RU2191900C2 - Method of breaking ore blocks complicated by post-r dike magmatism - Google Patents

Abstract

FIELD: mining industry; applicable in underground and opencast mining of ore blocks of complicated structures. SUBSTANCE: method includes drilling of boreholes in compliance with design of large-scale blast, execution of mine survey of ore block, study of geological characteristic of rocks of post-rock dikes and ores, selection of specific consumption of explosives with division of block into districts of different categories of explosiveness, calculation of value of borehole explosive charge and parameters of drilling and blasting operations, charging of boreholes in compliance with selected parameters and blasting. Value of borehole explosive charges on districts of intensive manifestation of dike magmatism is reduced as compared with value of explosive charges on main ore mass by amount directly proportional to fraction of post-ore dikes in rock mass. EFFECT: higher breaking efficiency, reduced consumption of explosives and high-quality preparation of ore raw materials. 2 dwg

Description

 The invention relates to the mining industry and can be used in the development of complex structural ore blocks in underground and opencast mining.

 There is a method of explosive breaking of sections that differ in their geological and geological properties from medium ones, in which additional wells need to be drilled, the use of increased charges of powerful explosives or the use of a combination of these options depending on specific conditions (see Mosinets V.N., Abramov A. B. Destruction of fractured and disturbed mountain ranges. - M.: Nedra, 1982, p.136). The disadvantage of this method is the impossibility of accounting for dikes by methods of mapping rocks for fracturing and explosiveness, since the power of dikes is much less than the distance between two adjacent core explosive charges and low-power dikes between charges can be several. The ore dykes in the ore mass have a characteristic more intense fracture than the ore mass, are dispersed in it and create zones of intense development, without forming significant local volumes of the rock mass in which the calculated explosive charges can be placed.

 Closest to the proposed technical solution is a blasting method, including drilling wells in accordance with a mass explosion project, surveying a block, studying the geological characteristics of the rocks of dykes and ores, selecting a specific explosive flow rate with dividing the block into sections of different explosive categories, and calculating the borehole size charge and parameters of blasting, charging wells according to the selected parameters of blasting and blasting (see Patent 2021505, E 21 C 41/00, 10/15/1994).

 The disadvantage of this method is that the loading and blasting of the rock mass is carried out in accordance with the calculation of the magnitude of the borehole charge for rock varieties containing the ore body or rock lenses (interlayers) inside the ore body. In this case, the fracture-lattice structure is not taken into account. formed by low-power ore-bearing dikes, crosswise or oblique ore massif.

 The single technical result of the proposed technical solution is to increase the efficiency of breaking by reducing the specific consumption of explosives and regulating the lumpiness of the blasted rock mass.

 The indicated unified technical result is achieved by the fact that in the known method of breaking, including drilling in accordance with the mass explosion project, performing surveying of the block, studying the geological characteristics of the rocks of dyed dikes and ores, selecting a specific explosive flow rate with dividing the block into sections of different explosive categories, calculation of the value of the borehole charge and parameters of the UHP, loading of wells according to the selected parameters and blasting, the value of the borehole charges of explosives in areas of intensive oyavleniya dikes reduced as compared with the quantity of charges main ore array by an amount directly proportional share postmineral dike in the rock mass.

 A decrease in the borehole charge of explosives in areas of intense manifestation of dyke magmatism leads to a more uniform and high-quality crushing of rocks due to the fact that they do not overwork.

где К_д - доля даек в горном массиве;
m_i - мощность даек, м;
L - длина линии участка, м.In the designed block, geological surveys of mine workings or ledges are made. On the shooting map of block 1, shown in Fig. 1, in addition to discontinuous violations 2, fracturing, rock varieties 3, dikes 4 are noted (spatial orientation, power, strength, material composition). Areas 5 are identified in which dikes are intensely developed. Then carry out the calculation of the share of dikes 4 in the designed block 1 in a linear manner. According to the conventional lines 6, directed across the strike of the dikes, the ratio of their total power to the total length of the selected line of section 7 is calculated by the formula:

where K _d - the share of dikes in the mountain range;
m _i - power of dikes, m;
L is the length of the line, m

 When mapping ore block 1 by explosiveness, areas of intense 7 and non-essential 8 manifestations of dyke magmatism are distinguished.

 Industrial block 1 is drilled with wells 9-10, charged with explosives and exploded.

 In this case, for each well 9-10, the explosive charge is calculated.

 For wells 9 (figure 2), drilled in areas of intense 7 manifestations of dyke magmatism, the explosive charge is reduced by an amount directly proportional to the fraction of dykes 4 in the rock mass of the block being drilled. The charges placed in wells 10, drilled in areas of non-significant 8 manifestations of dyke magmatism, are taken equal to the calculated ones.

Blasting the wells of the ore block, in which the calculation of explosive charges takes into account the proportion of dikes of the rock mass, provides:
1. Uniform and high-quality crushing of rocks due to the fact that they do not overwork;
2. Reducing the specific consumption of explosives in the ore block by reducing the charge column in wells drilled in areas of intense manifestation of dyke magmatism.

 The proposed method of breaking ore blocks allows to reduce labor costs for loading an industrial block, to save the expense of blasting equipment, to provide better preparation of ore raw materials.

Claims (1)

 A method for breaking ore blocks complicated by dyke magma dic, which includes drilling in accordance with a mass explosion project, surveying a block, studying the geological characteristics of ore dykes and ores, selecting the specific explosive flow rate with dividing the block into sections of different explosive categories, calculating the borehole size explosive charge and BVR parameters, loading wells according to the selected parameters and blasting, characterized in that the magnitude of the explosive bore charges in the inte Native manifestations of dyke magmatism are reduced in comparison with the magnitude of the charges of the main ore mass by an amount directly proportional to the fraction of hard dikes in the rock mass.

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