金属矿山
金屬礦山
금속광산
METAL MINE
2015年
1期
98-103
,共6页
赵永%杨天鸿%解联库%朱根鹏%胡高建%张飞
趙永%楊天鴻%解聯庫%硃根鵬%鬍高建%張飛
조영%양천홍%해련고%주근붕%호고건%장비
三维模型%VR技术%数据集成%采空区稳定性
三維模型%VR技術%數據集成%採空區穩定性
삼유모형%VR기술%수거집성%채공구은정성
Three dimensional model%VR technology%Data integration%Goaf stability
根据红岭铅锌矿的实际情况,基于VR技术建立了一整套矿山虚拟现实系统。针对VR技术在矿山中应用的不足之处,对虚拟现实系统构建软件进行了二次开发,加强其对外部数据的集成与可视化,实现对微震数据、应力场、位移场、塑性区以及理论计算结果的真三维显示。该矿山虚拟现实系统不仅包含了地表、工业场地、矿体、井巷、采场以及回采动画等矿山三维模型场景,还包含了一些数据、数值结果的显示,具有虚拟场景漫游、信息查询、数据立体呈现和交互控制等功能。针对红岭铅锌矿的大量采空区,通过对虚拟现实系统中众多重要三维数据的联合解读和分析,实现对采空区围岩稳定性的评价以及危险区域的确定,提高了VR技术在矿业领域的应用性。
根據紅嶺鉛鋅礦的實際情況,基于VR技術建立瞭一整套礦山虛擬現實繫統。針對VR技術在礦山中應用的不足之處,對虛擬現實繫統構建軟件進行瞭二次開髮,加彊其對外部數據的集成與可視化,實現對微震數據、應力場、位移場、塑性區以及理論計算結果的真三維顯示。該礦山虛擬現實繫統不僅包含瞭地錶、工業場地、礦體、井巷、採場以及迴採動畫等礦山三維模型場景,還包含瞭一些數據、數值結果的顯示,具有虛擬場景漫遊、信息查詢、數據立體呈現和交互控製等功能。針對紅嶺鉛鋅礦的大量採空區,通過對虛擬現實繫統中衆多重要三維數據的聯閤解讀和分析,實現對採空區圍巖穩定性的評價以及危險區域的確定,提高瞭VR技術在礦業領域的應用性。
근거홍령연자광적실제정황,기우VR기술건립료일정투광산허의현실계통。침대VR기술재광산중응용적불족지처,대허의현실계통구건연건진행료이차개발,가강기대외부수거적집성여가시화,실현대미진수거、응력장、위이장、소성구이급이론계산결과적진삼유현시。해광산허의현실계통불부포함료지표、공업장지、광체、정항、채장이급회채동화등광산삼유모형장경,환포함료일사수거、수치결과적현시,구유허의장경만유、신식사순、수거입체정현화교호공제등공능。침대홍령연자광적대량채공구,통과대허의현실계통중음다중요삼유수거적연합해독화분석,실현대채공구위암은정성적평개이급위험구역적학정,제고료VR기술재광업영역적응용성。
Combining with actual situation of Hongling Lead-zinc Mine,a set of mine virtual reality system based on the virtual reality technique was built. According to the shortcomings of the application of virtual reality technology in mine,the vir-tual reality software was secondly developed to strengthen the integration and visualization of the external data and to realize the true 3D display of seismic data,the stress field,displacement field,plastic zone and the theoretical results. This mine virtual re-ality system not only contains the 3D mine model scene,such as surface,industrial sites,ore,stope and drift,mining technology of animation,but also includes a display of some data,the numerical results. The system has the functions of virtual scene roa-ming,information query,data stereo presentation and interaction control function etc. Due to a large number of mined out area in Hongling Lead-zinc Mine,the stability of goaf is evaluated,the dangerous area is determined to improve the application of virtual reality technology in mining areas,through the interpretation and analysis of these important 3D data.