SU1453004A1 - Method of mining ore bodies - Google Patents

Abstract

The invention relates to the mining industry and m. used in the extraction of minerals, mainly with the laying of the goaf. The purpose of the invention is to reduce the dilution during the mining of chambers (K) on contact with the host array (VM) due to a decrease in the abrasive wear of the contact surface. To excavate the mineral along the K axis, subsurface drilling workings (BV) pass, from which borer fans of blastholes inclined towards the surface of the VM are drilled along circular X-shaped conical surfaces convex towards the developed space and forming an axial BV on the axes. The angle of taper is determined depending on the coefficient of ore friction on the surface of the VM, and the axis of symmetry of conical fans of the wells is located normally to the surface of the VM. Ore massif between BV is drilled with flat fans of wells. When an ore body is crushed in K, the discharges in the flat fans of the wells are blown up with respect to the blasting of charges in the wells of the inclined fans. The distance between the BV is determined taking into account the thickness of the ore body and the angle of taper. As a result of the breaking of the ore massif, the developed space of a wedge-shaped form is formed. 1 hp F-oy, 3 Il. S (l

Description

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The invention relates to the mining industry and can be used in the extraction of minerals, mainly with the laying of the goaf.

The aim of the invention is to reduce the dilution when working the chambers on contact with the host array by reducing the abrasive wear of the contact surface.

FIG. 1 shows a camera, a vertical section; in fig. 2 shows section A-A in FIG. one; in fig. 3 shows a section BB in FIG. 2

For excavation of the mineral along the axis of the chamber 1, it is surrounded; - from the lateral sides to the host array - /, under-floor drilling rigs are carried out, l-. J. Then, a compensation space 4 is formed. Out of the subsurface drilling workings 3 drills, the inclined surfaces of the host massif 2 are fans of explosive wells 5. The wells, 5 are drilled along the circumferentially conical surfaces that form a convex toward the developed space the life of the above-mentioned drill workings on the axes. The angle of taper is determined from the ratio

-tp 2arctgK,

where is the coefficient of friction of the ore on the surface of the host array.

The axis of symmetry of conical fans of wells 5 are positioned normally to the surface of the host mass 2. The ore massif between the subsurface drilling workings

Claims (3)

1. A method of developing ore bodies, including sinking sub-surface drilling workings along the axis of the chamber, drilling inclined toward the surface of the host massif and at an angle to each other well fans along the BbinyKvibix generators in the direction of the developed space of circular surfaces with the juxtaposition of these forming on the axis of the drilling development, blasting ore massif by blasting borehole charges with the formation of a wedge-, prominently shaped space, and the release of broken rock mass, characterized in that, in order to reduce the dilution heel chambers for contact with v.meschayuschim umenscheni array due to the abrasion of the contact surface, the inclined fan drilled by ob40 3 are drilled with flat fans of explosive j m of conical surfaces with wasps: wells 6. Then, Jb,. i ont blasting borehole charges, and the surface of the host array, and the angle of taper, determined from the ratio V arctgK, where K is the coefficient of ore friction over the surface of the host massif, and in the central part of the ore massif between sublevel workings we drill flat fan boreholes and in the boreholes of these fans explode charges ahead of the charge blasting in the boreholes of the inclined fans 2. The method of claim 1, wherein the distance between sublevel workings is determined from the ratio h 2mtg-v, where t is the horizontal power of the ore body. charge blasting in wells of 6 flat fans is carried out ahead of the time of charge blasting in wells 5. During blasting of charges in wells 6, the ore massif of the central part of chamber 1, which is enclosed between sublevel workings 3. At the same time, the ore walls converging in the direction of gravity forces suppress the speed and, consequently, the kinetic energy of the ore mass of the ore mass, bombarding the walls of the host mass 2, thereby reducing the abrasive effect. The subsequent blasting of charges in wells 5 beats off the remaining part 45 50 the ore massif of chamber 1 along the directions of divergence with the formation of the developed wedge-shaped space. As a result of the interaction of the axial and radial components of the explosion in the end portion of the charges of the wells of conical fans, the resultant orientation in the plane of contact of the ore occurs - the host mass and the separation of the ore layer by a shift on the surface of the host array 2. After that, the cycle is repeated and so on until the chamber is fully developed. The distance between the sublevel workings 3 is determined from the ratio h 2m tgt where -m- is the horizontal thickness of the ore body. Invention Formula 1. A method of developing ore bodies, including sinking sub-surface drilling workings along the axis of the chamber, drilling inclined toward the surface of the host massif and at an angle to each other well fans along the BbinyKvibix generators in the direction of the developed space of circular surfaces with the juxtaposition of these forming on the axis of the drilling development, blasting ore massif by blasting borehole charges with the formation of a wedge-shaped depleted space and the release of broken rock mass, characterized in that, in order to reduce the dilution Ke chambers on contact with a c. massif by reducing abrasive wear of the contact surface, inclined fans are drilled along conical surfaces with -f ( FIG.