RU2418167C1 - Method of underground development of thin veins - Google Patents

Abstract

FIELD: mining. ^ SUBSTANCE: during breakage of mined rock the ore and rock is separated owing to their being thrown back by explosion in mutually perpendicular directions, and for that purpose the vein is left in roof or soil of mining face. Cut hollow rock is thrown back by series explosion of number of wells from bare cavity inside the rock mass in the direction opposite to the direction of advancing of mining face, and left in the worked-out area. Then, vein is broken by means of explosion of all wells and broken vein mass is thrown back by explosion in the direction perpendicular to the direction of rock being thrown back - along the line of normal extraction capacity from roof to soil or from soil to roof, depending on the position of vein in the mining face, and it is taken from mining block. Capacity of cut hollow rocks is determined by the formula. ^ EFFECT: invention allows improving quantitative and qualitative parametres of development of thin hollow and inclined veins and providing high safety of mining works. ^ 3 cl, 5 dwg

Description

The invention relates to the field of mining and, in particular, to underground mining of deposits represented by gentle and inclined low-power veins with an angle of incidence from 0 ° to 45 °.

There is a method of separate excavation of thin ore veins, which consists in sequential breaking of the ore body and host rocks in each excavation layer [1]. The disadvantage of this method is the high level of losses and dilution of the ore, the need for a constant human presence directly in the treatment space and low labor productivity.

The closest in technical essence and the achieved result is a method of separate excavation of ores and rocks during the development of shallow low-power veins using the energy of the explosion to explosively sort the broken ore mass [2]. The disadvantage of this method in addition to low labor productivity is a high level of losses and dilution of the ore due to the partial overlap of the rock and ore masses displaced by the explosion.

The aim of the invention is the creation of conditions to increase the quantitative and qualitative indicators of the development of low-grade shallow and inclined cores with high safety mining operations.

This goal is achieved by the fact that when breaking rock mass in the processed sections, the ore and rock are separated during explosive breaking of the section by moving in mutually perpendicular directions, for which the core is left in the roof or soil of the working face, while the cut open rocks, the power of which is determined from the expression

- коэффициент разрыхления руды при разрушении взрывом,where M _p - the power of the cut waste rock, m; M _W - the power of the beaten ore layer, m;

- coefficient of ore loosening during destruction by explosion,

by sequentially blasting the rows of wells from the exposed plane into the interior of the array, the blast is thrown off in the direction opposite to the direction of movement of the face, and then they are left in the worked-out space of the blasting block, and then the core is blown off by simultaneously blasting the beaten core outburst with an explosion in the direction perpendicular to the direction rock waste - along the line of normal extraction capacity: from roof to soil or from soil to roof - and give it out from the treatment unit. At the same time, the beaten-off vein mass remains on the same area of the lying side that was previously occupied by the beaten-off section of the vein, therefore, when the beaten-off vein mass is issued, dilution of it by the host rocks practically does not occur.

The width of the beaten cuts is determined by the conditions of effective rejection by the explosion of gangue

where L is the width of the cut along the line of strike of the core, m;

- коэффициент разрыхления породы при разрушении взрывом.K _e = 0.7-0.9 - coefficient taking into account the energy consumption for waste rock mass; K _in = 0.995 - coefficient taking into account air resistance; K ₁ - coefficient taking into account the type of explosives (for the simplest explosives, K ₁ = 4.1); C is the speed of sound in destructible rock mass, m / s; σ _P - tensile strength of the rock, n / m ² ; ε is the modulus of elasticity of rocks, n / m ² ; g is the acceleration of gravity, m ² / s; α is the angle of incidence of the core, deg .;

- coefficient of loosening of the rock during the destruction of the explosion.

When mining veins in the upper part of the accepted range of variation of angles of incidence, the mining of cuts is carried out in horizontal layers in an uprising with the drilling of bump holes from rising drilling workings. All other elements of the technology are left unchanged.

The invention is illustrated by drawings, where figure 1 shows the General scheme of mining operations in the block during the excavation of live sections along the strike at the stage of drilling the face. Figure 2 shows the location of the charges in the face at the upper position of the core. Figure 3 shows the location of the charges in the face and the direction of rejection of the vein mass and gangue at the lower position of the core. Figure 4 shows the cross section of the face after breaking the core and gangue at the upper position of the core. Figure 5 shows the general scheme of work when working out removable cuts in horizontal layers in rebellion after breaking the core and gangue.

SUBSTANCE: underground mining method for low-power conductors contains a working block 1, upper 2 and lower 3 horizontal preparatory workings, rising workings 4, a removable cut 5, an ore core 6, a roof 7 and a soil 8 of a worked-out space 9, cut open rocks 10 necessary for forming a normal excavation power 11, boreholes 12, face 13, the direction of movement of the face 14, the direction of rejected broken waste rock 15, the direction of rejected broken core mass 16, rock shaft 17, ore shaft 18, organ support 19, horizontal layer 20.

The method is implemented as follows.

