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黄金科学技术 ›› 2017, Vol. 25 ›› Issue (6): 83-91.doi: 10.11872/j.issn.1005-2518.2017.06.083

• 采选技术与矿山管理 • 上一篇    下一篇

自然崩落法一体化放矿优化控制与智能化管理系统研制

朱忠华1,2,王李管2,陶干强1,蒲成志1   

  1. 1.南华大学核资源工程学院,湖南  衡阳   421001;
    2.中南大学数字矿山研究中心,湖南  长沙   410083
  • 收稿日期:2016-08-04 修回日期:2016-12-06 出版日期:2017-12-30 发布日期:2018-05-18
  • 作者简介:朱忠华(1981-),男,湖南郴州人,博士研究生,从事数字矿山及数值模拟技术研究工作。zzhnihao545@126.com
  • 基金资助:

    国家自然科学基金项目“中厚倾斜矿体无底柱分段崩落法导流放矿机理研究”(编号:51574151)和衡阳市科技发展项目“三维可视化环境下兼顾均匀放矿和出矿品位均衡的自然崩落法放矿计划编制方法”(编号:2016KS28)联合资助

Research and Development of Integration System of Block Caving Ore Drawing Optimization Control and Intelligent Management

ZHU Zhonghua 1,2,WANG Liguan2,TAO Ganqiang1,PU Chengzhi1   

  1. 1.Nuclear Resources Engineering College,University of South China,Hengyang    421001,Hunan,China;
    2.Research Center of Digital Mine,Central South University,Changsha    410083,Hunan,China
  • Received:2016-08-04 Revised:2016-12-06 Online:2017-12-30 Published:2018-05-18

PDF (PC)

572

摘要:

为实现新时期自然崩落法科学合理的放矿控制和管理,使用C++编程语言和hoops可视化工具包研制了自然崩落法一体化放矿优化控制和智能化管理系统。系统构建步骤如下:(1)分析自然崩落法放矿优化控制与智能化管理系统的业务需求,从而确定系统的软件需求;(2)提出该系统层次式平台+插件的软件体系结构,并采用程序插件作为系统的插件类型,设计了插件接口;(3)分析放矿过程涉及数据的特点,确定了自然崩落法放矿数据模型设计的基本要求和数据管理的方式,设计了系统的数据结构,选用SQLite数据库来存储和管理数据;(4)根据需求设计了系统的功能结构,开发了一套以矿岩流动模拟分析和资源模型数据为基础,以资源开采经济评价、放矿计划优化编制及放矿生产过程智能化管理为核心的集成化软硬件应用系统,实现了从数据流、业务流到管理流程的无缝衔接和高度集成。矿山应用实例表明,该系统可以满足自然崩落法矿山企业对放矿控制与智能化管理系统的实际需求,具有较好的应用前景。

关键词: 放矿控制, 矿岩流动, 放矿管理, 数据管理, 智能化管理系统, 自然崩落法

Abstract:

In order to realize scientific and reasonable ore drawing control and management of block caving method in the new period,a new integration system of block caving ore drawing optimization control and intellgent management was developed by using C++ programming language and hoops visual package.The system construction steps are as follows:①Analyzed the business requirements of block caving ore drawing optimization control and intelligent management system,and determined the system software requirements.②Proposed the software architecture of hierarchical platform and plug-in,the plug-in was used as the plug-in type of the system,and designed the plug-in interface.③Analyzed the characteristics of the data which drawing process related to,determined the basic design requirements of drawing data model of block caving mine and data management mode,designed the data structure of the system,SQLite database was used to store and manage data.④Functional structure of the system was designed according to the requirements,a set of software and hardware application system was developed,which based on the simulation analysis of mine rock flow and resource model data,and cored in economic evaluation of mineral resources exploitation,production scheduling optimization,and the intelligent management of the production process.The mine application example shows that the system can meet the demands of drawing control and intelligent management system of block caving mining enterprises,and has a good application prospects.

Key words: ore drawing control, ore and rock flow, drawing management, data management, intelligent management , system, block caving

中图分类号: 

