发布时间 : 星期日 文章隧道工程大管棚施工工艺方案更新完毕开始阅读
隧道浅埋岩堆体
?108大管棚超前支护施工工艺
编制: 邵美华
审核: 张子菁
宝达二级公路一合同段项目经理部
二00九年十二月五日
目 录
1. 编制依据·································1 2. 工程概况·································2 2.1概述··································2 2.2大管棚变更情况························3 2.3大管棚超前支护方法····················4 3. 施工工艺·································7 3.1测量放样······························7 3.2钻孔··································9 3.3配管·································11 3.4送管·································12 3.5下钢筋笼·····························13 3.6管口封闭·····························13 3.7注浆·································13 3.8沉降观测·····························18 3.9事故预防和处理·······················18 3.10机具设备和劳力······················19 4.安全措施································20 5.结论····································21 6.相关知识点······························21 7.主要参考书目····························24
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1.前言
南京市宝剑至达川二级公路一 标段下南城隧道全长900m(K5+100~K6+000),但其进口处于破碎土岩堆地段长达182m,且最浅埋深仅2m,同时围岩含水量大,工程力学性质差,开挖后易坍塌,成洞困难。
为确保开挖稳定,进口段55 m,隧道拱部120°范围采用?108×8mm超前大管棚注浆支护辅助施工,共设两环,每环钢管总长度30m。
我公司施工类似大直径的长大管棚,并且达到两环以上(包括两环),这是第一次。其施工工艺和方法尚无成熟的经验可以借鉴,需要进行摸索和研究。因此有必要对?108大管棚超前支护的施工方法、适用机械、劳动组织等进行研究和总结,以便更好地加以推广和应用。
将?108大管棚超前支护的施工工艺,形成一整套操作性强、系统完整、详实准确、技术含量高、有推广价值的成果。对于提高工程的科技含量,增强技术创新能力,全面贯彻“科技是第一生产力”,推动公司的科技进步和“科技兴企”战略的实施,都具有重大的意义。
2.工程概况 2.1概述
宝剑至达川二级公路一 标段下南城隧道位于宝剑县城南郊下南城,隧道穿越下南城山,进口里程K5+100,出口里
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程K6+000,全长900m,路线设计纵坡-3%、-0.094%。进口30.632m及出口段192.75m分别位于半径为120m及200m的曲线上,其余地段位于直线上。
进口K5+100段55m,为Ⅱ类围岩,隧道位于坡积碎石土层上,含水量大,埋深浅,工程力学性质差,围岩开挖后易坍塌,成洞困难。于隧道拱部120°范围采用超前大管棚注浆支护辅助施工(大管棚共布置两环),边墙及仰拱采用超前小导管注浆支护辅助施工。且设2榀/m拱、墙、仰拱格栅钢架加强支护。
隧道开挖最大尺寸为宽×高=13.24m×9.86m。隧道衬砌内净空宽度为9+2×1.0米。限界净宽:10.5m,限界净高: 5.0m。
2.2大管棚变更情况
原设计管棚里程段为K2+438~K2+488(50m),管棚长度60m,分两环布置。
变更一:管棚里程段由K2+438~K2+488(50m)变更为K2+433~K2+488(55m),形成两个方案:①按两环布置,管棚长度为65m(里程段+一个接头+超前量=55+5+5=65m);②按三环布置,管棚长度为70m(里程段+二个接头+超前量=55+5×2+5=70m)。考虑到按①施工,每环管棚长度都超过了30m,很难达到规范和质量要求。故采用②,每环长度分别定为24m、24m、22m。
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