SU785493A1 - Method of mining thick ore deposits - Google Patents

Description

The invention relates to the mining industry and can be used in the development of powerful ore deposits by underground mining.

There is a method of developing powerful ore deposits by a sub-floor collapse ⁵ using flexible overlapping, breaking the ore with deep wells and a face) by releasing the ore from the sub-floor workings in a checkerboard pattern. ¹⁰

However, this method does not provide uniform descent of the floor for the reason that between the transport workings; ' located on one horizon, the broken ore remains in the form of ridges [1].

Further known method for developing powerful ore deposits sublevel caving 'using flexible pe- _m overlap of ore comprising breaking of rising fans deep wells drilled from the end face workings and dostavochnogburovyh release PQ ore.

However, with this method, there remains the possibility of discontinuities in the flexibility of the flexible floor due to the large span of the flexible floor at height.

The aim of the present invention is to remedy these disadvantages.

This goal is achieved by the fact that after the release of the next layer of jack ore in the section, the pillars are beaten between the delivery-drilling workings with the leveling of the beaten ore by blasting holes in the specified / pillars drilled in parallel with the delivery-drilling workings.

In FIG. 1 shows a section through a treatment block across the strike of an ore deposit; in FIG. 2 is a section AA of FIG. 1.

The method is as follows. Before the start of the cleaning work, the flexible floor 1 is laid in the block, for which a contact layer is formed, consisting of a horizontal part (not shown in the drawing) and an inclined part 2 in contact with the hanging side (the inclined part of the contact layer is shown filled with crushed rock in the drawing).

The block is prepared for treatment by a field uprising 3 and 4, which are held on its flanks from the lower ₅ to the upper retreat horizons. One of them is used for ventilation, passage of people, descent and lifting of materials and equipment, the second - for bypassing the ruy. 10

The ore body is divided into sub-floors by transport drifts 5, which on the flanks are connected by inclined faults 6 with field insurrections 3 and 4. From the sub-floor drifts 5, delivery-boring (unit 7 of the entire ore capacity bodies to the floor plane 1 and connect them together with ventilation workings 8. jo

The developed block along strike is conditionally divided into two parts, each of which consists of three panels. After the panels of one part are worked out, the treatment works begin in another. Excavation of the floors is carried out in the direction from the hanging to the lying side. Cleaning work in the sub-floor - is carried out simultaneously in three panels by blasting sections of two or three ascending half-fans of squared _3Q jins 9 drilled from the unit vectors 7. The beaten ore is delivered to failures 6 by the delivery-boring unit and transport drift and is transferred to the retreat horizon.

The pillars remaining after breaking: between the delivery-boring orts 7 with the beaten unreached ore in the form of ridges located on them, they are destroyed by blasting sections of the wells 10 within the previously exploded section (the wells 10 are pre-drilled on ventilation 8 and transport 5 workings parallel to the delivery-boring orts 7 )

To level the crests of the beaten ore at the site of the former ventilation openings 8, the explosive charges are blown into the tubes 11 located in them in advance, which connect the ends of the wells 10 that reach the workings 8. As a result, the ore of the crest and pillar are evenly distributed over the bottom of the subfloor worked out under flexible overlap. . At the same time, the number of overlap bends 1 and its overall performance are reduced, which reduces the likelihood of accidents and increases the operational reliability of treatment works.

Claims (2)

The 378 part of the x intact layer is shown as filled rock. The block is prepared for clearing a recess by field rebels 3 and 4, which pass on its flanks from the bottom to the upper haulage horizons. One of them serves for ventilation, passage of people, lowering and lifting of materials and equipment, the second for the transfer of ore. The ore body is divided into sub-floors by transport drifts 5, which on the flanks are connected by oblique connection: Mi 6 with field rebels 3 and 4. From: the sub-floor drifts 5 through 8-10 m (panel width) pass through the delivery-boring: Stages 7 for the entire power of the ore body to the plane of the overlap 1 and connect them; between them, the ventilator and the diurnal block in the processing unit, along stretch, is conventionally divided into two parts, each of which consists of three panels. After the panels are worked out in one part, the cleaning works begin in another. Excavation of the sub-floors leads from the direction of which to the recumbent side. Clearing works in the sub-floor — they are conducted simultaneously in three panels by snapping sections from two to three ascending half logs of wells 9, drilled from orts 7. The ore is beaten down through the accessory drilling bits and the transport drift is delivered to the dumps 6 and skipped over rising on the horizon. The pillars remaining after blasting between delivery and drilling ports 7 with riddled uncontaminated ore in the form of crests are destroyed by blasting sections of wells Yu within the previously blown section {well Yu drills tentatively on vent 8 delivery and drilling systems 7). In order to level the ridges of broken ore at the site of the former ventilation workings 8, explosive charges of explosives are blown up in the tubes 11 placed in them, which connect the ends of the boreholes 10 extending into the workings 8. As a result, the ore ridge and pillars are evenly distributed along the sole spent under flexible overlap substage. This reduces the number of kinks overlap 1, its overall performance, which reduces the likelihood of accidents and increases the operational reliability of the cleaning operation. Claims of the Invention The development of powerful ruts in the sublevel collapse using flexible overlap, including the breaking of ore by ascending fans of deep wells drilled from delivery and drilling workings and end ore outflow, characterized in that, in order to reduce the possibility of breaking the continuity of the flexible overlap , after the release of the next layer of broken ore in the section, beat the pillars between the delivery and drilling workings with the leveling of the broken ore by blasting a hole in the specified pillars, drilling Mykh parallel haul-drilling workings. Sources of information taken into account in the examination 1. Shestakov V. A, Rational schemes to the parameters of the bottoms of blocks with systems with massive collapse. - Workshop meetings on one-stage excavation in powerful ore deposits. M ,, Nedra, 1967, p. 163-171. 2. USSR author's certificate No. 576415, class, E 21 C 41/06, 1974, 7 V YU 01 / 8.2