SU863862A1 - Method of mining thick ore bodies - Google Patents

Description

(54) METHOD FOR DEVELOPING POWERFUL RUDNKB TELES

one

The invention relates to the mining industry and can be used in the underground mining of powerful ore bodies by a chamber system, leaving security (inter-chamber) pillars.

There is a known method for developing massive ore deposits by massive ore blasting by deep wells, which includes pre-cutting the ore body or its part to the entire height of the floor with gaps normal to the direction of the blasting to prevent the blast Q wave from spreading throughout the ore body and over-compaction of the ore 1.

The disadvantage of this method is the high seismic effect of an explosion on the security pillars with an increase in the power of the simultaneously explosive charge. The explosive is in the ore layer being blown away, which leads to the destruction of the security pillars. Pre-penetration of the gaps leads to premature weakening of the mountain massif and does not allow using the effect of shock wave blasting at the boundary of the chamber with guard pillars.

There is also known a method of developing powerful ore deposits with chambers, including cutting mineral layers into an open treatment space, leaving interchamber pillars, mixing the chamber with cutting slits, which are formed by drilling and exploding charges of explosives in deep wells, ahead of the cleaning hole in the chamber. 2. The disadvantage of this method is the premature weakening of the mountain massif in connection with the preliminary penetration of the cutting gaps on the border with pillars along the entire length of the chamber.

The purpose of the invention is to reduce the shock blast wave at the border of the camera with security pillars and to reduce the seismic effect of an explosion on them.

The goal is achieved by the fact that the cut-off slots form simultaneously with the breaking of ore in the chamber, ahead of the line of cleaning of the chamber by the thickness of the ore layer being beaten.

FIG. 1 shows a vertical section along the width of the block; in fig. 2 - the same, along the length of the block; in fig. 3 - plan of the drilling horizon.

The preparation of the block for the clearing recess consists in carrying out a field drift 1, from which the haulage dies 2, the household or numbered 3 and the ventilating and traveling riser 4 pass. The haulage dies 2 are knocked down by the air drift 5. - run-up rebels 6, exhaust niches 7, equipped with vibromechanisms, as well as receiving hoppers 8. From the home unit 3 there are material towers 9 and viewing 10 drifts. The following workings are made on the drilling horizons: household drift II, drilling ort 12, cutting edges 13. From the drilling ort 12, vertical fans of deep wells 14 are located at an angle to this area. Vertical contouring parallel bore holes 15 are drilled from the cutting bottoms 13 to form the cutting gap 16.

The cleaning works in the block begin with the formation of the chamber 17, in which they then form a wedge-shaped cleaning space 18, and along the edges of the chamber 17 on the border with the security pillars 19, the cutting-off slots 16 are cut by the thickness in the layer being removed. .

After-1st, separate layers of 20 explosive charges in chamber 17 are wired into the wedge-shaped cleaning space by 18 fans of deep wells 14. At the same time, along with the explosion of fans of deep wells 14, vertical delineating parallel wells 15 explode ahead of the recovered ore layer by its thickness. Thus, the cutting slit 16 is always ahead of the chest of the clearing slab 21 by the amount of the thickness of the ore being struck.

The application of the proposed method allows you to save without violation security

pillars and mining in them, and the ore reserves in these pillars to reduce.

The lag of the clearing bosom chest by the thickness of the ore shed from cutting gaps located along the edges of the chamber makes it possible to clearly preserve the contours of the cutting gaps and the outlines of the ore shed, which is very important when developing powerful ore bodies in conditions of high rock pressure.

Claims (2)

1. USSR Author's Certificate No. 232176, cl. E 21 C 41/06, 1968. 2. USSR author's certificate number 573976, cl. E 21 C 41/06.