  • TD862

[1] Trueman R,Castro R,Halim A.Study of multiple draw-zone interaction in block caving mines by means of a large 3D physical model[J].International Journal of Rock Mechanics and  Mining Science,2008,45(7):1044-1051.
[2] Feng Xinglong.Study on Digital Assessment and Simulation Technology at Rock Mass Engineering Quality of Block Caving[D].Changsha:Central South University,2010.[冯兴隆.自然崩落法矿岩工程质量数字化评价及模拟技术研究[D].长沙:中南大学,2010.]
[3] Tao Ganqiang,Ren Qingyun,Ma Jiaoyang.Ore drawing rules produced by poly-drawpoints based on kinematic model[J].Journal of China Coal Society,2012,37(3):407-410.[陶干强,任青云,马骄阳.基于运动学模型的多漏口放矿规律[J].煤炭学报,2012,37(3):407-410.]
[4] Zhu Zhonghua,Wang Liguan,Tu Xiaoteng,et al.Flow characteristics of discrete ore rock of block caving based on stochastic medium theory[J].Journal of Northeastern University(Natural Science),2016,37(6):869-874.[朱忠华,王李管,涂小腾,等.基于随机介质理论的自然崩落法崩落矿岩流动特性研究[J].东北大学学报(自然科学版),2016,37(6):869-874.]
[5] Zeng Qingtian,Liu Kewei,Yan Ti,et al.Study on natural caving mining method based on multi-numerical simulation method[J].Gold Science and Technology,2015,23(1):66-73.[曾庆田,刘科伟,严体,等.基于多数值模拟方法联合的自然崩落法开采研究[J].黄金科学技术,2015,23(1):66-73.]
[6] Yang Cailiang,Ma Jianjun.Study of the computer random simulation of ore drawing for caving method[J].Mining Research and Development,2004,24(6):57-58.[杨才亮,马建军.崩落法放矿计算机随机模拟的研究[J].矿业研究与开发,2004,24(6):57-58.]
[7] Liu Xiaobo,Sun Huoran,Zhao Dexiao,et al.Software design and development computer simulation system for ore caving-drawing[J].Metal Mine,2002(12):49-52.[柳小波,孙豁然,赵德孝,等.崩落放矿计算机仿真系统软件的设计与开发[J].金属矿山,2002(12):49-52.]
[8] Li Changning.Computer simulation of heterogeneous loose body drawing[J].Nonferrous Metals,2002,54(2):98-103.[李昌宁.非均匀矿岩散体放矿的计算机模拟[J].有色金属,2002,54(2):98-103.]
[9] Brown E T.Block Caving Geomechanics[M].Queensland:Julius Kruttschnitt Mineral Research Centre,2002.
[10] Liu Xiaoming,Luo Zhouquan,Xu Jicheng,et al.Resources extraction planning model of large-scale mine and its application[J].Journal of Central South University(Science and Technology),2014,45(8):2812-2816.[刘晓明,罗周全,徐纪成,等.大型矿区资源开采规划模型的建立及其应用[J].中南大学学报(自然科学版),2014,45(8):2812-2816.]
[11] Diering T.PC-BC:A block cave design and draw control system[C]//Proceedings of MassMin.Brisbane:The Australasian Institute of Mining and Metallurgy,2000:305-335.
[12] Zhu Zhonghua,Wang Liguan,Bi Lin,et al.Study on  subsidence prediction of underground mine and its implementation based on VTK [J].Journal of Fuzhou University(Natural Science Edition),2015,43(3):416-421.[朱忠华,王李管,毕林,等.基于VTK的地下矿开采沉陷预计研究与实现[J].福州大学学报(自然科学版),2015,43(3):416- 421.]
[13] Bi Siwen,Yin Zuoru,He Xiaoqun,et al.Concept,framework,connotation and application demonstration of digital mine[J].Science & Technology Review,2004(6):39-63.[毕思文,殷作如,何晓群,等.数字矿山的概念、框架、内涵及应用示范[J].科技导报,2004(6):39-63.]
[14]  Zhu Zhonghua,Wang Liguan,Tan Zhenghua,et al.Oredraw scheme optimization of block caving based on ore resource value model under 3D platform[J].Gold Science and Technology,2016,24(1):80-85.[朱忠华,王李管,谭正华,等.三维平台下基于资源价值模型的自然崩落法放矿方案优化[J].黄金科学技术,2016,24(1):80-85.]
[15] Wang Yibin,Liu Kui,Wang Yang.Research and practice of software architecture[J].Computer Technology and Development,2007,17(9):142-146.[王一宾,刘奎,汪洋.软件体系结构研究与实践[J].计算机技术与发展,2007,17(9):142-146.]
[16] Zhang Yousheng,Chen Songqiao.Design and implementation of layered software architecture[J].Computer Engineering and Application,2002(22):154-157.[张友生,陈松乔.层次式软件体系结构的设计与实现[J].计算机工程与应用,2002(22):154-157.]
[17] Li Jun’e,Zhou Dongru.The platform/plug-in software architecture style[J].Journal of Chinese Computer Systems,2007,28(5):876-881.[李俊娥,周洞汝.“平台/插件”软件体系结构风格[J].小型微型计算机系统,2007,28(5):876-881.]
[18] Wang Shan,Sa Shixuan.Introduction to Database System[M].Beijing:Higher Education Press,2006.[王珊,萨师煊.数据库系统概论[M].北京:高等教育出版社,2006.]
[19] Wang Runhuai.Research on Three-dimensional Data Models of Geological Objects in Mine [D].Chengdu:Southwest Jiaotong University,2007.[王润怀.矿山地质对象三维数据模型研究[D].成都:西南交通大学,2007.]
[20] Huang Mu,Shi Yehui,Li Dapeng.A method of establishing geologic model based on B-rep data structure[J].Journal of Geotechnical Investigation & Surveying,2013,41(11):67-70.[黄牧,施烨辉,李大鹏.一种基于B-rep的地质模型建立方法[J].工程勘察,2013,41(11):67-70.]
[21] Song Zhe,Liu Yancong,Niu Wenjie.Implementation algorithm of TIN model in GIS[J].Computer Applications,2003,23(12):94-96.[宋哲,刘衍聪,牛文杰.GIS中TIN模型的实现算法[J].计算机应用,2003,23(12):94-96.]
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