SU827791A1 - Method of working thick mineral deposits - Google Patents

Description

one

The invention relates to the mining industry and can be used in underground mining of mineral deposits under conditions of elevated rock pressure and its dynamic manifestations.

There is a known method for developing mineral deposits, allowing us, by creating vertical protective gaps, to reduce the influence of rock pressure on the bottom generation of bottom 1.

In addition, there is a known method for developing powerful mineral deposits, which includes mining in first-order chambers of the first and second stages, drilling out an array of minerals from drilling chambers of the first and second stages, blasting out and producing minerals and laying the spent space with a hardening mixture 2 .

The disadvantages of this method are relatively low mining safety, high costs of maintaining workings and secondary crushing, as well as relatively large dilution of the mineral.

The aim of the invention is to increase the safety of mining operations by partially unloading the massif from the rock pressure to be excavated, reducing the dilution of the mineral, the cost of maintaining the workings and secondary crushing.

The goal is achieved by drilling out the workings of the chambers of the first stage, prior to the beginning of the churning of chamber stocks, by drilling horizontal unloading wells of the bases of said chambers and adjacent chambers of the second turn up to half the width of the latter, as well as drilling part of the rock mass adjacent to the chambers, discharge wells have a condensed grid.

FIG. 1 shows a vertical section of the developed field horizon across the strike; in fig. 2 - section A-A of FIG. one.

The field is being developed with a chamber-purpose system, followed by laying the worked-out space with hardening mixtures with a downward order of mining floors. The strike floor is divided into blocks, and the blocks from the chamber of the first (I) and second (II) lines. At the roof level of the haulage ore gauge 1, the scraper Horta 2 (one to two adjacent chambers) passes. Center of the cameras of the first stage

above the roof of the delivery openings, drill orts 3 are passed. Before the ore is crushed in the chambers of the first stage of the drilling workings 3, their lower bases, parts of the rock mass and adjacent pillars of the second stage are drilled by horizontal wells 4 along a thick grid of wells, and drilling the lower base of the second stage pillar cells is made up to half of their width from each drilling development of the three first stage chambers. After that, the stocks of chambers of the first stage are produced layer-by-layer and release of broken ore to the horizon of delivery. The empty chambers are filled with a bookmark and after its hardening, they start working on the chambers of the pillars.

The proposed method has the following advantages compared with the known:

1. Increases the safety of cleaning works. The development of deposits under conditions of increased rock pressure and its dynamic manifestations is associated with the danger of sudden collapses and emissions of large volumes of rocks and production where people are located, therefore unloading the rock mass to be mined from elevated stresses in order to ensure safe working conditions are of paramount importance, which are improved by the proposed method.

2. Reduces ore degradation by reducing collapse of host rocks.

3. Reduces the seismic effect of explosions on the bottom workings, which allows them to be maintained in working condition until the end of the cleaning work in the block without the cost of additional repacking.

4. Increases the quality of ore crushing

during blasting, and reduces the costs of secondary crushing by reducing the pinch of wells, often encountered at elevated rock pressure when wells are loaded with explosives.

Claims (2)

1. USSR Author's Certificate No. 534567, cl. E 21S 41/06, 1972. 2.Guly V.M. Efficiency of application of glyio-concrete for laying. "1Don metallurgists, 1968, No. 19, p. 3-5