireproofing;installation;integrate hoisting type 1工程概况 沈阳盛世长安商业广场工程总建筑面积 顶柳 、一无机布帘固定架 定滑轮 270175m2 地下3层,地上5层,首层层高8m 标准 传动卷轴 无机防火卷帘布 层高5.3m 防火卷帘安装总面积为22860m2 根据 金属条 金属拉环 现场实际情况结合图纸和美观的要求,在大跨度扶 楼面 底托 梯和特殊形状区域的防火隔断采用折叠提升式防 日降下状态 火卷帘,其安装面积为2412.8m2. 丝 顶棚 无机布固定架 2工艺原理及特点 传动卷轴 定...
施工技术 2016年4月上 78 CONSTRUCTION TECHNOLOGY 第45卷第7期 D0I:10.7672/8js2016070078 超大超深基坑及边坡支护施工技术 于强 (山西省太原市建设工程交易中心,山西太原030001) [摘要]太原某工程项目占地面积大,现场条件复杂,且土质情况特殊,项目部针对此超大超深基坑及边坡情况,结 合永久性与临时性支护分区域、分情况进行了设计,合理组织,采取不同的支护方式,优化施工技术,在确保施工安 全的前提下,取得了良好的经济效益. [关键词]深基坑;边坡;支护;土方开挖;施工技术 [中图分类号]TU753 [文献标识码]A [文章编号]1002-8498(2016)07-0078-04 Construction Technology of Super Large and Deep Foundation Excavation and Slope Supporting Yu Qiang (Taiyuan Construction Engineering Trading Center Taiyuan Shanxi 030001 China) Abstract:Some project in Taiyuan covers large area which has plicated conditions and soil conditions.Based on the situation of the super deep foundation excavation and slope bining with the permanent and temporary area this paper carried on the design reasonable organization adopted different ways of supports and optimized construction technology.This methods can ensure the safety of construction and achieve good economic benefits. Key words:deep foundation excavation;slopes;supports;exeavation;construction 1工程概况 地地基土自上而下依次为:①杂填土成分主要以炉 太原市某棚户区改造安置用房项目位于太原 渣、煤屑、砖块、石块、水泥块等建筑垃圾和生活垃圾 市大东门街南侧,太行路西侧,红沟南街北侧,占地 为主,稍湿,结构松散,具高压缩性,土质不均.平面 面积34.4hm2.项目东高西底,北高南低,场地标高 分布不均匀,该层主要分布于场地东南部,由近期工 在824.500~862.000m 支护深度在5.20~ 程弃土堆填而成,自重固结未完成.①,素填土以 33.47m.本项目基坑分3个部分:①小区东侧与太 粉土和粉质黏土为主,含有云母、煤屑、氧化物、植物 行路绿化带临接部位的基坑,总长度约200m 深度 根等,夹有少量炉渣和砖屑,结构松散,稍湿,土质不 4.5~18.3m 其中3 6 9号楼及热力站与地库等部 均,具高压缩性.②湿陷性粉土稍湿,稍密状态,含 位为临时与永久性基坑相结合,楼座部位临时基坑 云母、煤屑、氧化物等;土质较纯,摇振反应中等,标准 挖深为6.7m 热力站及地库部位临时基坑挖深为 贯入试验实测锤击数介于4.0~11.0击,平均7.6 ...
