SU1317128A1 - Method of mining thick ore deposits - Google Patents

Abstract

The invention relates to the mining industry and can be used in underground mining of powerful ore deposits with the laying of the developed space with a hardening mixture. The purpose of the invention is to increase the safety of work and reduce the cost of mining ore in conditions of complex hypsometry of the roof of the deposit. Ore deposits 1 are deposited in a descending or ascending order, or a combination of these methods. As the protective overwork of the roofing layer proceeds, the primary 3 and secondary 2 parallel parallel workings pass in pairs, leaving the pillars 4 in between. After one of the workings is drilled from it, a well is drilled in contact with the ore and rock parts of pillar 4 until it is connected to the side of the next mine. The boreholes 10 are laid in the wells, which are connected to the rods 9. A primary support step 8 is formed in the secondary generation board 2, which is formed by blasting. On the basis of the primary 3 and secondary 2 workings, a safety bed 11 is formed, and then the rear pillar 4 is decomposed 4. Before laying the primary 3 and secondary 2 workings, reinforcing elements are placed in them. (L 11 figure 1

Description

In the process of laying secondary production 2, the primary step 8 is silted. After the advanced development of the underlaying layer, the ore part of pillar 4 is successively removed along with the extraction of the main ore reserves. When maintaining the clearing recess, a secondary support step is formed.

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The invention relates to mining operations and can be used in the underground mining of powerful ore deposits with the laying of the developed space with a hardening mixture.

The purpose of the invention is to improve the safety of work and reduce the cost of mining ore under conditions of a well-built hypsometry of the roof of the deposit.

FIG. 1 shows the mining of the ore deposit in downward order; figure 2 - the initial stage of treatment works.

According to the contact of the ore deposit 1 with overlying rocks, the secondary 2 and primary 3 advanced parallel discharge workings were passed, leaving the pillars 4 between the lows, the width of which is equal to the width of the clearing workings 5 and 6. Secondary advanced development 2 is passed through contact with the laying of the previously passed pedic 7 and is made with a gtermic support step 8. Other rocks are reinforced with rods 9 and st. 10. On the soil of primary and secondary workings a layer of safety deposit 1I from ore melt has been formed. Under the laying of workings 7, a secondary fixed step 12 is made. The developed space is filled with a solid mixture 13.

The method is carried out in the following manner.

Ore deposit 1 is worked by layers in iffl or descending order or by combining these development methods. As the protective layer of the roofing layer undergoes protection, primary 3 and secondary 2 preparatory parallel workings pass in pairs.

12, It is filled in the bedding 1I with a height equal to the height of the bedding layer in the advance working. The filling of the ledges 8j 12 with a hardening mixture is carried out together with the laying of the workings of the second stage and the nogle layer adjacent to the first stage. 2 Il.

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leaving the rear sight 4 between them, the width of which is equal to the width of the clearing workings 5 and 6. Secondary leading workings 2 pass through contact with the hardened mixture of leading workings 7, which is formed after laying the primary leading workings 3, After the completion of penetration of one of the advancing workings from it drill the well through the contact of the ore and rock parts of the pillar 4 until it is connected with the board of the adjacent mine, and then they are laid in the obtained wells of the string 10, which are connected to the rods 9 fixed in the overlapping In the board of the secondary advanced development 2 along its entire length, the supporting support step 8, which is recessed into the ore part of the rear sight 4 and directed towards the expansion of the front, is formed by explosive works. After that, on the basis of the primary 3 and secondary 2 advanced workings, a layer of the necessary height of the safety support is formed from the P5-one fines, and then the ore part of the rear pillar 4 is decompressed. Before the primary 3 and secondary 2 workings in them, reinforcing elements that increase the stability of exposures of the hardened mixture. The primary support step 8 is silted in the process of laying secondary advanced production 2. After the advanced protective overtime of the under-roofing layer, the ore part 4 of the rear section 4 is sequentially excavated together with the extraction of the main ore reserves. When maintaining the clearing recess 5, a secondary bearing step 12 is formed under the backfilling base.

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the tone of the primary leading development, in contact with the pledged secondary production 2, in which the primary support step 8 is made. The secondary reference step I2 is performed in a safety bed 11 with a height equal to the height of the bedding layer in the advance workings. When moving the clearing front, the voids formed together with step 12 are hardened with a mixture 13. Secondary support step 12 is retained in the clearing workings 6, which supports the reinforced flat roof when it is exposed, eliminating the possibility of accumulation of unbroken ores .

Claims (1)

Invention Formula The method of developing powerful ore deposits, including penetration of the contact of ore and overburden of advanced discharging parallel workings, the formation of ore pillars between them, strengthening of overburden rocks with rods in the roof and strapping between the workings, decompression of ore pillars, installation of rebar in fO 71 5 -5 0 five 284 propelling excavations from the destroyed rock mass in the soil of these workings and laying them with hardening mixtures, extracting the main ore reserves by layers, excavating the pillars together with extracting the main reserves and laying the developed space with hardening mixtures, characterized in that the goal of improving work safety and reducing the cost of mining ore in conditions of complex hypsometry of the roof of the deposit, the discharge workings are paired in the first and second turn in the workings The second queue from the side of the ore massif over the safety cushion is used to design the support ledge, and in the workings of the first stage the support ledge is formed in the safety cushion when extracting the main ore reserves in the adjacent lower layer, while filling the ledges with hardening mixture together with laying the flow of the queue and the underlying layer adjacent to the development of the first stage. Editor M. Tsitkina cfJuff.Z. Compiled by "Cherkashenin" Tehred A.Kravchuk Proofreader V, But ha / Order 2401/28 Circulation 454Subscription BNIIPI USSR State Committee for inventions and discoveries, 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4