img

QQ群聊

img

官方微信

高级检索

黄金科学技术 ›› 2019, Vol. 27 ›› Issue (5): 755-761.doi: 10.11872/j.issn.1005-2518.2019.05.755

• 采选技术与矿山管理 • 上一篇    下一篇

多规格石高强度开采矿山开拓系统的三维规划设计与施工

唐玉成1(),方翔1,张中雷2,崔晓荣1()   

  1. 1. 宏大爆破有限公司,广东 广州 510623
    2. 大昌建设集团有限公司,浙江 舟山 316021
  • 收稿日期:2019-06-21 修回日期:2019-07-15 出版日期:2019-10-31 发布日期:2019-11-07
  • 通讯作者: 崔晓荣 E-mail:1286613648@qq.com;smile66_cui@163.com
  • 作者简介:唐玉成(1990-),男,湖北黄冈人,工程师,从事露天采矿工作。1286613648@qq.com
  • 基金资助:
    广东省科技计划产学研重点项目“广东省广东宏大爆破股份有限公司矿山民爆一体化院士工作站”(2013B090400026)

Three-dimensional Planning Design and Construction of Multi-size Stone High-strength Mining Development System

Yucheng TANG1(),Xiang FANG1,Zhonglei ZHANG2,Xiaorong CUI1()   

  1. 1. Hongda Blasting Co. ,Ltd. ,Guangzhou 510623,Guangdong,China
    2. Darch Construction Group Co. ,Ltd. ,Zhoushan 316021,Zhejiang,China
  • Received:2019-06-21 Revised:2019-07-15 Online:2019-10-31 Published:2019-11-07
  • Contact: Xiaorong CUI E-mail:1286613648@qq.com;smile66_cui@163.com

摘要:

为了保障多规格石高强度开采矿山的石料供需平衡和安全高效生产,利用三维数字矿山软件进行矿山开拓系统的规划设计与施工监管。以舟山绿色石化基地大、小鱼山岛多规格石高强度开采工程为背景,采用3Dmine软件建立了矿区的三维数字表面模型,并进行了运输道路优化设计、开拓工程量计算等,最后进行动画模拟,分析露天矿山开拓系统的车—路协同效果,确保满足工程施工强度要求。实践表明:生成的开拓系统设计可视性好,有助于采场合理布局和石料科学调配,为多规格石的高强度开采施工奠定了技术基础。利用3Dmine数字矿山软件,设计多规格石高强度开采矿山的三维开拓系统,并将其应用于现场施工,有助于保障多规格石的供需平衡调配和矿山持续高效的生产管理。

关键词: 3Dmine软件, 多规格石, 高强度开采, 三维开拓系统, 道路设计, 工程量计算

Abstract:

In order to ensure the balance of stone supply and efficient safety production of multi-size stone high-strength mining mines,the three-dimensional digital mining software was used to carry out the planning,design and construction supervision of the mining development system.Based on the large-scale high-strength mining project of Yushan Island,Zhoushan Green Petrochemical Base,3Dmine software was used to establish a three-dimensional digital surface model of the mining area.The optimization design of the transportation road and the calculation of the amount of engineering were carried out,finally animation simulation was used.The car-road synergy effect of the open-pit mining development system was analyzed to ensure that the construction strength requirements were met.Practice has shown that the generated development system has good visibility,which contributed to rational layout of the stope and the scientific allocation of stone materials,laying a technical foundation for the high-strength mining of multi-size stones.It is convenient to build a digital model of the mine and to a large extent realize the virtualization operation.Three-dimensional mining software is applied in the whole life cycle of open-pit mines to carry out mining design,road construction design,blasting design,engineering quantity settlement,production plan formulation and other work,which reduces the labor intensity of personnel,improves the work efficiency,and improves the level of construction refinement.Three-dimensional mining software can solve the problems of traditional open pit mining design software (such as CAD software,et al.) such as complicated operation,poor visibility and difficulty in effectively communicating the construction intention,and improve the practical production guiding significance of design.Using 3Dmine digital mining software to design a three-dimensional development system for high-strength mining of multi-specification stones and apply it to site construction is helpful to ensure the balance of supply and demand of multi-specification stones and the sustainable and efficient production management of mines.