2016年10月下 施工技术 第45卷第20期 CONSTRUCTION TECHNOLOGY 91 D0I:10.7672/5j52016200091 超大型地下连续墙钢筋笼吊装过程动态数值 模拟和现场试验研究* 王志华,魏林春,王善谣2,祝强,魏文晖2 (1.上海隧道工程有限公司,上海200232:2.武汉理工大学道路桥梁与结构工程 湖北省重点实验室,湖北武汉430070) [摘要]基于三维有限元数值模拟法,对超大型地下连续墙钢筋笼施工吊装过程进行动态数值模拟.以钢筋笼从 水平到竖直的起吊过程中0°,30°,60°3种工况建立能够模拟动态吊装过程的有限元模型,并进行现场试验.结合 数值模拟和现场试验结果分析了动力效应影响下的笼体受力规律,确定了吊装过程的最不利工况,并在此分析方 法基础上对钢筋笼吊装施工进行损伤分析和方案优化分析.研究结果表明:有限元数值模拟结果和现场试验结果 基本吻合,验证了理论分析的正确性;钢筋笼吊装过程中动力效应明显,30°时纵向、横向桁架钢筋出现最大应力, 应力分布整体表现为吊点位置附近应力较大,且动力效应非常明显,当该部位出现焊接损伤时,极易造成施工事 故,应予以重视;通过对吊装方案进行优化,可显著提高吊装施工的安全性和经济性. [关键词]地下连续墙;吊装;动力系数;应力;数值模拟 [中图分类号]TU476*.3 [文献标识码]A [文章编号]1002-8498(2016)20-0091-05 Study of Dynamic Numerical Simulation and Field Test on the Lifting Process of Ultra Large Scale Diaphragm Wall Wang Zhihua' Wei Linchun' Wang Shanyao2 Zhu Qiang' Wei Wenhui2 (1.Shanghai Tunnel Engineering Co.Lad.Shanghai 200232 China;2.Hubei Key Laboratory of Roadway Bridge and Structure Engineering Wuhan University of Technology Wuhan Hubei 430070 China) Abstract:Dynamic numerical simulation based on 3D FEM was conducted on the lifting process of the reinforcement cage of ultra large scale diaphragm wall.The degrees of0°,30°,60°from horizontal to vertical were chosen as the basic working conditions of the FEM to simulate the dynamic lifting process. With the influence of dynamic effect the stress distribution of the reinforce cage was studied through both numerical simulation and field test methods.The most unfavorable condition of lifting process was found damage...
施工技术 2016年8月上 104 CONSTRUCTION TECHNOLOGY 第45卷第15期 D0I:10.7672/8js2016150104 袋装砂土堆放形式对地基承载性能影响模型试验研究* 李伟,边宏亮,王成元,李帅 (沈阳建大学土木工程学院,辽宁沈阳110168) [摘委]随着地基处理拉术的不断发展,介了袋装砂土地基处理加团拉术,并目对其进行了室内试验.试验目的 是通过对砂袋不同摆放形式的加团效果,蹄定对地基加团的最优送择.试骆过程是通过设定双展展状摆放、三展 层状摆放、单拱摆放、双拱摆放等形式,在相同荷载规律加压的情况下,测定备自试验荷载与沉障的变化规律,进而 墓结地基的不均沉降.结果表明,在双拱形式摆救的情况下,其荷载与沉降规律、地基不均沉降,比较合手实 践工程的需要,是比较理的袋装砂土摆放形式. [美键词]地基:袋装砂土;承载力:试的;沉障 [中图分类号]TU753 [交献标识码]A [交章编号]1002-8498(2016)15-0104-05 Model Testing for Influence of Packed Sand Storage Form on Foundation Bearing Capacity Li Wei Bian Hongliang Wang Chengyuan Li Shuai School of Civil Engineering Shenyang Jianzhu Unirersity Shenyang Liaoning 110168 China) Abstract:With the rapid development of national economy and the progress of science and technology foundation reinforcement technology is also increasingly diversified.Under this background this paper puts forward the packed sand foundation reinforcement technology and does indoor and outdoor tests. The tests focused on the analysis of the different storage forms of packed sand under the condition of indoor simulation for example double-layer storage form three layer storage form single arch storage form double arch storage form and so on and the changing rule of the load and settlement under the same condition of load pressure was tested which summed up the foundation uneven settlement.The results show that under the double arch storage form the changing rule of load and settlement and the uneven settlement of the foundation...
