SU1078072A1 - Method of working steeply sloping medium-thick ore bodies - Google Patents

Abstract

METHOD FOR DEVELOPING steep ORE TEL AVERAGE POWER comprising holding rising and horizontal threaded and preparatory ore and field workings recess ore chambers which substage displaced relative to each other by half the chamber width, form 1 vanie in overlying chambers trench dnip1a which sloping walls is the roof of the underlying chambers, the drilling of blastholes, the breaking of ore with vertical layers on the cutting gap, the release of ore and the laying of the developed space with hardening sm characterized in that, in order to reduce the dilution of the ore by the host rocks by reducing the outcrop of the rocks, the ore is dredged in the chambers along the strike, the overlying chambers and the underlying chambers are located within the same substage, the cut-off slots of the overlying chambers are formed to the full height of the substage, and the lower chambers - to their roof, the ore is released from the lower chambers partially on the lower subtal, while the ore is removed from the lower chamber (L measures are carried out after mining and laying two adjacent leaches x chambers, and simultaneously with the laying of the underlying chamber, a rising subscript of the underlying substage is laid to the roof of the underlying camera on this substage. // 00 about ND (Put. /

Description

The invention relates to the mining industry and can be used in the underground mining of steep fall and medium thickness ore bodies with interfering rocks of medium stability. There is a method of developing steeply dipping ore bodies, in which ore fought off in the chamber is stored with a simultaneous partial release of said ore, while the upper sub-floor is beaten off to an open treatment space, and the lower sub-floor to the magnetized ore, and through the duchka located in the center of the chamber, produce a magnetized ore. ore to the lower substage, after which a hardening mixture is fed into the chamber to the slopes of broken ore left in the chamber, which are released during the development of the underlying floor 1. The disadvantage of this method Is a large outcrop of host rocks, the dilution of the ore by the breaking rocks and backfill material. The closest in technical essence and the achieved result to the invention is the method of developing cool. Medium power falling ore bodies, including carrying out rising and horizontal rifled and preparatory ore and field workings, ore excavation by chambers, which in the sub-floor shift relative to each other by half the chamber width, the formation in the overlying chambers of the trench bottom, the sloping walls of which are the roof of the underlying chambers , blast hole drilling, ore blasting with vertical layers on the cutting gap, ore production and laying of the mined-out space with hardening mixtures 2. The disadvantage of the known The method is a relatively high dilution of ore by interfering rocks in connection with the formation of large areas of rock outcrop. The purpose of the invention is to reduce the dilution of the ore by the host rocks by reducing the area of the outcrop of the rocks. The goal is achieved by the fact that, according to the method of developing steeply dipping ore bodies of average power, including carrying out rising and horizontal rifled and preparatory ore and field workings, ore extraction by chambers that in the substage are offset relative to each other by half the width of the chamber, the trench bottom in overlying chambers The sloping walls of which are the roof of the underlying chambers, the drilling of blast holes, the breaking of ore with vertical layers on the cutting slot, the release of ore and the laying of The developed space is hardening mixtures, the ore in the chambers is carried out along strike, the overlying and lowering chambers are placed within one substage, the cutting slots of the overlying chambers are formed to the entire height of the subgrade, and the lowering chambers are up to their roof, ore is discharged from the underlying chambers partially after the mining and laying of two adjacent overlying chambers, and simultaneously with the laying of the underlying chamber, a rising below the sub-floor to the roof of the lower chamber on this sub-floor. FIG. 1 shows a cut along the strike of a reservoir; in fig. 2 shows section A-A in FIG. one; in fig. 3 shows a section BB in FIG. one; in fig. 4 shows a section B-B in FIG. one; in fig. 5.- section GGD in FIG. 1. In FIG. I-5 depicts: field transport drift 1, field sublevel transport drift 2, field ventilating drift drift 3, ore delivery and boring drift 4 of the main horizon, ore sublevel shipping and drill shchtrek 5, ore filling gauge and vent and drilling drift 6 , delivery trucks 7, ventilation and stowing 8, cutting off 9, cutting off the slit 10, upper chambers 11, lower chambers 12, blast holes 13, mobile formwork 14 to form workings in the tab, lintels 15, loading and delivery machines 16, ore landing 17, tab 18, broken line, denoting the boundary between the upper and lower chambers 19. The mining of ore reserves on the horizon begins with the fact that, when designing, the floor is divided into sub-floors, which, in turn, are divided by height into two equal parts by a broken line. The corners of this line are designed to be equal to each other and are determined on the basis of the condition of gravity delivery of ore from the upper chambers to the loading horizon. The broken line is positioned so that the vertices of its corners do not reach the horizon marks of at least 5 m, i.e. so that the contours of the chambers having the shape of rectangular pentagons whose acute angles in the upper and lower chambers can be positioned above and below it. lie on the broken line and are directed opposite to each other. The preparation of the floor in the clearing recess, the breaking down and the production of ore, the laying of the goaf, is performed as follows. Field haulage trails 1 and 2, which are upholstered in between