Key words: 3Dmine software, high-strength mining multi-size stone, three-dimensional development system, road design, engineering quantity calculation

中图分类号: 

  • TD216

图1

露天矿山开拓系统三维规划设计流程图"

图2

原始CAD地形图"

图3

地形地貌及矿山道路"

图4

小鱼山岛矿山道路开拓系统的动画模拟"

图5

矿山道路剖面线位置图"

1 王立梅.三维可视化建模技术在矿山设计中的应用[J].煤矿安全,2018,49(11):121-124.
WangLimei.Application of 3D visualization modeling technology in mine design[J].Safety in Coal Mines,2018,49(11):121-124.
2 李佳梦,张元生,王辉,等.三维采矿设计软件在智能矿山的实践应用[J].中国矿业,2018,27(增2):254-257,262.
LiJiameng,ZhangYuansheng,WangHui,et al.Application of 3D mining design software in intelligent mine[J].China Mining Magazine,2018,27(Supp.2):254-257,262.
3 钟德云,胡柳青,吴国栋.基于3DMine软件的露天矿开采设计[J].现代矿业,2012,27(10):11-14.
ZhongDeyun,HuLiuqing,WuGuodong.Open-pit mine exploitation based on 3DMine software[J].Modern Mining,2012,27(10):11-14.
4 王立磊,王李管.依托DIMINE软件实现中国矿山的数字化[J].现代矿业,2009,25(3):23-27.
WangLilei,WangLiguan.Using DIMINE software to achieve digitization of China mine[J].Modern Mining,2009,25(3):23-27.
5 徐立明,牛新生.地质体三维可视化模拟的现状与展望[J].西南民族大学学报(自然科学版),2006,32(1):151-154.
XuLiming,NiuXinsheng.Current status and prospects of the 3-dimensional visual simulation of geological bodies[J].Journal of Southwest University for Nationalities(Natrual Science Edition),2006,32(1):151-154.
6 李建华.3DMine软件露天深孔台阶爆破管理应用实践[J].有色金属(矿山部分),2018,70(5):66-69.
LiJianhua.Practice and application of 3DMine software in open-pit deep-hole bench blasting[J].Nonferrous Metals(Mining Section),2018,70(5):66-69.
7 王洋喆,郭忠林,史银卷,等.基于3DMine软件的不规则矿堆三维建模及矿量估算[J].中国钨业,2018,33(2):64-68.
WangYangzhe,GuoZhonglin,ShiYinjuan,et al.Three-dimensional modeling and ore quantity estimation of irregular ore heap based on 3DMine[J].China Tungsten Industry,2018,33(2):64-68.
8 洪勇,张弛.基于3DMine的露天矿端帮境界剥采比研究[J].化工矿物与加工,2018,47(1):48-51.
HongYong,ZhangChi.Study on end-slope boundary stripping ratio of surface mine based on 3DMine[J].Industrial Minerals and Processing,2018,47(1):48-51.
9 刘果,傅新华,张伟.基于3DMine的露天矿中长期计划应用研究[J].露天采矿技术,2013(8):56-58.
LiuGuo,FuXinhua,ZhangWei.Study on application of medium and long term production planning establishment in Pingshuo east open-pit mine based on 3DMine[J].Opencast Mining Technology,2013(8):56-58.
10 王志宏,陈应显.露天矿三维可视化地质模型的实时动态更新[J].辽宁工程技术大学学报(自然科学版),2004,23(1):21-23.
WangZhihong,ChenYingxian.Real time dynamic updating of 3D visualized geological model of open-cut mine[J].Journal of Liaoning Technical University(Natural Science Edition),2004,23(1):21-23.
11 冯兴隆,吴东旭,李剡兵,等.基于DIMINE三维数字矿山软件系统的淌塘铜矿六中段开采方法研究[J].湖南有色金属,2013,29(1):1-6,53.
FengXinglong,WuDongxu,LiYanbing,et al.Mining method research of the sixth level of Tangtang Copper Mine based on DIMINE 3D mining software system[J].Hunan Nonferrous Metals,2013,29(1):1-6,53.
12 郭强.基于3DMine的三维矿山模拟研究[D].山西:太原理工大学,2012:40-50.
GuoQiang.Research on the -Dimensional mine simulation based on 3DMine[D].Shanxi:Taiyuan University of Technology,2012:40-50.
13 于全景,张震宇.基于3DMINE软件的石灰石矿山三维建模[J].建筑工程技术与设计,2018(15):4351.
YuQuanjing,ZhangZhenyu.3D Modeling of limestone mine based on 3DMINE software[J].Architectural Engineering Technology and Design,2018(15):4351.
14 杨金富,周仕雄,薛力鹏.基于DIMINE的会理拉拉铜矿三维地质建模及储量估算[J].金属矿山,2016,45(8):114-118.
YangJinfu,ZhouShixiong,XueLipeng.Three-dimensional geological modeling and reserves estimation of Lala copper deposit in Huili County,based on DIMINE software[J].Metal Mine,2016,45(8):114-118.
15 高艳磊.基于3 DMine的露天采矿设计[J].金属矿山,2015,44(4):255-258.
GaoYanlei.Design of 3DMine software in open pit mining[J].Metal Mine,2015,44(4):255-258.
16 邵亚建,饶运章,何少博.基于3DMine软件的复杂矿体三维建模及储量估算[J].有色金属科学与工程,2016,7(4):98-102.
ShaoYajian,RaoYunzhang,HeShaobo.Three-dimensional modeling and reserve estimation of complex ore-body based on 3DMine[J].Nonferrous Metals Science and Engineering,2016,7(4):98-102.
17 王运森,闫腾飞,安龙.基于三维激光扫描的复杂空区点云处理技术研究[J].有色金属科学与工程,2015,6(2):89-93.
WangYunsen,YanTengfei,AnLong.Point cloud processing technique of complex mined-out area based on 3D laser scanning[J].Nonferrous Metals Science and Engineering,2015,6(2):89-93.
18 巩瑞杰,陈彦亭,常龙新,等.基于3DMine的Web网页三维可视化插件设计与应用[J].现代矿业,2018(10):142-145,150.
GongRuijie,ChenYanting,ChangLongxin,et al.Design and application of webpage three-dimensional visualization plug-in based on 3DMine[J].Modern Mining,2018(10):142-145,150.
19 于谦,杨继锋,李萌,等.3DMine矿业软件在数字矿山三维建模中的应用[J].河北遥感,2013(3):9-11.
YuQian,YangJifeng,LiMeng,et al.Application of 3DMine mining software in 3D modeling of digital mine[J].Hebei Remote Sensing,2013(3):9-11.
20 曹玉涛,庞博,周正义,等.3DMine软件在矿山基建期间的应用[J].中国矿山工程,2018,47(3):31-34.
CaoYutao,PangBo,ZhouZhengyi,et al.Application of 3DMine software in mine construction period[J].China Mine Engineering,2018,47(3):31-34.
21 罗周全,鹿浩,刘晓明,等.矿山三维实体建模[J].南华大学学报(自然科学版),2007,21(4):9-15.
LuoZhouquan,LuHao,LiuXiaoming,et al.Mine 3D solid modeling[J].Journal of University of South China(Science and Technology),2007,21(4):9-15.
No related articles found!
Viewed
Full text