[关键词】桥梁工程;安装工程;直螺纹套筒;连接;吊具制作;整体吊装;工效 [中图分类号]U443.22 [文献标识码]A [文章编号]1002-8498(2016)24-0068-03 Research onInstallationTechnology ofSteelBars inThin-walledPier LiXiangjun,Li Chuanpeng,Wang Libo,Zhang Siming,Shan Chenggong (China Construetion Sixth Engineering Division Bridge Co.,Lad.,Chongqing 402260,China) Abstract:Combined with the thin-wall pier steel bars installation project of the expressway bridge from HegangtoDalian,onthebasisof analyzing thedisadvantagesof theconventional constructionmethoda new steel installation joint technique of self-made sling with parallel thread sleeve has been proposed.An detailed introduction of principles and the hoisting technology is done.Practice has proved that this technology can solve the troubles occurred in conventional construction such as time-consuming,high labor requirement,potential safety hazard and so forth which boasts advantages of simple operation, convenient onstutionafprojtandhigherquality,highlybenefitingbothteocityandonmy. Key words:bridges;installation;straight thread sleeve;connections;spreader making;integral hoisting;efficiency 1工程概况 K289+550大桥位于鹤岗至大连高速公路靖宇 OZ. 至通化段ZT13标段内,桥位处地形地貌类型为山 地,地势较为起伏;桥梁全长367m,大桥桥跨布置为 12x30m,交角为60°,全桥共4联,上部结构采用 392.6 nz[1]12 1248.8 30m跨径预应力混凝土简支连续箱梁;下部结构分 别采用柱式或薄壁墩、肋式台;基础均为桩基础。
②③ 203.5 203.5 本桥6~9号墩身采用薄壁墩结构形式,结构尺 b 1I 寸为2.2m×4.0m,墩身最高34.399m。
施工技术 2012年11月上 78 CONSTRUCTION TECHNOLOGY 第41卷第376期 荡口古镇古建筑修复技术 李凯文,纪敏2 (1.无锡城市职业技术学院,江苏无锡214153;2.无锡汽车工程学校,江苏无锡214153) [摘要]为恢复特色的荡口古镇风貌,对荡口古镇古建筑进行修缮修复.老建筑的保护修缮是在全面勘察测绘和 广泛征购旧石材、旧砖材、旧木材的基础上修旧如旧.结合本次修缮修复古建筑工程实践,介绍了古民居建筑修缮 修复的原则和方法,对古民居建筑常见结构部分做了归纳总结,其中包括屋顶部分的大木构架、桁条、橡子修缮做 法;柱子根据不同情况下的一些加固修复措施;墙体的检查、鉴定、修缮. [关键词]加固;古建筑;修缮;修复;施工技术 [中图分类号]TU746.3 [文献标识码]A [文章编号]1002-8498(2012)21-0078-04 Renovation of Ancient Buildings in Dangkou.Ancient Town Li Kaiwen' Ji Min2 (1.Wuxi City College of Vocational Technology Wuxi Jiangsu 214153 China; 2.Wuxi Automotive Engineering School Wuxi Jiangsu 214153 China) Abstract:To renovate the ancient buildings of Dangkou ancient town is to restore its characteristic scene of the ancient town and to build a famous Wuxi characteristic culture recreation town of amorous feelings living in Yangtze River Delta.Based on prehensive survey mapping and widely procurement of old stone brick and timber the renovation of ancient buildings approaches to 'repair the old as the old'. According the engineering practice of this project the reparation principles and the methods of ancient dwellings were introduced.Some reparation methods of mon structures were concluded including large wooden frame stringer rafter of roof column in different situation.The methods about examination evaluation and reparation of wall were also mentioned. Key words:strengthening;ancient buildings;repair;restoration;construction 在城市发展过程中,现代化建筑大量出现,建 筑保护和城市发展革新之间的矛盾如何平衡是一 个很突出的问题.结合一些历史传承...