a distance equal to the length of the optimal delivery of the river by self-propelled loading and hauling machines. For ventilation and laying of backfilling pipelines, the field stowing and ventilation drift passes 3. In the center of the ore body, ore drifts pass through all horizons: delivery-boring 4 and 5 and ventilation-stowing and simultaneously drilling drift 6. Ore and field drifts beat off delivery ports 7, traversed in the center of the chambers to the border of the ore body at the site.

From the delivery units 7, for cutting ore in the chambers, cutting rebellious 9 pass, which, when excavating ore from the upper chambers 11, are cut into a cutting shell 10 for the entire height of the sub-floor, and when excavating, the ore from the lower chambers 12 is cut only by the height of the chamber, and the upper part Passed on tab 18, serves as a vent-stopper, 8.

The drilling of blastholes 13 is carried out from ore delivery lines 4-6, which also serve as drilling.

Initially, several upper chambers 11 are mined and mortgaged. The blast holes 13 are then drilled from drift 6 to the lower boundary of the chamber and blown onto cut-off shells 10, through which the ore hits the loading horizon. The loading of ore is carried out by loading and delivering self-propelled machines 16 of delivery lines and ortes. The ore is delivered to the ore passes 17, through which it is transferred to the accumulating horizon.

At the end of the blasting and the release of ore from the upper chamber at the approaches to the cutting shaft. The workings install bridges 15 and the chamber together with the cutting slot lay a hardening mixture. After hardening the laying of lintel 15 on the ore drift is removed and in the concrete wall the excavation is carried out with a cross-section equal in area to the drift cross-section for ventilation and passage of equipment.

After the two adjacent upper chambers are worked out and laid down, they work out the lower chamber under them. The wells are drilled from the ore drift 5 to the upper boundary of the chamber and blown to the cutting slot. In order to intensify the release of ore from the lower chamber, part of it is transferred to the underlying subsurface along the cutting-off ascending 9, passed in the lower chamber of the underlying substage.

0 For full shipment of broken ore from chambers 12, self-propelled loading and hauling machines 16 are used with remote control with the ability to work in an open-air cleaning area.

As the ore is released from the lower chamber, the ore level in the ascending cutting 9 is maintained at the soil level of the chamber. After the ore is completely shipped from the lower chamber, the mobile formwork 14 is brought into it to form the workings in the laying, it is reinforced and, along the ventilation and mounting station 8, a tab 18 is fed into the chamber. Before the tab is fed into the chamber, part of the ore from the cutting 9 rising to the upper boundary the lower chamber of the underlying substage is released, and in its place serves tab. After hardening the bookmark, the remaining ore from the riser is released, and the mobile formwork is moved to the next chamber.

With the decline in ore mining

0 downstream horizon The pit openings of the overlying horizon serve as ventilation openings for the underlying horizon. Downhole wells are drilled for mining the upper chambers of the substage produced from ventilation 5 stowing bridges formed in the bookmark, and drilling of the ascending wells for mining the lower chambers are produced from the haul drifts of the substage.

The use of the invention allows

Q to increase the efficiency of application of development systems with a bookmark in the development of ore bodies with interfering rocks of medium stability.

Claims (1)

METHOD FOR THE DEVELOPMENT OF CROSS-OPERATING ORE BODIES OF MEDIUM POWER, including conducting uprising and horizontal rifled and preparatory ore and field workings, ore excavation by cameras, which in the sub-floor are displaced relative to each other by half the width of the chamber, the formation of which in the overlying chambers is the trench of the bottom wall the roof of the underlying chambers, drilling of blast holes, ore breaking in vertical layers to a cutting gap, ore production and laying of the worked-out space with hardening mixtures, fine characterized in that, in order to reduce ore dilution by host rocks by reducing the area of rock exposure, the ore is excavated in chambers along the strike, the overlying and underlying chambers are placed within one sub-floor, the cutting slots of the overlying chambers are formed to the entire height of the sub-floor, and the underlying chambers are before their roofing, the release of ore from the underlying chambers is partially carried out on the lower floor, while the extraction of ore from the underlying chamber is carried out after mining and laying two adjacent overlying chambers, and one TERM with laying underlying chamber lay revolting substage underlying roofing to the underlying chamber in this substage. SB with 1078Θ72