The mining unit 1 is prepared for the treatment ditch by conducting the upper 2 and lower 3 horizontal and rising 4 preparatory workings, and then work out by dredging the sections 5 along the strike of the ore core 6 (Fig. 1).

The width of the beaten cuts is determined by the conditions of effective rejection by the explosion of gangue:

- коэффициент разрыхления породы при разрушении взрывом.where L is the width of the cut along the line of strike of the core, m; K _e = 0.7-0.9 - coefficient taking into account the energy consumption for waste rock mass; K _in = 0.995 - coefficient taking into account air resistance; K ₁ - coefficient taking into account the type of explosives (for the simplest explosives, K ₁ = 4.1); C is the speed of sound in destructible rock mass, m / s ² ; σ _P - tensile strength of the rock, n / m ² ; ε is the modulus of elasticity of rocks, n / m ² ; g is the acceleration of gravity, m ² / s; α is the angle of incidence of the core, deg .; M _p - the power of cut waste rock, m;

- coefficient of loosening of the rock during the destruction of the explosion.

During the preparatory work, the ore core 6 is left in the roof 7 (figure 2) or soil 8 (figure 3) of the worked-out space 9. The cut waste rock 10, necessary for the formation of a normal extraction capacity 11, is drilled from the preparatory workings 2 and 3 by jack-off wells 12, by successive blasting of which in the direction from the chest of the working face 13 deep into the massif, the cut waste rock 10 is broken off in the direction 15 opposite to the direction of movement 14 of the working face 13, with the formation in the worked out space 9 ve rock shaft 17 which is not executed by the block is output from one (2, 3).

The power of cut waste rocks is determined from the expression:

- коэффициент разрыхления руды при разрушении взрывом.where M _W - the power of the beaten ore layer, m;

- coefficient of ore loosening during destruction by explosion.

The ore core 6 is beaten off by simultaneously blasting all the boreholes 12 with its explosion blasting in the direction 16, perpendicular to the direction of the rejection 25 of cut waste 10, along the normal extraction capacity 11 from the roof 7 to the soil 8, or vice versa, with the formation of the ore shaft 18 separately from the pedigree shaft 17 (figure 4). The beaten ore is delivered to the lower preparatory mine 3 by one of the known methods, for example, scraper winches. To preserve the rifted workings at the initial stage of breaking of sections 5, a protective support of a known design is installed, for example, an organic wooden support 16. When excavating shallow and sloping cores, whose morphology does not allow the use of notches by sections 5 along the strike of core 6, mining of block 1 is carried out by horizontal excavation layers 20 on the uprising of the core 6 with the drilling of the boreholes 12 of the rising workings 4 (figure 5).

Information sources

1. Lyakhov A.I. The technology of development of vein deposits. M .: Nedra, 1984.- 240 p. (S.32, 33).

2. Panfilov E.I., Arzumanyan S.S. Explosion during the development of flat veins. M .: IPKON AN USSR, 1983 .-- 156 p. (S.26, 27, prototype).

Claims (3)

1. The method of underground mining of low-power conductors, which includes carrying out preparatory and rifted workings, cleaning ore excavation by cutting along strike with boreholes drilled from the workings, separation of ore and rock during the blasting process and the delivery of rock mass, characterized in that the core is left in the roof or soil of the working face, and ore and rock are separated during explosive blasting of cuts by moving in mutually perpendicular directions, cut blank rocks by successive blasting of rows of wells Azhin from the exposed plane into the interior of the massif is thrown off by an explosion in the direction opposite to the direction of movement of the working face, and it is left in the worked-out space of the treatment unit, and then the core is beaten by simultaneously blasting all the wells with the rejected beaten mass by the explosion in the direction perpendicular to the direction of rock rejection - along lines of normal extraction capacity: from roof to soil or from soil to roof - and they give it out from the treatment unit, while the power of cut waste rocks is determined from the expression:

where M _p - the power of the cut waste rock, m;
M _W - the power of the beaten ore layer, m;

- coefficient of ore loosening during destruction by explosion. 2. The method according to claim 1, characterized in that the width of the beaten cuts is determined by the conditions of explosion delivery according to the formula:

,
where L is the width of the cut along the line of strike of the core, m;
K _e = 0.7-0.9 - coefficient taking into account the energy consumption for waste rock mass;
K _in = 0.995 - coefficient taking into account air resistance;
K ₁ - coefficient taking into account the type of explosives (for the simplest explosives, K ₁ = 4.1);
C is the speed of sound in destructible rock mass, m / s ² ;
σ _P - tensile strength of the rock, n / m ² ;
ε is the modulus of elasticity of rocks, n / m ² ;
g is the acceleration of gravity, m / s ² ;
α is the angle of incidence of the core, deg .;

- coefficient of loosening of the rock during the destruction of the explosion. 3. The method according to claim 1 or 2, characterized in that the mining is carried out according to the uprising of the ore body in horizontal layers with breaking off the paired sections of the wells drilled from the rising drilling workings.

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