施工技术 2014年6月上 106 CONSTRUCTION TECHNOLOGY 第43卷第11期 D0I:10.7672/5j52014110106 粉砂地层深基坑支护结构变形安全监测与分析 刘波,黄佩格,黄冕,王凯强,江永华 (中国矿业大学(北京)力学与建筑工程学院,北京100083) [摘要]以廊坊市某桩锚支护基坑工程为背景,采用FLAC-3D计算软件进行三维模型计算,分析了基坑开挖对周围 环境的影响范围,得到了桩错支护基坑的围护桩水平位移在不同开挖阶段随深度的变化规律.结果表明:土方开 挖对基坑周围土体的影响范围约为3倍的开挖深度;开挖过程中,桩体水平位移在铺索作用位置明显收敛,最大位 移位置基本处于桩体中部;围护桩水平位移在各开挖阶段与深度变化规律相似.桩体水平位移的数值计算结果和 实测结果相吻合. [关键词]深基坑;支护;数值分析:位移;变形;监测 [中图分类号]TU753 [文献标识码]A [文章编号]1002-8498(2014)11-0106-06 Safety Monitoring and Analysis on Deformation of the Support Structure for Deep Foundation Excavation in Silt Stratum Liu Bo Huang Peige Huang Mian Wang Kaiqiang Jiang Yonghua (School of Mechanics Ciuil Engineering China Unirersity of Mining Technology Beijing 100083 China) Abstract:Based on an anchored pile support foundation excavation in Langfang City a FLAC-3D model is established for numerical analysis.The influence scope of excavation on the surrounding circumstance is predicted the change law of lateral displacement of retaining piles in different excavation stages with depth is obtained.The results show that the influence scope of excavation on the surrounding soil is approximately triple of the depth of the foundation excavation.During excavation the lateral displacement is constrained obviously in the position of anchor the maximum displacement is found near mid-height of the pile.The lateral displacements of retaining piles during different exeavation stages show the similar rules.The simulated values of horizontal displacement of t...
[关键词】隧道工程;支护;加固;斜坡;监测;注浆 [中图分类号】U455.4[文献标识码]A[文章编号】1002-8498(2011)23-0057-04 Excavation Technology in Crossing Long and Large Shallow Covered Slope Liang Wei',Wang Fei²,Xue Xiaohui² (1. No.1 Engineering Co.,Ltd.of China Railway 1lth Bureau Group Co.,Lad.,Xiangfan,Hubei 441104,China; 2.Shaanxi Railway Institute,Weinan, Shaanxi 714000,China) Abstract:The entrance of Meiziao tunnel of Xiang-Gui railway passes through long and large unstable slope which is shallow covered and difficult to construct. Based on construction plan parison and security demonstration, spraying anchor net and grouting strengthening with steel tube are adopted to change soil structure and improve intensity and integrity of surrounding rock. CRD method and long pipe roof is used to reduce disturbance of surrounding rock. Key words:tunnels;supports;strengthening;slope;monitoring; grouting 1隧道进口段工程概况2施工方案论证 梅子坳隧道为客运专线隧道,位于湘桂铁路广2.1施工特点和难点 西壮族自治区桂林市境内,该段均为新修铁路段,1)隧道进口125m均为V级围岩,洞顶及洞身 且为桥隧相连段,该隧道全长5392m,线路小里程范围内多以松散角砾土为主。
