摘要
目前的注浆设备一般采用电驱动,在高瓦斯、易发火、空间狭小条件下使用具有安全隐患,在富水岩层中注浆效果差。通过对注浆浆液扩散情况进行分析,提出调压注浆工艺;在此基础上,根据风驱动特点,改变动力装置,优化打孔拌料注浆等工序,进行注浆设计;研制了风动注浆系统(排水、拌料、注浆、现场评估四个部分),并系统的介绍注浆系统的结构、功能及步骤,具有连续、便携、注浆稳定、注入浆液稳定等特性。以贵州省龙潭组地层中某软岩巷道围岩变形治理为工程背景,结果表明注浆效果良好,效率显著提高;研究成果对注浆工程的应用具有一定的指导作用。
The current grouting equipment generally is driven by electricity, and it has potential safety hazards in the conditions of high gas concentration, easily catching fire, and confined space leading to poor grouting effect in water-rich strata. Through the analysis of grouting fluid diffusion, the pressure regulating grouting process was proposed; On this basis, according to the characteristics of wind driven, the power device was changed, the drilling and mixing material grouting process was optimized to carry out grouting design; The pneumatic grouting system(draining, mixting materials, grouting and field evaluating) was developed, and the structure, function and procedures of the grouting system were illustrated systematically, characterized by continuity, portability, grouting stability and injecting slurry stability. The surrounding rock deformation treatment of a soft rock roadway in Longtan formation of Guizhou province was taken as the engineering background in this research. The results show that the grouting effect was good and the efficiency was improved obviously; and the research results have certain guiding effect on the application of grouting engineering.
引文
[1]王晓蕾,秦启荣,苏培东,等.破碎围岩注浆加固技术研究现状及发展趋势[J].科学技术与工程,2017,17(23):122-131.
[2]徐湛华.注浆技术在岩土工程施工中的应用研究[J].西部探矿工程,2018,30(1):25-26.
[3]郭永亮.新型注浆设备、材料及工艺在赵庄矿的应用[J].山东煤炭科技,2018,(1):125-127.
[4]温秀芬.煤矿矿井防治水技术研究[J].矿业装备,2017(4):60-61.
[5]QI H J,LIU F Y,YU J L.Performance analysis of a novel hybrid vapor injection cycle with subcooler and flash tank for air-source heat pumps[J].International Journal of Refrigeration,2017,74:538-547.
[6]王传永,汪佩,李向阳.新型注浆设备在地质防治水超前探施工中的应用[J].现代矿业,2015,31(12):243-244.
[7]康红普,冯志强.煤矿巷道围岩注浆加固技术的现状与发趋势[J].煤矿开采,2013,18(3):1-7.
[8]邓华锋,肖志勇,李建林.水岩作用下损伤砂岩强度劣化规律试验研究[J].岩石力学与工程学报,2015,34(S1):2 690-2 698.
[9]ZHAN P,MAN J,JIANG W,et al.Combined support technology of large section roadway in high-stress fractured surrounding rock[J].Procedia Engineering,2011,26:1 270-1 278.
[10]XU S Q,MA Q L,J WAN G L,et al.Grouting performance improvement for natural hydraulic limebased grout via incorporating silica fume and siliconacrylic latex[J].Construction and Building Materials,2018,186:327-338.
[11]张聪,梁经纬,张箭,等.基于脉动注浆的宾汉流体渗透扩散机制研究[J].岩土力学,2018,39(8):2 740-2 746.
[12]吴爱祥,于少峰,韩斌,等.超细水泥注浆溶液配比优化及扩散规律研究[J].采矿与安全工程学报,2014,31(2):304-309.
[13]杨志全,侯克鹏,程涌.幂律型流体的柱-半球形渗透注浆机制研究[J].岩石力学与工程学报,2014,33(S2):3 840-3 846.
[14]阮文军.基于浆液粘度时变性的岩体裂隙注浆扩散模型[J].岩石力学与工程学报,2005,24(15):2 709-2 714.
[15]张健,浩清勇.围岩松动圈理论在巷道锚杆支护中的应用[J].煤炭技术,2002(6):82-84.
[16]仲启方,阎震彪,管歆.巷道围岩注浆加固技术[J].煤炭技术,2015,34(1):80-83.
[17]陈青峰.锦瑞煤矿巷道围岩分类与锚网索支护技术应用[J].煤炭工程,2016,48(12):46-49.