爆破
爆破
폭파
BLASTING
2014年
3期
63-67,75
,共6页
饶运章%王柳%黄苏锦%冯志华%喻圆圆%熊瑞
饒運章%王柳%黃囌錦%馮誌華%喻圓圓%熊瑞
요운장%왕류%황소금%풍지화%유원원%웅서
HHT%爆破震动信号%去噪%能量%微差爆破
HHT%爆破震動信號%去譟%能量%微差爆破
HHT%폭파진동신호%거조%능량%미차폭파
HHT%blasting vibration signals%depressing noise%energy%millisecond blasting
针对Fourier变换的时频局限性和小波分析的基函数选择困难问题,采用HHT对某铜矿切割槽爆破震动信号进行分析。首先对原始信号进行EMD-小波强制法去噪处理,再对干净信号进行 EMD分解和Hilbert变换,结果显示:信号能量分布在0.1~2.8 s,表明爆破震动维持在这段时间,其中0.4~1.4 s能量最大,是爆破药量最大的时段;IMF1~IMF4分量携带了94.8702豫的信号能量,是造成爆破震动危害的优势分量;IMF5、IMF6分量携带的能量虽然只有1.7375豫,但其频率与建(构)筑物频率接近,易产生共振,造成建(构)筑物爆破震动破坏。基于上述分析结果,采用HHT法对切割槽爆破延时进行研究,准确识别了12个段别雷管及其延时时间,证明HHT法可用于微差爆破延时识别。
針對Fourier變換的時頻跼限性和小波分析的基函數選擇睏難問題,採用HHT對某銅礦切割槽爆破震動信號進行分析。首先對原始信號進行EMD-小波彊製法去譟處理,再對榦淨信號進行 EMD分解和Hilbert變換,結果顯示:信號能量分佈在0.1~2.8 s,錶明爆破震動維持在這段時間,其中0.4~1.4 s能量最大,是爆破藥量最大的時段;IMF1~IMF4分量攜帶瞭94.8702豫的信號能量,是造成爆破震動危害的優勢分量;IMF5、IMF6分量攜帶的能量雖然隻有1.7375豫,但其頻率與建(構)築物頻率接近,易產生共振,造成建(構)築物爆破震動破壞。基于上述分析結果,採用HHT法對切割槽爆破延時進行研究,準確識彆瞭12箇段彆雷管及其延時時間,證明HHT法可用于微差爆破延時識彆。
침대Fourier변환적시빈국한성화소파분석적기함수선택곤난문제,채용HHT대모동광절할조폭파진동신호진행분석。수선대원시신호진행EMD-소파강제법거조처리,재대간정신호진행 EMD분해화Hilbert변환,결과현시:신호능량분포재0.1~2.8 s,표명폭파진동유지재저단시간,기중0.4~1.4 s능량최대,시폭파약량최대적시단;IMF1~IMF4분량휴대료94.8702예적신호능량,시조성폭파진동위해적우세분량;IMF5、IMF6분량휴대적능량수연지유1.7375예,단기빈솔여건(구)축물빈솔접근,역산생공진,조성건(구)축물폭파진동파배。기우상술분석결과,채용HHT법대절할조폭파연시진행연구,준학식별료12개단별뢰관급기연시시간,증명HHT법가용우미차폭파연시식별。
Aimed at the problem of time-frequency limitation in Fourier transform and selecting mother wavelet in wavelet transform,the blasting vibration signal of cutting slot in copper mine was analyzed with HHT. Firstly,the EMD-wavelet force method was used to depress the original signal noise,then the EMD decomposition and Hilbert transformation were done to process the clear signal. The results show the signal energy distributed between 0. 1 s and 2. 8 s,meaning blasting vibration in this period,among which signal energy between 0. 4 s and 1. 4 s,the energy was the largest,meanwhile the explosive amount was the largest. 94. 8702% signal energy distributed in IMF1 ~IMF4 components was the leading damage from blasting vibration. Although only 1. 7375% signal energy in IMF5 and IMF6,the frequency was similar to structure,which damaged the structure by resonance easily. Based on the results of signal analysis,the delay time of cutting slot blasting was discussed with HHT method. The HHT method success-fully identified 12 delays detonators and the delay in blasting engineering.