2014年11月下 施工技术 第43卷第22期 CONSTRUCTION TECHNOLOGY 55 D0I:10.7672/sjs2014220055 福州海峡奥体中心体育场罩棚钢网架施工 关键技术 申屠辉宏,江磊,吴昌根,朱红兵,周焱平 (中建钢构有限公司,广东深圳518040) [摘要]福州海峡奥体中心体育场罩棚结构采用了新型的结构形式—空间三维弯扭桁架结构.对福州海峡奥体 中心体育场罩棚施工的关键技术进行了研究,主要内容包括三维弯扭桁架的安装、铸钢节点的空间定位、支撑转换 系统、卸载方法等.通过本文的研究分析将形成一套三维弯扭桁架结构体系的施工关键技术,钢结构体系适用于 体育场大跨度悬挑罩棚及其他公共建筑. [关键词]钢结构;体育场;空间弯扭桁架;铸钢节点;施工模拟 [中图分类号]TU758 [文献标识码]A [文章编号]1002-8498(2014)22-0055-03 Key Construction of the Steel Space Truss Awning of Fuzhou Olympic Sports Center Stadium Shentu Huihong Jiang Lei Wu Changgen Zhu Hongbing Zhou Yanping China Construction Steel Structure Co.Lid.Shenzhen Guangdong 518040 China) Abstract:The awning of Fuzhou Olympic Sports Center Stadium adopts a kind of new structure form of space bending-torsion steel truss structure.In this paper the key technology of prestressed construction of Fuzhou Olympic Sports Center Stadium roof is studied and the main content includes the installation of space bending-torsion truss spatial orientation of cast steel joints unloading method etc.Through the research and analysis it will form a set of structure system and construction key technology.This structure is suitable for large span awning and other public buildings. Key words:steel structures;stadiums;space bending-torsion truss;joints;simulation 1工程概况 福州海峡奥林匹克体育中心项目位于福州市 南台岛仓山组团中部.北临建新大道,南至规划凤 山路,东起福湾路,西至规划路.建筑占地面积 73.3hm2;其中主体育场占地面积61577m2 总建筑 面积119772m2;总座椅数约为60000座.属于特 级特大型体育建筑,其建筑效果如图1所示. 2结构体系 主体育场地上4层,混凝土看台最高点高度 图1福州海峡奥体中心体育场结构效果 30.78m 钢罩棚悬挑最大长度71....
施工技术 2015年2月上 20 CONSTRUCTION TECHNOLOGY 第44卷第3期 D0I:10.7672/sjs2015030020 福州海峡奥体中心体育场空间巨型劲性环梁施工技术 庹明贝,吴平春,郑立敏 (中建海峡建设发展有限公司,福建福州350014) [摘要]福州海峡奥林匹克体育中心体育场工程钢结构罩棚内环支座空间巨型劲性环梁属于超高超重超大截面劲 性钢筋混凝土组合结构.单节最大钢梁重达1t 钢梁对接焊拼装为高空作业,型钢外包钢筋直径大、量多,模板支 撑超高超重,混凝土下料空间狭小、振捣设备无法插入,质量难以保证,对此制订针对性施工方案,快速、精确地完 成了该空间巨型劲性环梁的施工. [关键词]体育场;型钢梁;劲性环梁;施工技术 [中图分类号]TU755 [文献标识码]A [文章编号]1002-8498(2015)03-0020-05 Construction Technology of Space Giant Stiffness Ring Beam in the Strait Olympic Sports Center Stadium of Fuzhou Tuo Mingbei Wu Pingchun Zheng Limin CSCEC Strait Construction and Development Co.Lad.Fuzhou Fujian 350014 China) Abstract:Space giant stiffness ring beam the steel canopy bearing inner ring for Fuzhou Strait Olympic Sports Center Stadium belongs to steel reinforced concrete posite structures which locates at ultra- high altitude overweight and has large section.It is difficult to guarantee the construction quality because the single largest steel beams weighing 10t steel beams butt welding aerial large quantities of large diameter steel outsourcing rebar overweight and ultra-high formwork supports and narrows concrete pouring space and vibrating equipment cannot be inserted.For above difficulties authors develop targeted construction program and pleted construction tasks of the space giant stiffness ring beam quickly and accurately. Key words:stadiums;section steel beam;stiffness ring beam;construetion 1工程概况 福州海峡奥林匹克体育中心体育场是第一届 铸钢件 全国青年运动会的主会场,其建筑占地面积 1000×1500 劲性环梁 63614m2 总建筑面积119...
