作者：王永峰^1,2, 范锦彪^1,2, 王燕^1,2

作者单位：1. 电子测试技术国家重点实验室, 山西 太原 030051;
2. 仪器科学与动态测试教育部重点实验室, 山西 太原 030051

关键词：侵彻;上电;电池容量;冲击开关

摘要：

进行弹丸侵彻试验时,试验准备周期长。由于弹丸内部空间非常宝贵,测试仪必须做到微体积,其电池电量较小;测试仪需要提前上电。针对弹丸侵彻试验准备时间长与测试仪电池电量有限的矛盾,以往采用引出导线,在试验前断线上电的方式。断线上电需要弹体开槽,而且无意中磨断导线导致提前上电,为此提出基于微冲击开关的侵彻过载测试仪。测试仪冲击开关安装测试仪内部,不需要引出导线,在堂内加速阶段通过冲击开关进行实时上电,解决测试仪电池容量的问题。对冲击开关进行冲击验证和空气炮实验,其可靠性得到验证。实测数据分析,该测试仪能够很好地完成弹丸侵彻过程数据测试。

Penetration overload testers based on micro-impact switches

WANG Yongfeng^1,2, FAN Jinbiao^1,2, WANG Yan^1,2

1. National Key Laboratory for Electronic Measurement Technology, Taiyuan 030051, China;
2. Instrument Science and Dynamic Test Laboratory North University of China, Taiyuan 030051, China

Abstract: It takes time to prepare for projectile penetration tests. Because the inner space of the projectile is very small, the tester must be designed with micro volume and low battery capacity. As a result, the tester needs to be powered on in advance. To overcome the contradiction between long preparation time and limited battery power, the most common way is to switch on by disconnecting the lead wire before test. This requires the projectile be slotted beforehand, but it is possible to rub off the wire by accident. So, a penetration overload tester with a micro-impact switch has been developed. The micro-impact switch, instead of the lead wire, is installed inside the tester and powered on in real time, which has solved the problem that the battery capacity is too small at the acceleration phrase of projectile bores. According to the impact test and air cannon impact test, the novel tester is reliable and can be used to complete the data test during penetration process.

Keywords: penetration;power up;battery capacity;impact switch

2015, 41(12): 63-66  收稿日期: 2015-07-23;收到修改稿日期: 2015-09-27

基金项目: 

作者简介: 王永峰(1990-),男,山西吕梁市人,硕士研究生,专业方向为智能仪器与动态测试。

参考文献

[1] 刘红娟,沈大伟,等. 弹载高g值三轴加速度测试系统技术分析[J]. 传感技术学报,2013,26(1):21-24.
[2] 裴东兴,祖静,张瑜,等. 弹载电子测试仪的设计[J]. 弹箭与制导学报,2012,36(3):220-222.
[3] Matunaga T, Esashi M. Acceleration switch with extended holding time using squeeze film effect systems[J]. Sensors and Actuators:A,2002(100):10-17.
[4] Duesterhaus M A, Bateman V L, Hoke D A. Shock testing of surface micromachined MEMS devices[C]//The 47th Annual Fuze Conference New Orleans:LA,2003.
[5] 崔飞亮. 新概念动态测试系统的微功耗小体积技术研究[J].电工技术,2011,47(3):47-48.
[6] 陈光焱,杨黎明. 一种高g值微冲击开关的研制[J]. 爆炸与冲击,2007,27(2):190-192.
[7] 蔡豪刚,丁桂甫,杨卓青,等. 通过可动触点延长接触时间的新型微冲击开关[J]. 爆炸与冲击,2009,28(7):147-152.
[8] 张建新,程翔,张合. 侵彻引信高g值惯性开关试验研究[J].南京理工大学学报,2013,37(6):917-921.
[9] 文丰,任勇峰,王强. 高冲击随弹测试固态记录器的设计与应用[J]. 爆炸与冲击,2009,29(2):221-224.
[10] 马喜宏,李长龙,孙韬,等. 弹载加速度记录仪抗冲击防护结构设计[J]. 爆炸与冲击,2013,32(3):64-67.
[11] 范锦彪,祖静,徐鹏. 弹丸侵彻混凝土目标减加速度信号处理原则[J]. 探测与控制学报,2012,34(4):1-9.
[12] 王建坤,范锦彪,王燕. 子母弹抛撒加速度信号特征小波分析[J]. 中国测试,2015,41(1):104-107.