1、摘 要本次设计是对同煤集团潘家窑煤矿9#号煤层进行开采设计,煤层厚度平均为2.50m。本矿井设计年产量0.6Mt/a,服务年限57.2年,符合矿井设计相关规范,矿井属于高瓦斯矿井。设计采用斜井开拓方式,共开掘有三个井筒即主斜井、副斜井、回风井。主斜井采用带式输送机运输,承担运煤任务,副斜井采用单钩串车、架空乘人装置提升,承担运人、运料等任务;井下运煤采用带式运输机,辅助运输采用矿车。运输大巷及回风大巷布置在煤层中。井田共分为3个盘区。首采工作面位于201盘区,采用一次采全高后退式综合机械化采煤方法,矿井年工作日为330天,工作面实行“四、六”制作业形式,三班生产、一班检修准备,日循环六刀,每班
2、循环两刀。工作面长为140m,采用MG700-WD采煤机割、装煤,刮板输送机运煤的方式,并采用及时支护,采煤机割煤方式为端头斜切进刀,双向割煤。顶板管理采用全部垮落法.矿井采用中央并列式通风方式,机械抽出式通风方法,各采掘工作面实行局部通风机压入式通风,掘进工作面采用2K60-No23型局部通风机压入式通风,回采工作面采用U型通风,矿井全部实现机械化,并且制定了一系列防火、防瓦斯、防顶板的安全技术措施。本设计包含附图4张、章节8章、参考文献20篇。关键词:斜井开拓;综合机械化采煤;中央并列式通风ABSTRACTThe design is illustrated by the example o
3、f 9# coal seam of Datong Coal Mine Silaogo the average thickness of that is 2.50m. The annual output of this mine is 0.6Mt/a. The mine service-life is 57.2 years and it is a low gas mine and in accordance with relevant specification for mine design. The design is digging three shaft main shaft, auxi
4、liary shaft and a return air shaft by using the way of the main diagonal auxiliary inclented integrated development way. The main shaft adopts inclined belt to bear the task of transporting coal, and the auxiliary shaft uses the skin hook trained and aerial passenger device of indented shaft to hois
5、t pedestrian and material; the belt conveyor, and underground track tyred vehicle plays a supporting role. There are escarpment railway laneway and belt roadway along the floor of the coal seam, return airway along the floor of the coal seam. Mine is divided into there panels.The first mining face i
6、s located in the 201 panel that uses the method of bring back long wall mechanized coal mining, and the working day of this mine is 330 days. The working face implements the four sixth manufacturing, three classes achieve production, a class makes repair preparation. The length of working face is140
7、m. The MG700-WD coal mining machine ,cut, load, scraper conveyor coal, and the timely support. Cutting coal mining mathine is oblique infeed end, two-way cutting coal. Management uses the entire roof caving method; duo to the more rigid seam roof, caving it requires the use of compulsory measures to
8、 reduce Gob hanging exposed area. The mine ventilation is designed by central compound-like, every mining face is implemented parallel ventilation, the tunneling working surface use 2K60-No23 type local fan ventilation, and mining working face uses the type of U ventilation. To thesafety in producti
9、on of coal mine, mine all realize mechanization, and formulated a series of safety measures against fire, gas, preventing roof.The design include the 4, chater8, chapter 20 references.Key words: inclined shaft development; mechanized coal mining;central compound-like ventilation目 录1 井田概况及地质特征11.1 井田
10、概况11.1.1 井田位置及范围11.1.2交通位置21.2 矿井建设的资源条件21.2.1断层21.2.2岩溶、陷落柱和岩浆岩21.2.3煤层21.2.4煤质31.2.5水文地质51.2.6煤层顶底板条件62 井田储量和服务年限72.1矿井工业资源/储量72.1.1储量估算范围72.1.2 资源/储量估算方法与有关参数的确定72.1.3设计资源/储量估算结果72.1.4工业指标72.2矿井设计资源/储量82.2.1工业广场面积82.2.2 矿井设计资源/储量计算82.2.3矿井设计可采储量92.3 矿井工作制度、设计生产能力及服务年限92.3.1 矿井工作制度92.3.2 矿井设计生产能力的
11、确定92.3.3 矿井及水平服务年限的计算103 井田开拓113.1 井田开拓的基本问题113.2井田开拓方案的确定113.3 井筒布置133.3.1井筒位置的确定133.3.2井筒形式、数目、位置及用途133.3.3井筒特征133.4工业场地的位置163.5 矿井开拓巷道173.5.1 井底车场的选择173.5.2 主要巷道断面确定174 盘区巷道布置204.1.盘区位置及参数204.2盘区巷道布置及生产系统204.2.1盘区准备方式的确定204.2.2盘区巷道布置214.2.3首采盘区回采工作面接替顺序214.2.4 盘区车场形式选择214.2.5盘区生产系统214.2.6盘区生产能力及采
12、出率225 采煤方法255.1回采巷道布置255.1.1回采巷道布置方式255.1.2回采巷道参数255.2采煤方法的确定275.2.1采煤方法的选择275.2.2回采工作面长度的确定285.2.3工作面的推进方向和推进度285.2.4综采工作面的设备选型及配套285.3采煤工艺方式335.3.1采煤机进刀方式335.3.2工作面端头支护345.3.3循环图表、劳动组织、主要技术经济指标356 矿井通风及安全396.1矿井地质、开拓、开采概况396.1.1矿井地质概况396.1.2开拓方式396.1.3开采方法396.1.4变电所396.1.5工作制、人数396.2矿井通风系统的确定406.2
13、.1矿井通风系统的基本要求406.2.2矿井通风方式的选择406.2.3矿井通风方法的选择416.2.4盘区通风方式的确定426.3矿井风量计算426.3.1各用风地点的用风量和矿井总用风量426.3.2风量分配476.4矿井阻力计算486.4.1 矿井通风总阻力计算原则486.4.2 矿井通风阻力计算486.4.3矿井总风阻和等积孔496.5安全灾害的预防措施516.5.1预防瓦斯和煤尘爆炸的措施516.5.2防水措施517 矿井提升、运输和排水系统537.1.主副井提升设备选型537.1.1主井提升设备537.1.2副井提升机547.2主要巷道运输设备选择547.2.1运输大巷547.2.
14、2盘区运输设备选型及能力验算557.3大巷运输设备选择577.3.1主运输大巷设备选择577.3.2辅助运输大巷设备选择577.3.3运输设备能力验算607.4排水设备选型617.4.1 设备选型计算617.4.2 选择水泵617.4.3 管路的选择计算628 设计矿井基本技术指标63参考文献65致 谢661 井田概况及地质特征1.1 井田概况1.1.1 井田位置及范围山西煤炭运销集团潘家窑煤业有限责任公司位于位于大同市左云县城14km,马道头乡东北5km,行政区划隶属左云县马道头乡管辖,其地理坐标为:北纬:395302395521东经:11246171125032矿区范围14个拐点坐标为:西安80坐标系(国家6带)坐标拐点编号XY拐点编号XY14419959.4919653716.6384420260.4919656712.6424419976.4919654716.6394421709.5019656688.6434418476.4819654741.64104421694.5019655780.6344418501.4919656241.64114422495.5019655767.6354418254.4919656996.65124422468.5019654174.6264419594.4919657563.65134421468.
