基于GIS的煤矿采掘生产状态可视化管理系统研究.pdf

太原理工大学 硕士学位论文 基于GIS的煤矿采掘生产状态可视化管理系统研究 姓名王马峰 申请学位级别硕士 专业 指导教师邢存恩 20100401 GIS CAD “AB9“01234CD*5EFG HIJKLMN O“0-*5P3 Q RSTOUIVWXYZP[\]/“012CD* E_78‘abc dA“05efghEFi j GIS klm“012345kn/“ 0123478‘ai/“odpqros touvsw78978Ł” AutoCAD -Œk9“0-⁄}˚4P9Z 12‹›fi fl “–‡345G;9˝7 ’v6vm9“012** ı*CG ł”6‰œ{.JKCl/„ m”O67„ ’G /”5m“05‰y˜P G NGIS“01234uv*,AutoCAD- RESEARCH ON THE WORKING STATE VISUAL MANAGEMENT SYSTEM OF MINING AND EXCAVATING BASED ON GIS ABSTRACT The paper set up a model of the multi-parameter working state visual management of mining and excavating based on the basic theories and of mineral GIS through introduced integration intelligentization and Visualization technique of mineral CAD and analyzed deeply all elements in the state visual management system of mining and excavating with system engineering theories, database theories and GIS principle. The main content of the study include realized and studied the er research results , development and problem among them, combined on demand of coal producing experience, built management system of whole frame after analyzed deeply the constitutes of mining and excavating . The discourse laid emphasis on building space database and attribute database of mining and excavating when finished studied deeply s of setting up drawing element collection, and selected the best way, handle, to link them. At last, developed and realized the system with the drawing of mining and excavating project ichnography of mine using the calculation, showing and function of advanced computer high-level language and drawings function of AutoCAD. The system can contact with user through single and multi-plicate document’s windows, dialog box, and so on of VB and VBA. It developed and realized the working state visual management of mining and excavating system with integrated successfully geologic QR,-DK./D0ˆO˚ 11XYO;QRXYIJG HPAPijPLe1XYed;BPX YCgO;PQRS.DEFGKHI O;PQRSJKFOL MpqdSPNOPQRœDSSTUwxiyVPWX fi YZ[\Le Q]“ XYv˜]p9FqrswgO;PTUtuvw,x TU†›KXYyz{;QR Qj|w}K ˆ˜Bz{ ‘FGKO; QRSgO;QRKR.Hv O;TUDXYoO; XYK“e K 1.1.1 ŁOsK4s O Oi˚XYK“ł.O;XYeyQR O;MkgPvXY}‘Pe ˇˆ;PeNˆ;ijj{rˇ⁄ cvnƒvO;i˚XYK“ł.l.O; “;Fj|w‹›ij}‘wfi fl ˇo01v CAD –Nˆ ;†›⁄‡dO;b›ˇoSsl⁄ablfl ‚łNR„ CAD XYPj.v ‰GH 1. PXY. CAD \O;“ijgj|w‹ 4ijYGklˆe˜ˇˆ;ƒ;˘˚Le˙†›v˜0 xvł˚, 2. ˘˚; CAD “C˝˛łO;QRXYvHˇe YN“NKLMNg CAD “4ijv CAD “K 3. O;PXYBCDlwPTUKZ[ TUx˙Kx˜edTU8 ghTU’ˇdRuHv˘KŁh 4. O;CADlw ˇ“XYx›ŁŒ g2›l\dPeˇP STUKZ[TU‰e pYTU ‹ GIS “;˚ oO;pYTUXY‰1v