RU2709848C1 - Method for blasting of ores and rocks - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: invention relates to mining and, in particular, to explosive breaking of rocks. On the upper surface of the column of the bottomhole material in the wells there installed is an auxiliary cylindrical charge with diameter equal to the diameter of the wells, with a cumulative groove directed towards the bottom of the well, which is initiated after the main charge with deceleration determined by formula Δt=L_s/D (s), where Δt is deceleration, s; L_s is main explosive charge length, m; D is detonation velocity of explosive in main charge, m/s.

EFFECT: higher efficiency of blasting of ores and rocks.

1 cl, 3 dwg

Description

The invention relates to the mining industry, and in particular to explosive breaking of ores and rocks.

A known method of breaking through wells with filling the uncharged part with an inert stemming material [Kutuzov B.N. Methods of blasting. - Part 2 Blasting in mining and industry: Textbook for universities - 2nd ed. p. - M.: Mountain Book, 2008 - 512 p. (Fig. 6.3 on page 139).].

The disadvantage of this method is the low resistance to the advancing release of detonation products from the well and, as a result, significant explosion energy losses

There is a known method of breaking through wells, in which the free part (mouth) of the main well is pressed in [Mosinets V.N., Abramov A.V., Rubtsov S.K. A method of breaking minerals. A.S. USSR No. 300619 // B.I. 1971; bull. No. 3.].

The disadvantage of this method is the need for drilling additional wells and increasing the complexity of work on the equipment of the unit by an amount equal to the ratio of the length of the stemming to the total depth of the well.

The closest in technical essence of the method and the achieved result is a method of breaking wells, which used the pressing in of the free part (mouth) of the main well as a result of displacement of the soil caused by preliminary blasting of the charge in the auxiliary bottom hole, the depth of which is equal to the length of the stem [Rubtsov S.K. , Shemetov P.A. Management of explosive impact on the massif in open pit mining. - Tashkent, Ed. “Fan” of the Academy of Sciences of the Republic of Uzbekistan, 2011. - 397 p. (Pp. 162-169) (prototype)].

The disadvantage of this method is the need for drilling additional wells and increasing the complexity of work on the equipment of the unit by an amount equal to the ratio of the length of the stemming to the total depth of the well.

An object of the invention is to increase the efficiency of explosive breaking of ores and rocks.

This goal is achieved by the fact that when conducting explosive blasting of ores and rocks in the working ledge with borehole charges to increase the resistance of the stemming to the outgoing emission of detonation products and increase the useful use of explosion energy. An auxiliary cylindrical cumulative charge with a cumulative recess directed toward the bottom of the well, which is initiated after the main charge with a deceleration (Δt), determined by the formula:

Where L _z - charge length, m;

D is the detonation velocity of explosives, m / s.

The invention is illustrated by drawings, where in FIG. 1 shows the general arrangement of wells during breaking of a working ledge; in FIG. 2 shows a layout diagram of an auxiliary cumulative charge; in FIG. 3 shows the mechanism of action of the auxiliary cumulative charge.

The method of explosive blasting of ores and rocks contains: the beaten-off section of the working ledge 1, well 2, the simplest explosive 3, the main explosive charge 4, the uncharged part of the well 5, the column of bottom hole material 6, the upper surface of the column of bottom hole material 7, the auxiliary cumulative charge 8, cumulative recess 9, the bottom of the well 10, the detonating cord 11, the fighter cartridge 12, the cumulative jet 13, the detonation products of the main charge 14.

The method is implemented as follows: the beaten-off section of the working ledge 1 is drilled with wells 2 (Fig. 1). In each well, one of the known methods is formed, for example, using the simplest explosives 3, the main explosive charge 4 and fill the unfilled part 5 of the well 2 with a column of casing material 6. Then, an auxiliary cumulative charge 8 with a diameter equal to the diameter of the well 2 is installed on its upper surface 7 so that the cumulative recess 9 was directed towards the bottom 10 of the well 2 (Fig. 2). The initial cumulative charge 8 is initiated using one of the known methods, for example, using a detonating cord 11 after initiating one of the known methods, for example, using the action cartridge 12 of the main explosive charge 3 with a deceleration (Δt) defined by the formula:

where: L _s - the length of the main charge 4, m;

D is the detonation velocity of the explosive 3 in the main charge 4, m / s. (Fig. 3).

Claims (5)

A method of explosive breaking of ores and rocks, including drilling wells, forming the main explosive charge, installing and initiating an action charge in the bottom of the wells, jamming the uncharged part of the wells, characterized in that an auxiliary cylindrical one is installed on the upper surface of the column of bottom hole material in the wells charge, with a diameter equal to the diameter of the wells, with a cumulative recess directed toward the bottom of the well, which is initiated after the main charge with a deceleration determined by the formulas e:

where Δt is the deceleration, sec; L _s - the length of the main explosive charge, m; D is the detonation velocity of the explosive in the main charge, m / s.

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