1、z摘 要本次设计是以山西煤炭运销集团潘家窑煤业有限责任公司7#、9#号煤层为例进行矿井初步设计,7#煤层厚度平均为3.98m。本矿井设计年产量0.9Mt/a,服务年限99年,符合矿井设计相关规范,矿井属低瓦斯矿井。设计采用主立副立综合开拓方式,共开掘有两个进风井(主立井、副立井)和三个回风井。井田共分为4个带区,分别为1101、1102、1103、1104|带区。首采工作面位于1101带区,采用倾斜长壁大采高一次采全高后退式综合机械化采煤方法,矿井年工作日为300天,工作面实行“四六”制作业,三班生产,一班检修准备,日循环六刀,每班循环两刀。工作面长为250m,采用MG-300/730-WD
2、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。工作面支护方式为及时支护,采空区采用全部跨落法管理顶板。设计时尽可能采用先进的开采技术和设备,符合高产高效矿井的要求,矿井全部实现机械化。通过采用先进技术和借鉴已实现高产高效现代化矿井的经验,从而实现高产高效,达到良好的经济效益和社会效益。关键词:立井开拓;大采高;及时支护ABSTRACTThe design is based on the 7# and 9# coal seam of the Pan Jia kiln coal industry limited company of Shanxi c
3、oal transportation and marketing group as an example. The average thickness of the 7# coal seam is 3.98M. The mine design annual production 0.9Mt/a, service life of 99 years, in line with mine design specifications, mine belongs to low gas mine.The design adopts the main vertical and auxiliary compr
4、ehensive development method. There are two intake wells (main shaft, auxiliary shaft) and three return air wells. The minefield is divided into 4 zones, namely, 1101, 1102, 1103 and 1104| zones.The first working face is located in the 1101 zone, adopting a comprehensive mechanized coal mining method
5、 with long wall and large mining height, 300 days for the working day of the mine. The working face implements 46 production industry, three class production, one class maintenance preparation, daily circulation six knife, and two knife in each class cycle. Working face length is 250m, using MG-300/
6、730-WD shearer cutting, coal loading, scraper conveyor coal transportation way, and using timely support, shearer cutting coal method is the end of the inclined cutting tool, two-way coal cutting. The supporting method of working face is timely support, and the goaf adopts the whole span method to m
7、anage the roof.In the design, we should adopt advanced mining technology and equipment as far as possible and meet the requirements of high production and high efficiency mines. Through the use of advanced technology and the experience of realizing high productive and efficient modern mine, high pro
8、duction and high efficiency can be achieved, and good economic and social benefits are achieved.Key words:Vertical shaft opening;Large mining height;Timely support 目 录摘 要3ABSTRACT41 矿区概述及井田地质特征11.1矿区概述11.1.1地理位置11.1.2地形地貌21.1.3交通位置21.1.4水文条质41.1.5 气象与地震41.2井田地质构造51.2.1井田煤系地层51.2.2断层61.2.3岩溶、陷落柱和岩浆岩7
9、1.2.4褶曲71.2.5瓦斯.煤尘和自燃性及地温71.3煤层特征81.3.1煤层特征81.3.2煤层围岩特性91.3.3煤的特征91.3.4煤系与煤层112 井田境界和储量122.1井田概况122.1.1 井田划分的原则122.2矿井工业储量122.2.1资源/储量估算方法与有关参数的确定122.3矿井可采储量132.3.1矿井设计储量计算132.3.2矿井设计可采储量133 矿井工作制度、设计能力及服务年限143.1矿井工作制度143.2矿井设计生产能力及服务年限143.2.1矿井设计生产能力143.2.2设计生产能力及服务年限144 井田开拓174.1井田开拓的基本问题174.1.1井田
10、开拓方式的选择174.1.2矿井工业场地位置选择184.1.3开拓方案的选定184.2矿井基本巷道194.2.1井筒194.2.2井底车场的选择214.2.3硐室225 准备方式带区巷道布置235.1煤层地质特征7#235.2带区巷道布置及生产系统235.2.1.带区准备方式的确定235.2.3带区内巷道掘进方法245.2.4带区生产能力及采出率255.3 带区区车场选型设计266 采煤方法276.1采煤工作面工艺方式276.1.1采煤工艺方式的选择276.1.2回采工作面长度的确定276.1.3工作面的推进方向和推进度286.1.4综采工作面的设备选型及配套286.2采煤工艺方式306.2.
11、1采煤工艺306.2.2工作面支护方式与采空区的处理336.2.3工作面循环作业以及劳动组织336.2.4工作面正规循环作业生产能力346.3回采巷道的布置366.3.1回采巷道的准备方式带区式准备方式376.3.2带区煤层的地质特征377 井下运输387.1概述387.1.1矿井的设计生产能力以及工作制度387.2带区运输设备的选型387.2.1工作面及顺槽的运输设备选型397.2.2工作面运输设备运输能力验算397.3大巷的运输以及设备选择397.3.1移转载机以及破碎机的方式397.3.2井下运输系统和运输方式的确定397.3.3大巷的运输设备408 矿井提升418.1矿井提升的概述41
12、8.2主副井提升418.2.1主井提升418.2.2副井提升设备选型419 矿井安全技术439.1概况439.1.1瓦斯、煤尘、煤的自燃性分析以及地温分析439.2矿井通风系统选择449.2.1通风方式和通风系统449.2.3矿井通风方式的选择449.3安全灾害的预防措施459.3.1预防瓦斯和煤尘爆炸的措施459.3.2预防井下的火灾措施469.3.3防水的措施469.3.4自救器以及安全仪表配备469.3.5矿山的救护情况479.3.6其它注意事项47参考文献48致 谢491 矿区概述及井田地质特征1.1矿区概述1.1.1地理位置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
13、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表1-1 地理坐标表西安80坐标系(国家6带)坐标拐点编号XY拐点编号XY14419959.4919653716.6384420260.4919656712.6424419976.4919654716.6394421709.5019656688.6434418476.4819654741.64104421694.5019655780.6344418501.4919656241.64114422495.5019655767.6354418254.491965
14、6996.65124422468.5019654174.6264419594.4919657563.65134421468.4919654189.6374420274.5019657552.64144421460.4919653691.62北京54坐标系(国家6带)坐标拐点编号XY拐点编号XY14420006196537888442030719656784244200231965478894421756196567603441852319654813104421741196558524441854819656313114422542196558395441830119657068124422515196542466441964119657635134421515196542617442032119657624144421507196537631.1.2地形地貌本井田位于大同煤田西南部,尖口山西侧,属黄土高原丘陵区,地表大部分被黄土覆盖,植被稀少,仅在部分沟谷出露左云组、大同组地层,区内地形复杂,总体呈东北高,西南低的态势,区内最高点位于井田北东边界尖口山的西侧处,标高为1835m,最低点位于井田