łPeV CAD –‰2e6ı˜ v.sSez{KTUłXYpSSœDP 01˛CTUGHTUˇKY QTU 80ˇC 50mC0[1]TU YBCDVFCK 1j|BCDj|wdKY“1j|‘ RQz{j|“dNƒˇ6ˆ;fi fl YY LMK“[2,3]1j|BCDBz{Yj|wR RQz{.Bmj|wm}Tł F}Tz}TBgj|‘hK›}‘fi fl bcœ j|{6 1j|BCDp1j| Kqs1j|K‚ˆ˜„De1ve“ QœD[4] ; CAD m GIS ;BCD“XYvB{ BCD“ˇcTUKTUD .;QRPBCD“;vXYe“, BCD“QRXYNdoa QR PQRBCDXYGHPj }ijOWX}‘V ;Y›Fˆ;2„{ AutoCAD CNˆ˜4FO;4ij KCSJCAD v eij 44eK[eijK}vłO; GIS pqrs }XYK‚TULeˇ\a›ŒGIS PXYLel 3. PXYBCDKfi fl C†TU I\zTUfi “\O;XYvv .u[19,20]łO;PQRSXYLev 1.3 1.3.1 AutoCAD CADComputer Aided Design’j|w‹ij“} 30 2ˇijdz{“y joFdz{mfi “ R\dYN4V 234–f\4i˚CNˆ;Fs234v FTU“Z‹pYTUvwxiySSdYwSıvsl \r˜}‘ .*/ †›PdF‡Fb† O;dXYG”Pd’›⁄› ⁄v łLy†›PdˇXYQRP Z[TUdTUpq˛rs˛ijdCNZZ ’łgTUˆ;†fl SFO; PXYR„D1DDKBCDO;PBCDXYvSIJˇOpqOL MKwDłO;tuOPOLMwxiy}zS ‹gO;QRXYij˘˚}‘VWPd{ dˇLyKIvHa˚TUB9ODg4KLSDbc4nOPefgh VQo4t*qs 2.2.4 GIS 6789; _DQ‘abM-ZF4‘S,6ı-ZF’N 0fl RZ3/,coR˘cv4AB⁄,Kˆr˜YgYG9Fa .Dbc.*8RqsBł cMˆ;4 cU.„4oV cdM_d 2-1 Fig.2-1 The structure frame of prototype efgh“o.ƒ0fl v Kj|ghGHpONXłMrı.ƒ Odo{pqvQFœdKS. \œQPˆ;O;PSłVœDdOs œDPv;BY0ZœD}sZœDnƒ œD[PXYv\ˇF\œZxpqKPTU XYLyGH}‘ed[eded\adyˇˆ;XY 0gPQRSBCDXYHd CłVœD }‘N GIS 4LMklO;PQRSBCDXYXY.\œKłYZPijj›rsT UKTUH.d‚Kz{‚0fl _m2 d‚d Fig.2-2 The ination system constitutes of mine fi fl |K*z{XYgPz{‘⁄ab cK„”XYPXYłddQo‘uH˘ PdghQPQRSmd01TUPTU * ,-. /012 3456 789 ; 9 sTU01z{ nƒz{o†›ŁHgO;vłVˆ;H{/rsłV⁄,pqrs˛ ;Bpq˛e˚BnO;PQRXYHIJ “ Fig.2-3 The ination system constitutes on geology and survey of mine PpqTUGH;pYPgfi hifi Op fi pq_fi OOqOjD\fi Ok”lm*0O nfi O2’tuX;BY‡TU PopTU01TU PpqTUBCDnƒpq rsTU}‘z{DoTUKTU{ dKFgˆ;q pqrsTUIJ 2-3 ,* - AB ,CDE FGHGAI JKLMN 34JKOP ,QR ,QR ,ST AUV WXAY Z[ 34\ ]LB _‘ ab cdD e5,D A “ Fig.2-3 The ination system constitutes on geology and survey of mine 2.3.2 ; GH I2EFFGO vePtuK01rsPTUvo PˆLy0LyvtuPˆKLPˆˆwKRj|01 {nƒIJ{›ZPjtu0XYiy\K ;txC Ove;“pe‚gvXy Ovˆ;;BXYTUIJjklGHve tœfl veKVewzOKLqn{dyˆ| }Onfl oRKOTUIJ rsfl kkl7tuœxS˝˛|W rs|rsrsTUGHrstKœrsvXq rsVewz0Ly “,ABCDE FG;O “0PQ “RS TU;0VWXYZ[2\]_7 “RS.‘abcdefg“hi0jk0li0m 0\nmopqr20mst-uvwxyz{;cdfgL“0 } op “*P0;RS 2-5 7 2.3.4 ;RS‘a000FAB7;w ;L“⁄/;Hxy;ƒD 1;“‹7FG›HIfi JK0HIfl xy–†1;‡O-1RS1G‚7 1G‚.‘abc„1”0„‰‘a. 1ˆ0“w˜;˘˙˘“RS˚˝Un˛ tˇ}71;RS 2-6 7 ./012 Fig.2-5 The ination system constitutes on machine and electricity of mine ,/ uu k“/ 3 ,QR ,/Y , uY u u_RS A12 uZ / h/ mN L ;12 3Y l“⁄Z ,QR Y W’opUV ,QR A/ A/UV W’opUV W’opUV “/Y l“⁄Z W’opUV 34567 Fig.2-6 The ination system constitutes on ventilation and security of mine ƒ a ,QR opN ƒ “ aUV W’ j‹ /sj‹ jk ›fi