[关键词]隧道工程;盾构;远程监控;集群管理;智能化识别 [中图分类号]U455[文献标识码]A[文章编号】1002-8498(2015)13-0105-04 TheDevelopmentandApplicationofTBMClusterRemote MonitoringandIntelligentDecisionSupportSystem Chen Wenyuan',Zhang Jihong',Wang Guoqing² (1.Track Traffc Engineering Co.,Lud.,of China Railway No.1 Engineering Group,Xi'an,Shaanxi 710054,China; 2.Key Laboratory ofRoad Construction Technology and Equipment,Ministry of Education,Chang'an University, Xi'an,Shaanxi 710064,China) Abstract:Two TBMs of Chengdu Subway Line 4 was taken as an example to develop the TBM cluster remote monitoring and inteligent decision support system.The clusterremote monitoring and management for the TBM were realized,three drawings and one table for the shield construction using visualization technology were showed,intellgent recognition technology was used to recognize the TBMwork modes based on the real time data of the TBM. The system framework was introduced firstly, the data acquisition, transfer, storage and processing system for real time data of TBM were expounded secondly, and then the development and main functions of the system were expounded,the application andupdate of the system were out looked in this paper at last. Key words:tunnels; shields;remote monitoring; cluster management; intelligent recognition 0引言控系统功能单一,主要集中在对盾构机运行参数 根据中国城市轨道交通协会统计,截止2013年的监控上,缺乏对数据的有效分析;对隧道曲线、地 2746km。
2015年7月上 施工技术 第44卷第13期 CONSTRUCTION TECHNOLOGY 87 D0l:10.7672/sgjs2015130087 盾构隧道最小覆土厚度计算方法适用性研究* 张银屏 (上海市城市建设设计研究总院,上海200125) [摘要]盾构隧道最小覆土厚度的计算方法中,地下水位、结构外径、同步注浆浆液重度、土体黏聚力和摩擦角、土 体重度等都是主要参数变量.以上海某地铁隧道为例,通过单变量分析,得出不同计算方法的敏感变量和非敏感 变量,为盾构隧道的设计施工提供一定的技术指导. [关键词]隧道工程;盾构;覆土厚度;计算 [中图分类号]U451 [文献标识码]A [文章编号]1002-8498(2015)13-0087-05 Applicability Study of Calculation Methods About the Minimum Thickness of Shield Tunnel's Covering Soil Zhang Yinping Shanghai Urban Construction Design Research Institute Shanghai 200125 China) Abstract:In the calculation methods of the minimum soil thickness of shield tunnel the groundwater level structure diameter synchronization grouting weight soil cohesion and friction angle soil weight were the main parameters variables.Taking a subway tunnel in Shanghai as an example through univariate analysis the author summarized sensitive and non-sensitive variables in different calculation methods.And sensitivity of variables could provide some technical guidance for the design and construction of shield tunnel. Key words:tunnels;shields;thickness of covering soil;calculation 0引言 角度对水下盾构隧道最小覆土厚度进行了探讨,得 近年来,盾构法在国内大中城市地下隧道工程 出水下最小覆土厚度解析解.戴小平等考虑了 中的应用越来越多.盾构法施工技术是隧道结构浮土体与周围土体之间的摩擦力,对水下最小覆土 在盾构壳体保护下拼装成型,通过千斤顶顶推并配 厚度解析解进行了改进.水下隧道是盾构法隧道 合刀盘切削土体来实现盾构掘进,通过同步注浆系穿越的一种特例,上述文献并未针对非水下常规段 统填充盾尾建筑空隙来稳定隧道衬砌的非开挖技盾构隧道最小覆土厚度进行系统总结.王新等 术.该项技术要求隧道有合理的覆土厚度,不仅避 对非水下常规段盾构隧道最小覆土厚度进行了解 免深覆土导致资金和工期增加,也避免浅覆土引起 析总结,得到了最小覆土厚度的确定方法,然而并 盾构壳体的大量背土和隧道结构的超限上浮.因 未对制约最小覆土厚度的掌子面平衡压力、地下水 此,确定盾构隧道最...
