SU1659654A1 - Method of mining steep ore bodies - Google Patents

Abstract

The invention relates to the mining industry and m. used in the development of steeply dipping ore bodies of medium and low power. The purpose of the invention is to increase the extraction of pure ore and reduce the dilution of the ore mass. The ore body is divided into blocks along the strike. The block is tested by floor-forced collapse with ore release under an inclined floating ceiling (PP) 1. The angle of inclination of the PP 1 is equal to the angle of natural repose of the collapsed ore. In the process of discharging the ore from the block, remote control of the state of the PP 1 is carried out. movement of the uprising 8. For the preparation of

Description

The invention relates to the mining industry and can be used in the development of steeply dipping ore bodies of medium and low power,

The aim of the invention is to increase the extraction of pure ore and reduce the dilution of the extracted ore mass.

FIG. Figure 1 shows the projection of the block being processed onto the vertical plane from the side of the ore body lying; in fig. 2 shows section A-A in FIG. one; in fig. 3 - plan of the upper haulage horizon of the block being worked; in fig. 4 shows an electrical circuit switching circuit for remote control.

The method is carried out as follows.

Ore body along the strike, within the limits of the floor being worked out, is divided into refining blocks. The block is tested by a floor-compulsory collapse with the release of ore under the inclined floating ceiling 1 and simultaneous remote monitoring of its condition for the period of the clearing.

All work related to the preparatory inclined floating ceiling and the organization of remote monitoring of its condition for the period of the block working out are carried out simultaneously with the cutting work in the block. The thickness of the inclined floating ceiling is determined by known methods for determining the allowable dimensions of outcrops and pillars. The angle of inclination of the floating ceiling is assumed to be equal to the angle of repose of the collapsed ore.

The preparation of an inclined floating ceiling and a system for remote monitoring of its condition is carried out as follows.

From the ortov-races of the overlying haul horizon, the running uprising 2 and the quarters 3 pass to contact with the ore body. Then, drilling of the drift 4 is carried out on the ore in the contact zone of the recumbent side, knocking it down with the completed squares 3. Drilling rising bars 5 and drilling chambers 6. Drill drift hanging from sides 7 and air-driven lifting bars 8.

After the cutting of the preparation of the inclined floating ceiling 1, the remote monitoring of its condition is carried out. For

from the drilling drifts of lying 4 and hanging of which 7 sides drilled parallel deep wells 9, for example, 2-3 m from each other, from the drilling drift hanging from sides 7 to the drilled wells 9 draw

steel cables 10, the ends of which are connected to each other, form a series connection, and the wells are filled with a solution of hardening material. At the upper haul horizon, in the drive-in races, bays with cables 11 are installed. The ends of the cables in the bays are connected to the ends cables coming out of the extreme wells and with electrical wires 12 that are pulled to a safe distance, for example, to the emergency air supply chamber, where they are connected to instrumentation and a weak source ICOM power in consistent electrical

chain. After mounting the serial electric circuit, down to the initial resistance in the circuit, the state of the inclined floating ceiling is monitored at any time when it is lowered into

the cleaning process. By changing the electrical resistance of the circuit, due to the breaking of the cables,

judge the state of the sloping floating ceole.

In order to carry out sections of the inclined floating ceiling along the strike from the drill drifts of the recumbent 4 and hang out 7 sides, drill hole bores 13 are drilled, and for sections along the strike from the drilling chamber 6 - deep wells 14.

The clearing recess in the block is carried out in such a way that by the time the inclined floating ceilings are cut, the cleansing chamber is completely filled with broken ore. The slanting floating ceiling is cut by blasting sucker rod holes 13 and deep wells 14 simultaneously with the production of a massive explosion in a block. After that, a complete release of the broken ore from the refining unit under the inclined floating ceiling is carried out and the state is monitored remotely. After the release of the ore and the landing of the ceiling at the bottom, the ceiling is redeemed, and the broken off ore is produced under the overburden.

Formula of invention

Claims (2)

1 A method of developing steeply dipping ore bodies, including the driving of preparatory and rifled workings, forced block ore collapse and its release under a floating ceiling, characterized in that. in order to increase the extraction of pure ore and reduce the dilution of the mined ore mass, the floating ceiling is formed with a tilt angle equal to the angle of repose of the ore. 2. A method according to claim 1, characterized in that during the formation of the ceiling in it a string of parallel wells is passed through them, steel cables are filled in and filled with a solution of hardening material, after which the ends of the cables are connected in a series electric circuit, measured The initial electrical resistance of the circuit, and in the process of ore extraction, the condition of the cables and the floating ceiling is determined by the change in the resistance of the circuit. №2 / p1 1659654 one Fi & W