岩巷掘进中深孔预裂松动爆破参数优化设计及应用
吴宪宇¹，刘一帆²
（1.山西焦煤化工有限责任公司，山西 吕梁 033300；2.太原理工大学矿业工程学院，山西 太原 030024）
摘要： 岩巷工作面遇到坚硬岩石时， 存在爆破效果差、截齿材料消耗严重和推进效率低等问题。针对庞庞塔煤矿一
采区9# 煤输送机上山工况， 提出岩巷掘进中深孔预裂松动爆破技术， 结合LS-DYNA 软件对爆破过程开展数值模拟分析，
并利用现场试验验证爆破参数设计的合理性。研究结果表明： 中深孔预裂松动爆破技术可以起到弱化岩石的作用， 预裂
松动效果良好， 且岩石仍保留一定的整体性； 孔间距为1.5 m 时孔间裂纹贯穿效果较好， 在爆炸应力波的叠加作用下，
孔间连心线测点的等效应力数值显著大于非孔间连心线测点。该技术的应用可减少70%的截齿消耗， 综合掘进速度提高
55%， 保证了工作面的安全高效生产， 减少了设备材料消耗， 研究成果可为类似工况提供参考借鉴。
关键词： 岩巷掘进； 坚硬岩石； 预裂松动； 爆破参数
中图分类号： TD235.33 文献标志码： A 文章编号： 2095-0802-(2023)11-0001-07
Optimization Design and Application of Medium-length Hole Pre-splitting
Loosening Blasting Parameters in Rock Roadway Excavation
WU Xianyu¹, LIU Yifan²
(1. Shanxi Coking Coal Chemical Co., Ltd., Lvliang 033300, Shanxi, China; 2. College of Mining Engineering, Taiyuan University
of Technology, Taiyuan 030024, Shanxi, China)
Abstract: When encountering hard rock in the rock roadway working face, there are problems such as poor blasting effect, severe
consumption of cutting materials, and low propulsion efficiency. This paper proposed a medium-length hole pre -splitting and
loosening blasting technology for rock roadway excavation in response to the working conditions of the 9# coal conveyor rise in the
first mining area of Pangpangta Coal Mine. The blasting process was numerically simulated and analyzed using LS -DYNA
software, and the rationality of the blasting parameter design was verified through on -site experiments. The research results
indicate that the medium-length hole pre-splitting and loosening blasting technology can weaken the rock, and the pre-splitting
and loosening effect is good, while the rock still retains a certain degree of integrity; when the spacing between holes is 1.5 m, the
penetration effect of cracks between holes is good, under the superposition of explosive stress waves, the equivalent stress value of
the measurement points on the center line between holes is significantly greater than that of the non-center line measurement
points. And the application of this technology can reduce the consumption of cutting teeth by 70%, increase the comprehensive
excavation speed by 55%, ensure safe and efficient production of the working face, reduce equipment and material consumption,
and the research results can provide reference for similar working conditions.
Key words: rock roadway excavation; hard rock; pre-splitting and loosening; blasting parameters