施工技术 2015年4月上 120 CONSTRUCTION TECHNOLOGY 第44卷第7期 D0I:10.7672/5j52015070120 盾构管片弧形钢板预埋件黏贴法施工工艺研究 海占权,李广华 (1.北京交通大学,北京100044;2.北京城建七建设工程有限公司,北京100029) [摘要]盾构管片弧形钢板预埋件是三维空间,不是简单的平面问题,保证其设计位置有一定难度.依据某输电工 程(电缆隧道)盾构管片生产线,提出采用双面胶粘贴法固定弧形钢板预埋件的方案,经过工程实际验证取得了良 好效果,一方面较好保证了预埋件安装质量,另一方面节约了人工和材料费用. [关键词]盾构;管片;电缆隧道;弧形钢板预埋件;粘贴法 [中图分类号]U25 [文献标识码]A[文章编号]1002-8498(2015)07-0120-02 Research on Paste Method's Construction Technology of Shield Segment Arc Steel Plate Embedded Parts Hai Zhanquan Li Guanghua (1.Beijing Jiaotong Unirersity Beijing 100044 China 2.Beijing Urban Construction Seven Construction Engineering Co.Ltd.Beijing 100029 China) Abstract:Arc plate embedded parts of shield segment lining is three dimensional space and it's not a simple plane problems.It's difficult to ensure the design position.According to the a power transmission project (cable tunnel)production line of shield segment lining double-sided adhesive paste method is presented in this paper to a fixed are plate scheme of embedded parts.Engineering practice shows that good effect was obtained the quality of the embedded parts installation was ensured and the labor and material cost has reduced. Key words:shields;segments;cable tunnel;arc steel plate embedded parts;paste method 1工程概况 预埋件B 北京市远大220kV输电工程(电缆隧道)第3标 预埋件A 段,起点为紫竹院路北侧沿正福寺路向南,终点与在 预埋件 建八昆、八蓝四回线路入地工程电缆隧道连接,盾构 隧道直径5.4m 长1048m.管片共861环,每环6片, 共计5166片,弧形钢板预埋件分为A C两种形式, 预埋件B为平面形式,弧形钢板预埋件管片共有1 722片.具体预埋件布置形式如图1所示,预埋件大 样如图2所示,预埋件规格如表1所示. 图1弧形钢板预埋件分布 表1预埋件规格 Fig.1 Arc ...
