SU1025887A1 - Method of repeated working of mineral deposits - Google Patents

Abstract

METHOD OF REPEATED DEVELOPMENT OF MINERAL DEPOSITS, including excavation of rocks by ledges from top to bottom along the recumbent side of the ore formation with the formation of 6efM, excavation of rocks by ledges by hanging of the ore formation and extraction of the previously mineralized, it was different. development efficiency by increasing the completeness of the excavation of minerals and expanding the field of application to gentle and sloping deposits, previously exhausted by the chamber-and-pillar system, along recumbent The side of the ore bed passes the first trench and its side opens the previously spent chambers with abandoned celles, forms the berm of the first ledge / across the ore stratum and raises the overburden over the first row, the destroyed overburden is thrown into the previously spent chambers and the berm of the first ledge with the subsequent leveling of the said rocks in the direction of the previously spent chambers from “to the level of the trench bottom, then dig the previously left pillars, blow them up and remove The broken ore, after which the next trench is passed and the operations are repeated in the specified sequence.

Description

V The invention relates to mining industries and can be used in the reprocessing of previously lost ores. There is a known method of redevelopment of mineral deposits, fossil deposits, including trenching beyond the boundaries of the influence of open-pit mine workings, drilling and seizure of mineral resources, scraping of rock and ore deposits in these trenches. The disadvantages of the method are low productivity and limited scope. The closest to the proposed technical essence and the achieved result is a method of repeated mining of mineral deposits, which includes excavation of rocks by ledges from top to bottom along the recumbent side of the ore formation with the formation of berms, excavation of rocks by hanging of the manual formation and mining previously left in the pillars of useful my 2. The disadvantages of this method. There are low development efficiencies due to insufficient excavation, as well as limited scope. The purpose of the invention is to increase the efficiency of development by increasing the completeness of the excavation of minerals and expanding the field of application to flat and sloping bases, which were previously worked out by camera-like system. The goal is achieved by the fact that in the known method of re-mining of mineral deposits, including excavation of rocks by ledges from top to bottom along the recumbent side of the ore formation with the formation of berms, excavation of rocks is by descending along the hanging side of the ore plate and mining previously left in mineral fossils. , on the recumbent side of the ore formation, pass the first trench and with its side open the previously spent chambers with left pillars, form the berm of the first ledge, across the wall of the ore formation they grind rocks over the first row of pillars and with a directional explosion they throw the destroyed overburden into previously worked / chambers and onto the first scarp, followed by equalizing these rocks in the previously drilled chambers to the bottom of the trench, then drilling the previously left pillars , explode them and remove the broken ore, after which the next trench is passed and the operations in the sequence are repeated. Figure 1-6 shows the sequence of steps for the formation of a step and the extraction of the pillars of the first row; FIG. 7 shows the formation of two ledges and the extraction of pillars of the first row from them, as well as the preliminary excavation of overburden rocks; on Fig - execution of the berm of loosened rocks. In Figures 1-8, the rolling side 1 of the reservoir, the first trench, the bead 3 of the trench 2, the opening of the chamber 4 of the berm 5 of the trench 2, the borehole 6 drilled in the overburden 7, the first row of pillars 8, the pile 9 from the side of the fall 10 and by strikes, wells 12 in pillars 8, broken ore 13, follower, trench 14 with berm 15, follow up of a series of pillars 16, safe depth 17 in overburden, berm trenches from destroyed rocks 18. The method is carried out in the following sequence operations. On the recumbent side 1- deposits, mainly along its strike, pass the first trench 2, which side 3 opens the chambers 4, which were worked out earlier by the underground method, and form a berm 5 of the first scarp. For overburden 7 across the strike of the reservoir over the first row of pillars 8, wells 6 are blown. They charge explosives and throw the said breed 7 into the spent chambers 4 and the berm 5 of the trench, which is leveled towards the chambers. 4 to the level of the bottom of the trench 2, thereby increasing the bulk 9 of the pillars 8 from the side of the fall 10 and the strike of the 11th deposit. Then in the pillars 8 of the drill hole 12, explode the explosive charges in them, destroy the solidity of the pillars 8 and remove the broken ore 13. After this, the next trench 14 is passed, they form the berm 15 of the jutting ledge and repeat the operations listed above in a similar sequence for following rows of pillars 16. In the case of a large debris or a sloping fall of a deposit from each trench 2, only part of the gas 8 is reworked, until it is removed during the passage of the next trenches 14. With a relatively deep depth of the chambers 4, I open up the surface sposogili known to the safe depth 17, which are seeded in the extraction of pillars, tsazannoy above sequence.

At significant angles papa. Research institutes of berm 5 trench 2 are made of loosened overburden.

The proposed method will ensure the completeness of excavation of previously abandoned reserves, including in the development and in the construction of half and inclined shears.

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Claims (1)

METHOD FOR REPEATING DEPOSITS OF USEFUL FOSSILS, including excavation of rocks with ledges from top to bottom along the lying side of the ore bed with the formation of berms, excavation of rocks with ledges along the hanging side of the ore bed and mining of minerals previously stopped in the pillars, which differs from development efficiency 'by increasing the completeness of the extraction of minerals and expanding the scope of application to gentle and inclined deposits previously worked out by the chamber-pillar system, according to the recumbent the first trench passes near the ore formation and its previously worked chambers with left pillars are opened on its side, form a berm of the first ledge, across the strike of the ore bed, overburden is drilled over the first row, a completely directed explosion throws the destroyed overburden into previously worked out chambers and onto the first step ledge with subsequent leveling of these rocks in the direction of the previously worked chambers to the level of the bottom of the trench, then the previously left pillars are drilled, blown up and the beaten ore removed, p What follows next are the trench and the operation is repeated in sequence.