文(wen)章來(lai)源:中國(guo)中煤(mei)能源集(ji)團公司 發布時間(jian):2018-02-21
中(zhong)煤(mei)集(ji)團新集(ji)公司通(tong)過(guo)鉆(zhan)(zhan)研(yan),基于AutoCad軟件(jian)(jian)進行二次開發(fa),在原軟件(jian)(jian)僅(jin)能繪制(zhi)鉆(zhan)(zhan)孔(kong)圖的(de)基礎上,升級成(cheng)能自(zi)動(dong)繪制(zhi)集(ji)鉆(zhan)(zhan)孔(kong)及其確定(ding)的(de)煤(mei)層面(mian)于一(yi)體(ti)的(de)三維(wei)立體(ti)圖,成(cheng)功應用信(xin)息化(hua)技術(shu)加(jia)快了數字化(hua)礦山(shan)建設。
一是(shi)三維(wei)效(xiao)果(guo)直觀(guan)。通(tong)過(guo)三維(wei)視(shi)圖(tu)命令,能直觀(guan)展示各個(ge)視(shi)角下鉆(zhan)(zhan)(zhan)(zhan)(zhan)(zhan)孔(kong)(kong)(kong)(kong)及煤(mei)(mei)層(ceng)(ceng)圖(tu)的(de)(de)立體效(xiao)果(guo);通(tong)過(guo)動(dong)態觀(guan)察命令,能觀(guan)察鉆(zhan)(zhan)(zhan)(zhan)(zhan)(zhan)孔(kong)(kong)(kong)(kong)及煤(mei)(mei)層(ceng)(ceng)圖(tu)的(de)(de)實(shi)體效(xiao)果(guo),彌補了(le)平面(mian)(mian)視(shi)圖(tu)需空間建(jian)模的(de)(de)不足,準(zhun)(zhun)確(que)率提升90%以(yi)上(shang)。二是(shi)制(zhi)(zhi)圖(tu)成果(guo)可(ke)靠。在反復驗算鉆(zhan)(zhan)(zhan)(zhan)(zhan)(zhan)探數(shu)據的(de)(de)基(ji)礎上(shang),多(duo)次優化“實(shi)際鉆(zhan)(zhan)(zhan)(zhan)(zhan)(zhan)孔(kong)(kong)(kong)(kong)參(can)數(shu)表”中(zhong)開孔(kong)(kong)(kong)(kong)位(wei)置、鉆(zhan)(zhan)(zhan)(zhan)(zhan)(zhan)孔(kong)(kong)(kong)(kong)方位(wei)、傾(qing)角、見煤(mei)(mei)孔(kong)(kong)(kong)(kong)深、穿(chuan)煤(mei)(mei)孔(kong)(kong)(kong)(kong)深、孔(kong)(kong)(kong)(kong)深等參(can)數(shu)后運行程序繪(hui)圖(tu),所繪(hui)制(zhi)(zhi)鉆(zhan)(zhan)(zhan)(zhan)(zhan)(zhan)孔(kong)(kong)(kong)(kong)的(de)(de)煤(mei)(mei)層(ceng)(ceng)頂底板三維(wei)曲面(mian)(mian)圖(tu)均(jun)與(yu)鉆(zhan)(zhan)(zhan)(zhan)(zhan)(zhan)孔(kong)(kong)(kong)(kong)參(can)數(shu)相(xiang)吻合,圖(tu)形準(zhun)(zhun)確(que)可(ke)靠,誤(wu)差為零(ling),較二維(wei)制(zhi)(zhi)圖(tu)質量有質的(de)(de)提升。三是(shi)軟件運用廣泛。新(xin)開發的(de)(de)制(zhi)(zhi)圖(tu)軟件適(shi)用于礦井瓦斯抽采(cai)鉆(zhan)(zhan)(zhan)(zhan)(zhan)(zhan)孔(kong)(kong)(kong)(kong)圖(tu)和地質探測鉆(zhan)(zhan)(zhan)(zhan)(zhan)(zhan)孔(kong)(kong)(kong)(kong)圖(tu),便于根據實(shi)際鉆(zhan)(zhan)(zhan)(zhan)(zhan)(zhan)孔(kong)(kong)(kong)(kong)參(can)數(shu)確(que)定鉆(zhan)(zhan)(zhan)(zhan)(zhan)(zhan)孔(kong)(kong)(kong)(kong)實(shi)際控制(zhi)(zhi)范圍、孔(kong)(kong)(kong)(kong)底間距、鉆(zhan)(zhan)(zhan)(zhan)(zhan)(zhan)孔(kong)(kong)(kong)(kong)布置均(jun)勻度,提高(gao)實(shi)際鉆(zhan)(zhan)(zhan)(zhan)(zhan)(zhan)孔(kong)(kong)(kong)(kong)與(yu)設(she)計鉆(zhan)(zhan)(zhan)(zhan)(zhan)(zhan)孔(kong)(kong)(kong)(kong)的(de)(de)相(xiang)似(si)度,優化鉆(zhan)(zhan)(zhan)(zhan)(zhan)(zhan)孔(kong)(kong)(kong)(kong)設(she)計,提供效(xiao)果(guo)考(kao)察依據;能夠根據多(duo)個(ge)鉆(zhan)(zhan)(zhan)(zhan)(zhan)(zhan)孔(kong)(kong)(kong)(kong)見煤(mei)(mei)巖情況,確(que)定煤(mei)(mei)層(ceng)(ceng)見煤(mei)(mei)、穿(chuan)煤(mei)(mei)曲面(mian)(mian)、煤(mei)(mei)層(ceng)(ceng)剖面(mian)(mian)煤(mei)(mei)厚、傾(qing)角等參(can)數(shu)以(yi)及斷(duan)層(ceng)(ceng)等構造參(can)數(shu),準(zhun)(zhun)確(que)指導采(cai)掘作業,減少誤(wu)差率85%以(yi)上(shang)。四是(shi)提高(gao)工作效(xiao)率。
新(xin)開發軟件的(de)突破(po),減少了繁(fan)瑣的(de)鉆(zhan)孔參數核算(suan)過程,解(jie)放了繁(fan)重的(de)手動(dong)繪(hui)圖工序(xu),突破(po)了二維視圖的(de)瓶頸,減少90%繪(hui)圖工作量,大幅(fu)提升(sheng)了工作效率。