1) Nonel blasting network
非电爆破网路
2) blasting network
爆破网路
1.
The demolition plan,the blasting parameters of the main explosive hole and pre-splitting hole,blasting network,blasting equipment and a series of safeguarding measures are detailed.
详细介绍了爆破方案、主爆孔及预裂孔的爆破参数、爆破网路和爆破器材以及解决此次爆破所面临的安全问题的一系列措施。
2.
The blasting scheme,blasting parametes,hole assignment,blasting network,and blasting safety are introduced in demolishing a brick-concrete structure building.
介绍了某点式砖混结构楼房的拆除爆破方案、爆破参数、爆破网路以及爆破安全防护措施。
3.
By way of increasing the initiating network s reliability,the blasting network was adopted.
根据郑石高速公路No19段路堑爆破开挖的工程实际,通过对比确定在路堑开挖中采用一次成形中深孔排间顺序延期爆破方案,并进行爆破振动和飞石方面的安全校核,最后讨论修改了爆破网路,提高了该网路的可靠度。
3) firing circuit
爆破网路
1.
In this paper,on the basis of analyzing the exact explosion experiment of detonators in a series circuit,simplified exact explosion condition has been advanced,the check formula about exact explosion of detonators in series-in-parallel has been built,and computer method of optimum design to firing circuits have been given.
本文在分析串联雷管准爆试验曲线的基础上,提出了简化的串联雷管准爆条件,建立了串并联爆破网路的准爆验算公式,给出了爆破网路优化的计算机方法。
2.
In this paper, on the basis of analyzing the exact explosion experiment of detonators in a series circuit, a simplified exact explosion condition has been put forward,the check formula on exact explosion of detonators in series-in parallel has been built, and a computer method of optimum design for firing circuit has been given.
在分析串联雷管准爆试验曲线的基础上,提出了简化的串联雷管准爆条件,建立了串并联爆破网路的准爆验算公式,给出了爆破网路优化的计算机方法。
4) blasting circuit
爆破网路
1.
According to the requirement for reliability of electric detonator and blasting circuit which the worker inspects on the spot,the low-power-consuming SCM MSP430F133 produced by American TI Company is adopted to design a pattern of intelligent blasting circuit inspecting instrument,which is as small as a mobile phone.
文中针对爆破工作者现场检测电雷管和电爆网路可靠性的需求,采用美国TI公司的低功耗MSP430F133单片机,开发出一款尺寸如手机大小的智能化爆破网路检测仪。
2.
Because of its credibility,safety,briefness,thrift,and easy operation,the circular ignition of blasting circuit of NONEL tube detonators is designed.
基于可靠、安全、简单、经济、易于操作和推广应用方面的考虑,提出了循环起爆非电导爆管雷管爆破网路,对该网路中各入孔导爆管雷管的起爆率进行了计算和分析,给出了使用条件,并介绍了工程应用实例。
3.
A blasting circuit with non-electric bidirectional multi-loop grid is adopted to once-through blast 15 thousand cartridges and 686 kg blasting powder, a 3×10~4 m~2 workshop is successfully demolished with being fully disjointed, small vibration and a muckpile of 1~3 m.
采用非电加强双向多回路网格式爆破网路,一次起爆了1。
5) non electric blast ignition network
非电导爆管网路
1.
The non electric blast ignition network is used widely in the practice of blasting engineering.
本文就非电导爆管网路击发点的布设与构成,对网路可靠性的影响等因素,浅谈一些看法,对爆破实践有一定的指导作用。
补充资料:电爆网路
电爆网路
electric priming circuit
dianboo wa叩lu电爆网路(eleetrie priming eireuit)由电雷管(见雷管)、连接导线和电源组成的电力起爆回路。 起爆电源要求有足够的容量,能确保为每个电雷管提供足够的电流。一般采用起爆器、照明电源或动力电源作为起爆电源。在重要爆破时,要核算电源的内阻和限流跳闸的因素。 连接导线包括端线、连接线、区域线和主线,由于起爆电流很大,必须考虑电流通过诸连接导线的电压降。端线采用断面为0.2一0.4mmZ的多股铜芯或塑料电线。连接线、区域线多用断面为2.5丸16mm,、16~35mm,的铜芯铝芯的塑料线。主线因能重复使用,一般用大截面的电缆充当。 联接方法简单的并联和串联只用于一次起爆为数不多的电雷管。一次起爆数量很大的电雷管时,经常采用并串或串并的混合联珍。以尽量使每个雷管得到的电流最大,并且所有雷管得到的电流一致为原则。通过各雷管的电流可用欧姆定律解算。当必须考虑连接线的电阻时,要用梯格并联的解算方法,才能得出各分路的电流。见电爆网路解算图表。电娜网路解算圈表共表中R为电爆网路总电阻,O;R,为主导线电阻,n;r为单个雷管全电阻,n;I为电爆网路总电流,A;U为电源电压,V;帐为单个电雷管准爆电流。A。 (于亚伦)
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