金属矿山
金屬礦山
금속광산
METAL MINE
2015年
7期
119-122
,共4页
矿山安全%声发射%实时监测%串口服务器%定位
礦山安全%聲髮射%實時鑑測%串口服務器%定位
광산안전%성발사%실시감측%천구복무기%정위
Mine safety%Acoustic emission%Real-time monitor%Serial server%Location
针对矿山开采过程中的塌方、滑坡等实际问题,设计了一种多通道声发射实时监测定位系统。系统下位机使用MSP430F5336作为核心处理单元,采集矿山塌方及滑坡的声发射信号,并对信号进行滤波、放大以保证传输效果。利用MDS_SD4无线数传电台在采集器与上位机之间进行无线数据传输,采用RS485串口服务器实现通信协议的转换,有效解决了矿山现场布线不便的局限性问题。系统上位机通过命令发送的方式实现对下位机设备的控制,采用B/S网络结构模型,基于SSH框架和Ajax技术设计,网络化使得监测更加灵活。系统使用阈值法获取时差并改进定位算法,在误差范围内更准确地定位到声发射源位置。经现场运行测试,该系统工作稳定,有效实现了对矿山安全的实时远程监测,为矿山的安全和效益提供了更好的保障。
針對礦山開採過程中的塌方、滑坡等實際問題,設計瞭一種多通道聲髮射實時鑑測定位繫統。繫統下位機使用MSP430F5336作為覈心處理單元,採集礦山塌方及滑坡的聲髮射信號,併對信號進行濾波、放大以保證傳輸效果。利用MDS_SD4無線數傳電檯在採集器與上位機之間進行無線數據傳輸,採用RS485串口服務器實現通信協議的轉換,有效解決瞭礦山現場佈線不便的跼限性問題。繫統上位機通過命令髮送的方式實現對下位機設備的控製,採用B/S網絡結構模型,基于SSH框架和Ajax技術設計,網絡化使得鑑測更加靈活。繫統使用閾值法穫取時差併改進定位算法,在誤差範圍內更準確地定位到聲髮射源位置。經現場運行測試,該繫統工作穩定,有效實現瞭對礦山安全的實時遠程鑑測,為礦山的安全和效益提供瞭更好的保障。
침대광산개채과정중적탑방、활파등실제문제,설계료일충다통도성발사실시감측정위계통。계통하위궤사용MSP430F5336작위핵심처리단원,채집광산탑방급활파적성발사신호,병대신호진행려파、방대이보증전수효과。이용MDS_SD4무선수전전태재채집기여상위궤지간진행무선수거전수,채용RS485천구복무기실현통신협의적전환,유효해결료광산현장포선불편적국한성문제。계통상위궤통과명령발송적방식실현대하위궤설비적공제,채용B/S망락결구모형,기우SSH광가화Ajax기술설계,망락화사득감측경가령활。계통사용역치법획취시차병개진정위산법,재오차범위내경준학지정위도성발사원위치。경현장운행측시,해계통공작은정,유효실현료대광산안전적실시원정감측,위광산적안전화효익제공료경호적보장。
Aiming at some practical problems in the process of mining,such as collapse and landsides,a multi-channel a-coustic emission real-time monitoring and locating system was designed. The acoustic emission signal from collapse or landsides was amplified and filtered by the lower machine of the system in which MSP430F5336 was used as the central processing unit, in order to make preparation for data transmission. The wireless data radio MDS_SD4 was used to realize the data transmission between the data acquisition unit and the upper monitor. The communication protocol conversion was realized based on the seri-al server RS485,which is an effective solution to the limitation problem of wiring in field. Based on B/S network structure mod-el,the framework of SSH and Ajax,the system communicate with the lower machine by sending the commands,and the networ-king make the monitoring more flexible. An threshold method was used to get the time difference and an improved location algo-rithm was used to make the acoustic emission source location well within the margin of error. Through on-site operation,the sys-tem works stably,which provides guarantee for the safety and efficiency of the mine.