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磁电雷管结构及生产工艺的优化设计()

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《爆破器材》[ISSN:1001-8352/CN:32-1163/TJ]

卷:: 47
期数:: 2018年05

页码:: 44-48

栏目:: 爆炸材料

出版日期:: 2018-09-27

文章信息/Info

Title:: Optimum Design of Structure and Production Process of Magnetic Electric Detonator

文章编号:: 5257

作者:: 秦卫东; 刘文生; 张艳; 张东平; 江西新余国泰特种化工有限责任公司(江西新余，338000)

Author(s):: QING Weidong; LIU Wensheng; ZHANG Yan; ZHANG Dongping; Jiangxi Xinyu Guotai Specialty Chemicals Co., Ltd. (Jiangxi Xinyu, 338000)

关键词:: 磁电雷管; 电感量; 磁环; 引火药头

Keywords:: magnetic electric detonator; inductance; magnet ring; fuse head

分类号:: TD235.2+2

DOI:: 10.3969/j.issn.1001-8352.2018.05.008

文献标志码:: A

摘要:: 为解决当前磁电雷管生产工艺复杂、成本较高的问题，设计了一种新型磁电雷管。首先，阐述了磁电雷管的设计原理。在此基础上，分析了感应电流I₂与次级绕组匝数n₂、次级端脚线及桥丝电阻R₂、磁导率μ、电流频率f的关系，确定了n₂、R₂、μ和f等的取值。生产中，采用了磁环、脚线定位注塑措施；确定了磁电雷管的磁环材料，初、次级绕组匝数和电线材质；优化了点火药配方和桥丝的直径，点火药选择m(苦味酸钾)∶m(高氯酸钾)＝47.30∶44.65的零氧配方，桥丝直径为0.03 mm,解决了规模生产的一致性问题。结果表明：本产品生产工艺简单，能够实现大批量生产，同时具有很强的可靠性，满足了行业的需求。

Abstract:: A new kind of magnetic electric detonator was designed with respect to the challenges of complex production process and high cost in current production of magnetic electric detonator. Design principle of the magnetic electric detonator was introduced at first. Based on this, relationship between inductive current I₂ and number of secondary winding turns n₂,inductive current I₂and bridge wire resistance R₂, induced current I₂ and magnetic conductivity μ, inductive current I₂ and current frequency f were analyzed and the value of n₂, R₂, μ and f were determined. Magnet ring, wire positioning and mold injection were used in the production. Magnet ring material, number of primary or secondary winding turns, and wire material were also determined. Ignition formula and diameter of bridge wire were optimized. Zero oxygen balance was chosen in the ignition, in which m(potassium picrate)∶m(potassium hyperchlorate) =47.30∶44.65. Dia meter of bridge wire was 0.03 mm. Consistency of scale production has been solved. All the results show that this produc tion process is simple and could achieve large scale production, and it has a high reliability. It could meet the needs of various industries simultaneously.

参考文献/References:

［1］赵国钧，杨国华. 电磁雷管起爆技术［J］. 云南冶金，1991(5):6-8.
［2］王海东, 孙新波, 梁纯, 等. 磁电雷管输出特性测试技术研究［J］. 测井技术, 2006, 30(3): 285-287.
WANG H D, SUN X B, LIANG C, et al. On magneto electric detonators output characteristic test technology［J］. Well Logging Technology, 2006,30(3):285-287.
［3］汪旭光, 沈立晋. 工业雷管技术的现状和发展［J］. 工程爆破, 2003, 9(3): 52-57.
WANG X G, SHEN L J. The state-of-the-arts of industrial detonators［J］.Engineering Blasting, 2003, 9(3): 52-57.
［4］李明勇. 磁电雷管检测仪的研制［D］. 北京:北京理工大学, 2015.
LI M Y.Development of magnetic detonator detector［D］.Beijing:Beijing Institute of Technology,2015.
［5］张一博. 新型磁电雷管起爆器的开发及研制［D］.昆明：昆明理工大学, 2009.
［6］王秀芝, 惠宁利. 电磁雷管的稳健性设计［J］. 爆破器材, 1993,22(5):1-6.
WANG X Z, HUI N L. Robust design of electro-magne-tic-detonator［J］.Explosive Materials, 1993,22(5):1-6.
［7］牟金东, 路利军, 慕光华,等. 液体拒传安全磁电雷管的研制及应用［J］. 测井技术, 2010, 34(2): 196-199.
?MU J D, LU L J, MU G H, et al.Development and application of fail-safe water magneto electric detonator［J］. Well Logging Technology, 2010, 34(2): 196-199.
［8］刘琦. 一种新型工业电雷管起爆药［J］. 现代矿业, 2014(6): 129-130.
［9］夏建才,刘丽梅. 火工品制造［M］. 北京：北京理工大学出版社, 2009.
［10］王海东.磁电雷管轴向输出压力测试技术［J］.火工品，2006(2):44-45,53.
?WANG H D. Measuring method for axiel-output pressure of magnetoelectric detonator［J］.Initiator & Pyrotechnics, 2006(2):44-45,53.
［11］刘自铴,蒋荣光.工业火工品［M］.北京：兵器工业出版社，2003.
［12］王凯民,张学舜. 火工品工程设计与试验［M］.北京:国防工业出版社, 2010.
?WANG K M, ZHANG X S. Engineering design and test technology of initiators & pyrotechnics［M］.Beijing:National Defence Industry Press,2010.
［13］李国新，程国元,焦清介.火工品实验与测试技术［M］.北京：北京理工大学出版社，1998.
［14］李锦荣.电火工品射频发火机制及其射频感度的应用简介［J］.火工品,1999(1):51-53.
?LI J R. Initiation mechanism and application for RF sensitivity of EEDS［J］.Initiator & Pyrotechnics, 1999(1):51-53.

备注/Memo

备注/Memo:: 收稿日期：2018-04-11
作者简介：秦卫东（1968-），男，工程师，主要从事火工品及工装的设计。E-mail:13879004023@163.com

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更新日期/Last Update: 2018-09-27