SU900666A1 - Method of explosion rock failure and charge for effecting same - Google Patents

Abstract

1. A method of explosive destruction of rocks, including drilling a well, placing it in a well with a gap of dispersed charges that have a cumulative dredging, blocking the wellhead and blasting a charge. characterized in that, in order to increase the cutting efficiency and the quality of crushing of the ore mass containing crystalline inclusions of valuable minerals, an axial air cavity is created in the charges, and the charges themselves are placed with a concentric air gap from the walls of the well. 2. A charge for the destruction of rocks, containing a cylindrical body in which an explosive is placed, and a sleeve that forms a cumulative recess, which is distinguished by the fact that the axial air cavity is filled along the charge axis, and the body is in the form of a tube with flared ends, in which the molded sleeve forms a movement in the axial direction relative to the housing. 3. The wage of claim 2, which is different from the fact that pressed pieces of the corresponding form are used as an explosive. (UD 4.Doll according to claim 2, characterized in that the length of the charge is taken to be equal to the required sizes ot the lumpiness of the finished rocks. CZ O5

Description

The invention relates to the mining industry and can be used in the production of blasting ores, mainly mica, or containing other crystalline inclusions of valuable minerals.

An efficient method of blasting ores is known, in which charges with an axial air cavity are used along the entire charge length. An air shock wave propagates along this cavity, the velocity of which is much higher than the velocity of propagation of the detonation wave in charge. Due to this, the detonation in the charge propagates in the transient mode at an increased rate. The disadvantage of this method in relation to the breaking of coarse-grained minerals is the overmilling of inclusions of valuable material.

There is also known a method for the destruction of rocks, including the drilling of a well, the placement in the well of dispersed charges that have a cumulative excavation. The extreme charge is supplied with a detonation initiator: a detonator cap or end of the detonating cord, the mouth of the cord is sealed by stemming and the charge is blown up.

The use of dispersed charges makes it possible to reduce overgrinding of the ore mass, and due to the cumulative effect, the reliability and distance of the transfer of detonation from the cartridge to the cartridge increases, which allows the connection of charges to detonate the cord to be rejected.

The disadvantage of this method of ore blasting, as applied to the breaking of ore masses containing inclusions of minerals sharply differing in their physical characteristics, is the insufficient efficiency of rock destruction and over-grinding of coarse-grained inclusions of a valuable mineral.

The purpose of the invention is to increase the efficiency of breaking and the quality of crushing of the ore mass in relation to the requirements for the extraction of minerals, such as mica, graphite, talc, etc.

This goal is achieved by charging wells with cumulative grooves with an axial air cavity, and the charges themselves are placed with a concentric air gap from the borehole walls.

The charge for the rock blasting of the proposed method is in the form of a cylinder with an axial air cavity, a cumulative dredging is formed at one end of the charge, and rings are placed at the two ends of the cylindrical charge at a certain distance from the borehole walls (borehole); FIG. shows one of the embodiments of the proposed method with the main design features of the charge; FIGS. 2-4 show charge variations,

Figure 1 shows the scheme for carrying out an explosion according to the Proposed method, showing the rock mass 1 to be destroyed, in which a well 2 is drilled, then charges 3 of a bristle substance (BB) with a cumulative notch 4 and axial air cavity 5 are placed into it, the charges are supplied with the initiator of the explosion 6 and are filled with the wellhead with the boring material 7, the charges are dispersed from each other with air gaps 8, and placed in the well with an air gap 9 from the walls of the boreholes 2, and the initiator of the explosion 6 is placed in the first from the mouth of Vazhiny de charge, the explosion of which excite an explosion across the charge system.

Figure 2 shows the structural design of the charge for performing the proposed blasting method, where the 3-9 designations are the same as in Figure 1, and the distance rings 10 are additionally shown that hold the charge 3 in the borehole 2 with a gap 9 between the cylindrical housing I1 of charge and wall of well 2.

Fig. 3 shows an embodiment of the charge, where the sleeve of the body II is made in the form of a tube, and the distance ring 10 is formed by flaring the ends of the tube 11. Here is also shown the forming sleeve 12 of the cumulative notch 4, which is made movable relative to the sleeve of the body 11 and the tube 13, forming an axial air cavity 5.

 Figure 4 shows an embodiment of charge 3 in which explosives are applied in the form of checkers 14 of a compacted explosive of the appropriate form (for example, pressed trotyl) or in the form of tablets with an axial channel

As an example of a specific embodiment of the method, it is possible to cite a variant of its use for blasting lumpy talc ores. As shown in FIG. 2, a borehole 2 or a hole (usually a set of holes) is drilled in an array of ore 1 that is to be crushed. A series of charges 3 with an axial air cavity 5 is placed in the borehole 2, while the charges 3 are dispersed by air gaps 3, and in order for the initiating impulse from charge to charge in the well to be transferred better, a cumulative notches 4. 3 well 2 charges 3 are placed with the formation of an air gap 9. Then placed in the initiator of the explosion 6 (for example, children 590

The knotter or the end of the detonating cord) fills the wellhead with a boring material 7 and blows up a series of wells in a predetermined sequence.

In order to facilitate the implementation of the techniques of the proposed method, embodiments of the charges are proposed that allow one to achieve the intended purpose of the invention by implementing the method. In order to simplify the charge fabrication technology, the body is made in the tube input, and the distance ring is formed by flaring the ends of this tube. Regulation of the size of the air gap 7 between charges is made by the mutual displacement of the forming sleeve 12 of the cumulative recess 3 relative to the sleeve of the body II and the tube of the axial cavity 4. The control of the degree of explosion energy concentration at the pressed charge elements is made by selecting the number of checkers 14 pressed explosives placed into the case of housing 1. As an additional powerful initiating impulse is allowed to pass through the axial air cavity, the prize is possible significant The charge is to be made from cheaper cast trotyl checkers 14, replacing the more expensive pressed checkers with them, except for the first checker in a charge that performs the function of receiving a detonating pulse from the previous charge.

Given the nature of the detonation of the charges of the proposed design with the formation of bursts of explosion energy density in certain areas of charge, it is envisaged to use the possibility for talc ores to have more sustained lumps of ore-broken ore, for which the length of each charge in the well is equal to the preferred sizes of lumps of mined rocks.

The use of the proposed method and the charges implementing this method will allow the extraction of talc, graphite and mica ores to increase the value of the mineral resources extracted from the subsurface due to more gentle destruction of the ore mass to produce more coarse talc, graphite ores and with the release of large mica crystals, preventing secondary damage of crystals during blasting.

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Claims (4)

1. The method of explosive destruction of rocks, including drilling a well, placing in a well with a gap of dispersed charges having a cumulative recess, clogging of the wellhead and blasting the charge, which is in order to increase the efficiency of breaking and the quality of crushing. mass containing crystalline inclusions of valuable minerals in the charges create an axial air cavity, and the charges themselves are placed with a concentric air gap from the walls of the well. 2. A charge for the destruction of rocks, containing a cylindrical body in which the explosive is placed, and a sleeve forming a cumulative recess, characterized by the fact that the axis of the charge is made on an axial air cavity, and the body is in the form of a tube with flared outwards ends, while the forming sleeve is placed movably in the axial direction relative to the housing. 3. The charge according to claim 2, characterized in that the pressed explosives of the corresponding form are used as the explosive. 4. The charge according to claim 2, characterized in that the charge length is taken equal to the required lump size of the produced rocks.