SU1067214A1 - Method of working gently sloping deposits - Google Patents

Abstract

A METHOD FOR DEVELOPING FLAWLINES, including a continuous, stepwise extraction of ore in the panels, their division into sections, working out sections with cameras, isolating the spent chamber in section from depleted space, laying it with a backfill / / material and breaking off interchamber pillars, different; so that, in order to increase the development efficiency by reducing ore dilution with backfill material and improving the working conditions of downhole workers, after each two chambers are mined, the next chamber is worked out with the simultaneous laying of the first of the spent chambers and the breaking of interchamber pillars, which separate the pledged and developed space, makes the next chamber with the simultaneous laying of the previously worked out chamber adjacent to the left space (L then, after the strength of the backfill material was set, the interchamber pillars were bent and this sequence of operations was repeated. 05 th 4;: a Phage 1

Description

The invention relates to the mining industry and can be used in the underground mining of gently dipping powerful ore and nonmetallic deposits. There is a known method for developing a mineral birth site with MOHO bookmark, including the passage of field outposts, haulage and wind drifts and field ortho clearing recesses, carried out by solid slaughter, monolithic bookmark of the open space, insulated by portable formwork. Metal kills or mobile metal lining of HZ are used as lining. The disadvantages of this method are the large labor costs for clearing the pits, the large amount of preparatory-rifling works and the high cost of mining the ore due to the field preparation and the use of scraper delivery, portable formwork and metal lining, -. The closest to the proposed technical essence and the achieved result is a method of developing flat deposits, including a continuous step ore excavation in panels, their separation into sections, the sections being developed by chambers, the isolation of the spent chamber in the section from the developed space, its laying with a backfill material and breaking. between the chamber pillars 1121. The disadvantages of this method are low development efficiency of the deposit due to significant dilution of the ore backfill material and the long panel development time due to the successive clearing of the excavated space and poor working conditions associated with the formation of dead ends . The purpose of the invention is to increase the development efficiency by reducing the dilution of ore by filling material and improving the working conditions of the downhole workers. The goal is achieved by the fact that according to the method of developing flat deposits, including continuous stepwise excavation of ore in the panels, their division into sections, working out sections with chambers, isolating the spent chamber in the section from the developed space, laying it with a backfill, material, and inter-chamber delicates, in each section, after the two chambers are tested, the next sled chambers are tested with the simultaneous laying of the first of the spent chambers, and after curing the backfilling material and breaking between measuring pillars separating the pledged and developed space, the next chamber is tested with simultaneous laying of the pre-emptied chamber adjacent to the pledged space, then, after the strength of the backfill material has been cured, the inter-chamber pillars are broken and this sequence of operations is repeated. FIG. 1 shows the plan of the panel and the scheme of preparatory and rifled work; in fig. 2 shows section A-A in FIG. 1 / in FIG. 3 is a diagram of the panel in pernodo-, in FIG. 4 shows a section BB in FIG. 3, FIG. 5 shows a section B-B in FIG. 3, in FIG. 6 - section G-G.- in FIG. 3. The method of developing flat deposits is carried out as follows. Preparatory-rifled openings pass through, consisting of ventilation 1 and transport 2 drifts, panel 3 and split 4 orts forming panel 5, which is divided into sections 6. Above panel 5, backfilling excavations containing a drift 7 pass through roof rocks , ort 8 and wells 9 for feeding the filling material into the open space. The beginning of the excavation of stocks of the production of the split ort 4, then pass through the ventilation-trans-. tailors svyki 10, of which begin the excavation of adjacent chambers 11, between which form temporary interchamber pillars 12, and the chambers 11 in each section can be worked, if necessary, on two flank. Within the section, the deposit is treated with chambers 11 with the formation of intercameral ore pillars 12 in the developed space. Panel work out a solid stepdown. Each step is equal to the width of section b. In each section, one chamber is worked out first, then the next chamber and when the third chamber is worked out, the first of the listed chambers is laid. Thus, between the fulfilled and laid out chambers leave the chamber with the vyrabogannym and unencumbered space. Between the chambers, the interchamber pillars 12 themselves serve this purpose before starting the laying of chambers from the other chambers. The exhausted chambers also serve this purpose through the drift 7, ort 8 and the bore 9, After the mixture 14 is solidified, the inter-chamber pillars are completely removed, section pledged and developed space, nap | a) their explosion into the developed space. Then begin to work out a new camera while maintaining the sequence of operations.

The proposed method of developing flat deposits will improve the efficiency of deposit development by reducing ore losses in inter-chamber

pillars and combining the processes of cleaning and backfilling work and achieve a positive effect on improving the labor of downhole workers. .

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Claims (1)

METHOD FOR DEVELOPING SHALLOW DEPOSITS, including continuous stepwise excavation of ore in panels, dividing them into sections, mining sections by chambers, isolating the spent chamber in the section from the worked out space, filling it with filling material and breaking interchamber pillars, different; the fact that, in order to increase the efficiency of development by reducing ore dilution by filling material and improving working conditions of slaughter workers, in each section, after working off two chambers, the next chamber is worked out while the first of the worked chambers is laid, and after the strength of the filling material and breaking are set inter-chamber pillars separating the pledged and worked out space, perform ~ working out the next chamber with simultaneous filling of the previously worked-out camera, © adjacent to the closed space, _ and then, after curing zakla- L zling material produced otboy- ku interchamber C pillars and a sequence of operations is repeated. 2 106721