RU2114388C1 - Method of formation of plane explosive charge - Google Patents

Abstract

FIELD: mining industry, in particular, methods of blasting of mineral resources, applicable at mining enterprises for underground mining of hard rock deposits of mineral resources by stepped caving systems. SUBSTANCE: method consists in drilling of a group of conjugate holes of parallel - exposed surface of block, filling of holes with explosive after installation of plug, placement of initiators in explosive charge and blasting of the charge, a cavity is formed in the block by drilling of parallel groups consisting of two or more conjugate holes; part of the holes in the first group are arranged and loaded with explosive in conjugation with and perpendicularly to the remaining unloaded holes, and the last group of holes is loaded at a distance of 0.5 of the cavity charge line of least resistance from the undercutting roof before installation of plug; blasting from the second group of holes loaded with explosive is accomplished with retardation required for clearing of the cutting cavity from massif after blasting of the first group of holes. EFFECT: enhanced efficiency of formation of plane explosive charge, reduced scope of holes drilling. 4 dwg

Description

 The invention relates to the mining industry, in particular to methods for explosive breaking of minerals, and can be used by mining enterprises in underground mining of strong rock mineral deposits by floor caving systems.

 A known method of explosive breaking of rocks (ed. St. USSR N 1478771) with flat explosive charges, including the formation in the array of a slit cavity by drilling three successively conjugate sides of the wells, the central of which has a diameter smaller than the side, loading of explosive wells, placement in charge initiator and charge blasting, side wells are drilled with a diameter of 1.2-1.5 times the diameter of the central well, and the initiation of charge is carried out from the central well.

 The disadvantage of this method is the high cost of the formation of cavities by drilling.

 The closest in the proposed method is the formation of a flat explosive charge (Article "Blasting an ore mass with flat charges at the mine of the Kazanskoye Ore Mining." - Gorny Zhurnal, N 6, 1995, pp. 41–43), including the formation of a parallel-approximated surface of a block of dispersed slot cavities drilling three or more wells, installing plugs, filling explosive cavities, placing initiators in explosive charges and their successive blasting.

 The disadvantages of this method are the high cost of work on the formation of a slit cavity, a decrease in pressure in the explosion cavity due to the absence of an upper clogging with an upper initiation of an explosive charge, and a large amount of drilling work.

 The purpose of the invention is to increase the efficiency of work on the formation of a flat explosive charge and reduce the volume of drilling wells.

 The goal is achieved by the fact that in the method of forming a flat explosive charge, including drilling a group of conjugate wells, a parallel-exposed surface of the block, filling the explosive wells after installing the plug, placing an initiator in the explosive charge and blasting the charge, which form a cavity in the block by drilling parallel groups of two and more associated wells, with some of the wells in the first group located and charged with explosives in conjunction with and perpendicular to the remaining uncharged wells, and the last group of wells is charged at a distance of 0.5 l. n.s. the charge of the cavity from the roof of the sweep to install the plug, and the blasting of the second group of charged explosive wells is carried out with the deceleration necessary to release the rock cavity formed from the first group from the rock mass.

 In FIG. 1 shows a vertical section of a flat explosive charge; in FIG. 2 is a section AA in FIG. one; in FIG. 3 is a vertical section with the location of the groups of conjugate wells; in FIG. 4 is a section BB in FIG. 3.

 The method is as follows.

 The drill rig is installed in the drill hole 1 and drilled through the hole horizon 2 through holes 3, 4 and 5 in each group, one pioneer well using centralizers for precise directional drilling of wells, and then in each group of wells they are drilled with a drill rig equipped with a drilling device adjoining wells, using through wells 3-5 as guides, drill lateral wells conjugate to them 6-11, while they are not being drilled to the cutting horizon 2. Groups of wells represent slotted cavities: a group of wells 3, 6 and 7 are is Busy compensatory cavity; 8, 9; 6, 10 and 5, 11 are explosive cavities and they are filled with explosives, after installing plugs 12, 13 and 14 in through holes 3-5 and laying cartridges of explosive charge in the associated well 8 to close the gap between the associated wells 3 and 8. In this case compensation wells fill explosives from plug 12 to a height of 1 m. Then, for example, action cartridges 15, 16 and 17 are installed with the detonating cord being withdrawn to the drill hole 1 and subsequently exploded with deceleration, and the second action cartridge 16 is blown up after the compensation and cutting cavity (charges Explosives in wells 8 and 9) from the rock mass under the influence of free fall and gases of detonated explosives. A group of blasting holes 4 and 10 are positioned at a distance of 2 to 3 diameters of the cut hole (in the above case, the compensation with the cut hole from the blast of wells 8 and 9 represents the diameter of 3 wells).

 A group of blasting holes 5 and 11 are located at a distance of 3-4 diameters of the cavity formed by the explosion of explosive charges in wells 4 and 10, which is determined by the fact of an explosion in these rocks, but not less than 2 diameters of wells 4 and 10.

 As a result, a flat cavity 18 with a protrusion 19 is formed (in Fig. 3 the design contour). Then lay the rolled sections (rails, pipes or wood) 20 to block the opening 21 for cutting 2. Spread pieces of ore mass and drill cuttings 22 to overlap, lay the action cartridge 23 (explosive cartridge with detonating cord 24). Then fill the cavity 18 BB 25 with charging and transporting machines through hoses and mouths of conjugate wells 4, 5; 6 or through associated wells. After loading the explosive cavity, a second striking cartridge 26 is installed with the detonating cord 27 and combined with the detonating cord 24 at the level of the drilling output 1. Further, all wellheads are closed and the drill slurry is covered. An electric detonator 28 is attached to the ends of the detonating cords 24 and 27 and a flat explosive charge is blown up with a rock mass being blown up in the alignment of the explosive explosive charge, onto the parallel exposed surface of block 29.

Compared with the prototype, the proposed technical solution will allow:
reduce the amount of drilling work;
reduce the volume of rifled workings;
to increase the effect of the explosion by increasing the width of the flat charge and durable locking of the explosive charge above and below.

Claims (1)

 A method of forming a flat explosive charge, including drilling a group of conjugate wells parallel to the exposed surface of the block, filling the explosive wells after installing the plug, placing an initiator in the explosive charge and blasting the charge, characterized in that a cavity is formed in the block by drilling parallel groups of two or more conjugate wells, at the same time, some of the wells in the first group are located and charged with explosives in conjunction with and perpendicular to the remaining uncharged wells, and the last group of wells are charged at a distance of 05 five sweeps from the top to install plugs, with the blasting from the second group of wells producing charged with deceleration.

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