Abstract

Cited

  Shared   
  Discussed   
[1] 李淑芳, 于永安, 朝银银, 王美娟, 张岱, 刘君, 孙亮亮. 在辽东成矿带找寻层控型金矿床靶区[J]. J4, 2010, 18(3): 59 -62 .
[2] 闫杰, 覃泽礼, 谢文兵, 蔡邦永. 青海南戈滩—乌龙滩地区多金属地质特征与找矿潜力[J]. J4, 2010, 18(4): 22 -26 .
[3] 傅星. 青海绿梁山地区金矿床地质特征及成矿条件浅析[J]. J4, 2010, 18(4): 54 -57 .
[4] 刘远华, 杨贵才, 张轮, 齐金忠, 李文良. 西秦岭阳山超大型金矿床花岗岩岩石地球化学特征[J]. J4, 2010, 18(6): 1 -7 .
[5] 江秉忠, 宋丙剑. 黑龙江嘎拉山地区金找矿潜力分析[J]. J4, 2011, 19(1): 34 -37 .
[6] 吴小霞, 邹华, 焦明录, 宪曾刚. 青海什多龙银铅锌矿床银的赋存状态研究[J]. J4, 2007, 15(1): 19 -22 .
[7] 张志国,胡军海 ,刘涛. 大兴安岭中段旁开门金银矿地质特征及找矿标志[J]. J4, 2008, 16(1): 43 -47 .
[8] 马德锡 ,范俊杰 ,于爱军 ,陈勇敢 ,王治华 ,张峰. 高密度电法长剖面测量应用研究[J]. J4, 2008, 16(2): 48 -56 .
[9] 叶跃威. 重量法测定氰化亚金钾中的金[J]. J4, 2008, 16(2): 60 -61 .
[10] 林洪勇. 双鸭山七星河金矿矽卡岩中金矿化地质特征、成矿规律及矿床成因探讨[J]. J4, 2008, 16(3): 26 -29 .