[关键词】隧道工程;盾构:有害气体;沼气:机械通风;安全措施 [中图分类号】TU447;U455.43[文戴标识码]A[文章编号】1002-8498(2012)13-0075-02 Safety Measuresfor ShieldsPassingSoftMuddySoil Strata ContainingHighPressure Methane Chen Huifang',Chen Guangfeng²,Cheng Qianyuan, Xia Shilong*, Li Lixia?, Hong Min°, Qiao Hongxia? (1.School of Mechanics & Civil Engineering,China Univerity of Mining and Technology,Xuzhou,Jiangsu 221116, Chins; 2.School of Earth and Space Seiences, Peking Unieersty,Beijing 100084, China; 3.School of Ciil Engineering,LanzhouUniversty ofTechnology,Lanzhou,Gan730050,China; 4.China Raiway &Airport Contruction Group Co.,Ld.,Bejing100070,China; 5.Beijing Branch of China Railway Construction Engineering Group, Beijing 100070, China; 6. Beijing Urban Consruetion & Zhongnan Group of Civil Engineering Co.,Ld.,Bejing 102209, China) Abstract:According to construction experience in Hangzhou Subway Line 1, the authors described the safety measures adopted for shield passing soft muddy soil strata containing high pressure methane. Harmful gases were discharged before the start of the construction. During the construction, mechanical ventilation system was installed and the level of harmful gases was monitored. These measures have successfully ensured the safety of the construction and eliminated the potential damage of methane. Key words:tunnels; shields; harmful gas; biogas; mechanical ventilation; safety measures 1工程概况0.4MPa,最大流量约23.6m/h。
2016年11月上 施工技术 第45卷第21期 CONSTRUCTION TECHNOLOGY 111 D0I:107672/5gj52016210111 盾构施工煤矿长距离斜井特殊不良地质段 处置技术与应用* 沙明元 (中国铁建股份有限公司,北京100855) [摘要]盾构法应用于长距离煤矿斜井建设是一个开创性的领域,具有安全、优质、快速、环保、综合费用低等突出 优势,代表着特大型现代化矿井建设技术的发展方向.针对煤矿斜井盾构法建设过程中面临的“深埋超长、连续下 坡、富水高压、地层多变”等工程特点及难点,开展盾构施工软岩变形地段综合处置技术、斜井富水地段防水和排水 处置技术、高水压地段泄水降压技术、有害气体处置技术、断层破碎带施工技术研究,并在神东补连塔煤矿进行关 键技术的应用,建成了我国首座采用盾构施工的长距离煤矿斜井. [关键词]隧道工程:煤矿:盾构;斜井;施工:应用 [中图分类号]U455 [文献标识码] [文章编号]1002-8498(2016)21-0111-05 Research and Application of the Disposal Technology for Shield Construction in Special and Poor Geological Conditions of Long Inclined Shaft in Colliery Sha Mingyuan China Railcay Construction Co.Ltd.Beijing 100855 China) Abstract:Shield method is a groundbreaking area for the construction of super-long inclined shafts in colliery.It has the advantages of safety high quality rapidity environmental protection and prehensive low cost and represents the development direction of modern large-scale mine construction technology.Aiming at the characteristics and difficulties in the shield construction process in colliery inclined shaft which are of deep buried and super-long continuous downhill rich water and high pressure and changeable stratum the prehensive disposal technology is carried out ineluding disposal technology of soft rock deformation waterproof and drainage in water-rich regions water pressure relief technology in high-pressure zones harmful gas disposal technology as well as fault fracture zone disposal technology.These key ...
【关键词]隧道工程;地下连续墙;深基坑;变形;盾构始发井 [中图分类号】TU753[文献标识码】A[文章编号]1002-8498(2013)23-0088-04 Measured Data Analysis of Diaphragm Wall in Deep Foundation ExcavationforShield-constructionOriginationWell Chen Ping,Fang Yingguang,Gu Renguo (School of Ciril Engineering and Transportation,South China University of Technology, Guangzhou,Guangdong 510641,China) Abstract:The diaphragm wall with inside supporting type is used for original wellof some cable tunnel in Guangzhou, and the geological conditions in the site are relatively plex, the excavation depth is more than 2lm. The results of the monitoring data show that bottom slab pouring can reduce the lateral deformation of retaining structure.There are two factors influencing the lateral deformation for the diaphragm wall,one is the inner support interval,the other is the foundation excavation depth, unreasonable layout of the inner support makes internal force distribution unequal. At the same time, the analysis of the abnormal data in the process of excavation is summed up,and safety precautions are adopted in time to ensure that the construction site and the surrounding environment are safe. Key words:tunnels; diaphragm walls; deep foundation excavation; deformation; shield-construction origination shaft 在21世纪,采用地下电缆隧道改造城区电网,析总结,特别是对异常数据的分析及安全预测,确 可以节省线路走廊和环境资源,是发展的必然趋保了施工现场和周围环境的安全。