[1]张万斌①,李玉景①,张华②,等.PHED-1型电子雷管在露天深孔爆破中的应用[J].爆破器材,2019,48(02):47-50,64.[doi:10.3969/j.issn.1001-8352.2019.02.009]
 ZHANG Wanbin,LI Yujing,ZHANG Hua,et al.Application of PHED-1 Electronic Detonator in Open-pit Deep Hole Blasting[J].EXPLOSIVE MATERIALS,2019,48(02):47-50,64.[doi:10.3969/j.issn.1001-8352.2019.02.009]
点击复制

PHED-1型电子雷管在露天深孔爆破中的应用()
分享到:

《爆破器材》[ISSN:1001-8352/CN:32-1163/TJ]

卷:
48
期数:
2019年02
页码:
47-50,64
栏目:
爆炸材料
出版日期:
2019-04-02

文章信息/Info

Title:
Application of PHED-1 Electronic Detonator in Open-pit Deep Hole Blasting
文章编号:
5284
作者:
张万斌李玉景张华张宝亮滕昭威王付景倪吉伦
①贵州开源爆破工程有限公司(贵州贵阳,551400) 
②贵州省公安厅治安警察总队(贵州贵阳,550000)
Author(s):
ZHANG Wanbin LI YujingZHANG Hua ZHANG BaoliangTENG ZhaoweiWANG Fujing NI Jilun
①Guizhou Kaiyuan Blasting Engineering Co., Ltd. (Guizhou Guiyang, 551400)
②Public Security Police Corps, Guizhou Provincial Public Security Department (Guizhou Guiyang, 550000)
关键词:
PHED-1型电子雷管露天深孔爆破矿山爆破
Keywords:
PHED-1 electronic detonator open-pit deep hole blasting mine blasting
分类号:
TQ565+2
DOI:
10.3969/j.issn.1001-8352.2019.02.009
文献标志码:
A
摘要:
以瓮福磷矿下属的穿岩洞矿为例,详细介绍了PHED-1型电子雷管在露天深孔爆破中的应用情况。经过近两年的使用,该电子雷管在瓮福磷矿所属的各矿山累计使用量达4万多发,使用炸药2 000多t,单次起爆的雷管数量最多达到800多发;爆破效果良好,且未发生任何安全事故。通过将PHED-1型电子雷管与我国早期的电子雷管相比较,分析了PHED-1型电子雷管在改善爆破效果、减轻爆破振动、提高施工安全性、做好公共安全监管等方面具有的独特优势。PHED-1型电子雷管的以上优势和成功的应用案例,说明该电子雷管在露天深孔爆破中具有良好的应用前景。
Abstract:
The application of PHED-1 electronic detonator in open-pit deep hole blasting of the underground rock tunnel of Wengfu Phosphate Mine was introduced. After nearly two years of use, the accumulative use of the electronic detonator in the mines of Wengfu Phosphate Mine reached more than 40,000 rounds, and more than 2,000 tons of explosive was consumed. The number of detonators in a single detonation was up to more than 800. Its blasting effect was proven good, and no accident was recorded. By comparing PHED-1 electronic detonator with the early electronic detonator in China, the unique advantages of PHED-1 type electronic detonator in improving blasting effect, reducing blasting vibration, improving construction safety, and performing superiorly in public safety supervision were analyzed. The above advantages and successful application cases of PHED-1 electronic detonator indicate that the electronic detonator has a good application prospect in open-pit deep hole blasting.

参考文献/References:

[1]刘谦.诺兰达公司利用电子雷管进行地下矿山的大型卸压爆破[J].工程爆破,2002,8(1):50-52.
 LIU Q. A large-scale underground distress mass blast with electronic detonators carried out in Norandas brunswick mine[J]. Engineering Blasting, 2002, 8(1): 50-52.
[2]李晓虎, 尚亿军, 王威,等,电子雷管起爆法的安全技术探讨[J].工程爆破,2011,17(2):70-72,42.
LI X H, SHANG Y J, WANG W, et al. Discussion on the security technology of electronic detonator initiation[J]. Engineering Blasting,2011,17(2):70-72,42.
[3]颜景龙.中国电子雷管技术与应用[J].中国工程科学,2015(1):36-41.
YAN J L. Technology and application of Chinese electronic detonator[J]. Engineering Sciences,2015(1):36-41.
[4]赵根,张正宇,吴新霞,等. 三峡工程三期上游RCC围堰拆除爆破设计与实施[J]. 湖北水力发电,2006(3): 21-25.
ZHAO G,ZHANG Z Y,WU X X,et al.Design & implementation of blasting operation for dismantling Ⅲ-phase upstream RCC cofferdam of TGP[J]. Hubei Water Power,2006(3): 21-25.
[5]赵根,吴新霞,陈敦科,等. 数码雷管起爆系统在三峡三期碾压混凝土围堰拆除爆破中的应用[J].工程爆破,2007,13(4):72-75.
ZHAO G,WU X X,CHEN D K,et al. Application of digital detonators energy control system to blasting demolitionof TGP’s Ⅲ-Phase upstream RCC cofferdam [J].Engineering Blasting, 2007,13(4) : 72-75.
[6]张乐, 颜景龙,李风国,等.隆芯1 号数码电子雷管在露天采矿中的应用[J].工程爆破,2010,16(4):73-76.
ZHANG L, YAN J L,LI F G, et al. Application of No.1 digital electronic detonator in an open pit mining [J]. Engineering Blasting,2010,16(4):73-76.
[7]傅洪贤,沈周,赵勇,等.隧道电子雷管爆破降振技术试验研究[J].岩石力学与工程学报,2012,31(3):597-603.
FU H X, SHEN Z, ZHAO Y, et al. Experimental study of decreasing vibration technology of tunnel blasting with digital detonator[J]. Chinese Journal of Rock Mechanics and Engineering, 2012,31 (3):597-603.
[8]田振农,孟祥栋,王国欣.城区隧道电子雷管起爆错相减震机理分析[J].振动与冲击,2012,31(21):108-111.
TIAN Z N, MENG X D, WANG G X. Mechanism analysis of fault-phase vibration reduction for tunnel blasting initiated by electronic detonators in city area[J]. Journal of Vibration and Shock, 2012,31 (21) :108-111.
[9]张力.数码电子雷管的发展及应用研究[J].采矿技术,2014(5):68-69,165.
[10]赵根,吴新霞,周先平,等.电子雷管起爆系统及其在岩塞爆破中的应用[J].爆破,2015,32(3):91-94,149.
ZHAO G, WU X X, ZHOU X P, et al. Electronic detonator initiation system and application in rock plug blasting [J]. Blasting, 2015,32(3):91-94,149.
[11]陈辉峻.电子雷管起爆系统研究[J].煤矿爆破,2012(2):8-11. CHEN H J. Research on initiation system of electronic detonator [J]. Coal Mine Blasting, 2012(2):8-11.
[12]蔡国成,陈俊杰,李创新,等.电子雷管在露天矿山施工中的应用[J].现代矿业,2013,29(8):143-144.
[13]杨岳阳.电子雷管远程起爆系统在铜坑矿的应用[J].采矿技术,2017,17(2):88-90.

备注/Memo

备注/Memo:
收稿日期:2018-08-09
第一作者:张万斌(1982-),男,硕士,初级爆破工程师,主要从事露天深孔爆破。E-mail:21143596@qq.com
通信作者:李玉景(1975-),男,高级爆破工程师,主要从事工程爆破方向工作与研究。E-mail:312997137@qq.com
更新日期/Last Update: 2019-04-02