SU1492057A1 - Method of mining mineral deposits - Google Patents

Abstract

The invention relates to methods for working flat and inclined ore bodies. The goal is to reduce the loss of broken ore and increase the intensity of mining chambers. A traffic field drift passes, a drill rises and draws up the output of the ore. Above the chamber, a container with water is placed, which is connected to the chamber with a trench through the deposit in the side of the chamber. In contrast to the side of the chamber, the transport insurgent is carried out in its soil. The excavation of reserves in the chambers oriented to the fall of the deposit is carried out by drilling and blasting explosive charges into them. In the upper and lower halves of the chamber, the notches lead towards each other. The lower half of the chamber is worked out at an acute angle to the line of fall of the reservoir towards the side of the chamber, where the coupling has been completed. Drilling of wells and ore blasting is carried out at an obtuse angle to the side of the chamber in which the assembly is completed. Repulsed ore from the upper half of the chamber is bypassed with a stream of water through the transport vessel that rises into the lower half of the chamber and transports the ore recaptured there by the resulting slurry to the output generation. 4 il.

Description

soil carry out the transport uprising. Stock removal in chambers oriented along the pada} of the deposit is carried out by drilling and blasting and their explosive charges. In the upper and lower halves of the chamber, the notches lead towards each other. The lower half of the chamber is worked out at an acute angle to the line of fall of the deposit towards the side of the chamber, where

passed sboyka. Drilling of wells and ore blasting is carried out at an obtuse angle to the side of the chamber in which the assembly is completed. Repulsed ore from the upper half of the chamber is passed through with a stream of water through the transport risen into the lower half of the chamber and transported by the resulting slurry, and we extract there the ore to produce a silt.

The invention relates to the mining industry, in particular to a method for mining flat and inclined ore bodies, and can be used in underground mining of ore deposits,

The purpose of the invention is to reduce the loss of broken ore and increase the intensity of mining chambers.

Fig, 1 shows a camera plan; in FIG. 2 a section A-A in FIG. RC in FIG. 3 shows a section BB in FIG. one; in Fig. 4 - section BB in Fig.1.

The method is carried out as follows.

The site for the clearing recess is prepared by sinking a field transport drift 1, a drilling rebel 2 (at the side of the ore body), a transport rebellion 3 (on the border of the recumbent side), an ore receiving trench A, a ventilation-running cover 5 and. 6 connecting the cleaning space of the chamber and the tank 7 with water. In order to carry out a full flush of broken ore, coupling 6 is placed in one side of the chamber, and transport risen 3 - in the other. At the same time, the upper part of the chamber is placed along the fall of the ore body, and the lower part is placed at an acute angle to the line of fall of the deposit towards the side of the chamber, where the coupling 6 is passed.

The development of the chamber is conducted towards each other by two faces 8 and 9, with ore blasting by fans of the wells. In this case, the reserves of the upper part of the chamber are fought off in a downward order, and the lower one in a bottom up order.

For a better concentration of the bulk of the broken rock mass 10 and 11, the mining faces are located under the corner of the river.

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scrap to the wall of the chamber (from the side of the coupling 6).

After the next array is blasted in the upper and lower parts of the chamber, water is supplied from the tank 7. The formed water flow, meeting on its way the bulk of broken ore 10, forms together with it a slurry, which is transferred through the transport riser to the lower part of the chamber.

The use of ore broken in the upper part of the chamber to create a carrier stream having a large kinetic energy, allows you to create an energy-intensive carrier stream and wash away the ore repulsed in the lower part of the chamber, increasing the intensity of mining. When the water flow is fed into the chamber, it moves along the chamber wall and downhole 8. Since the entrance to the transport output is closed in bulk of the broken ore 10, the flow is twisted in the 0 hole formation space. The water level in the wellbore space is growing rapidly. Under the action of hydrostatic forces and the velocity head of a swirling flow of water, a turbulent filtration flow is created. As a result of this, intensive formation of the slurry occurs and its rapid entry into the transport risen, filling the latter over the entire cross section.

Using the energy of a swirling flow of water to increase the speed of the filtration flow provides an intensive formation of a homogeneous slurry and a complete flushing of solid material from the cleaning space.

Created by concentrated slurry flow, meeting on your way

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the bulk of broken ore 11, by transferring a pulse to it, delivers the ore to the receiving bottom. Since the soil of the lower part of the chamber has a transverse slope due to its position at an angle to the line of falling of the ore body, its own weight and centrifugal forces act on the moving stream. Under their action, the flow is pressed against the wall and moves along it, while maintaining the transport capacity of the flow and eliminating the dispersion of the mineral over the soil of the chamber, thereby reducing the loss of mineral. The extraction of the ore is carried out after dewatering the slurry.

Claims (1)

Invention Formula A method for developing mineral deposits, which includes carrying out a transport field drift, a drilling riot and an output of ore, installation of a tank with water, and excavation of reserves in chambers. 0 five five dropping oriented deposits, drilling wells and blasting explosives in them, and delivering broken ore through the chamber with water flow, characterized in that, in order to reduce the loss of broken ore and increase the intensity of mining of the chambers, the reservoir and chamber in the board of the last chamber, and in opposite to the board of the chamber, in its soil, the transport insurgency is carried out, the stocks in the chamber are dredged in the lower and upper halves of the chamber towards each other, while drilling wells and. The ore is crushed at an obtuse angle to the side of the chamber in which the coupling is made, and the broken ore from the upper half of the chamber is transferred with water through the transport risen into the lower half of the chamber and the broken ore is transported by the resulting slurry, and the lower half of the chamber is worked at an acute angle to the line of fall of the deposit towards the side of the chamber where the connection is made. / J-a ten FIG. 2 N N N Fig.Z FIG.