SU1362213A1 - Method of blast-breaking of rock - Google Patents

Abstract

The invention relates to the mining industry and allows improving the degree of crushing of rocks due to the successive increase in the blast energy from the mouth section to the bottomhole section. The well 1 is charged with a wide charge of a substance (explosive) dispersed into sections 2 with inert gaps. The gaps are made with cylindrical 3 and stepped-conic 4 parts. The narrowing of part 4 is directed towards the mouth section of the charge. The total height of each gap is chosen equal to 3-10 diameters of the well with the ratio of part 4 to part 3 from 0.2 to 4.0. Action 5c detonating cord is placed in the mouth section of the charge. The step part 4 of the gap directs the shock wave through the dyndric part 3 of the gap in the form of a wide beam, and also contributes to an increase in the flow time of the shock by reducing the speed of movement of the shock wave and increasing the time for concentration of energy. 1 il. S

Description

This invention relates to the mining industry and can be used in the production of explosive works.

The aim of the invention is to improve the degree of crushing of rocks by successively z the magnitude of the explosion energy from the mouth section to the bottom hole,

The drawing shows the design of the variety that accomplishes the method.

 Well 1 is charged with loose explosive dispersed in section 2 by an interval of cylindrical 3 and step-: toconic. 4 parts. Moreover, the contraction of the stepped part is directed towards the mouth section of the charge, where, the thriller has a 5 s. Deponiruyuschem hole, a tamping 6 is placed on top, the initiation of the dispersed charge is produced by the section. From impulse, fighter 5 explodes and produces destruction. Part of the energy is concentrated in the stepped part 4, passes directionally through the cylindrical part 3 in the form of a wide beam, which differs significantly from the cumulative jet, which has a higher density and speed of movement. Due to the absence of charge cladding, and the presence of jaggedness melts, part of the gap produces energy in the form of a wide beam which passes through the gap with some delay and after that initiates the charge of the next section.

The charge of this section produces more destruction than the charge of the wellhead section. Then a part of the energy of the explosion: the charge of the second section turns into the energy of the next section charge and so on up to the bottom. With this explosion, the step portion of the gap, in addition to directing the shock wave through the cylindrical portion

also contributes to an increase in the time of flow of an explosion by reducing the speed of the double twisting of the shock wave and increasing the time for the concentration of energy

The method also allows the explosion energy to be redistributed proportional to ... But the resistance of the rocks to the explosion effect from the mouth to the bottom of the well is due to the directional transfer of the charge section. The number and shape of the gap, the ratio of its parts, and the length of each section of the charge can be finished - with the necessary Redistribution of the explosion energy over the entire height of the step. The cylindrical part of the gap is filled with expanded polystyrene crumbs or sawdust, and the stepped part of the mold is pyjoT of foam plastic or plastic corresponding to its shape. The total height of each gap is chosen equal to 3t10 diameters of the well with the ratio of part 4 to hours. 3 from 0.2 to 4.0.

Invention formula

The method of rock blasting of rocks, including drilling a well, forming a charge from loose explosives dispersed into sections with inert gaps, and cracking, which is due to the fact that, in order to improve the degree of crushing of mountains, rocks from the mouth section to the bottomhole section, the gaps are made with cylindrical and stepped-conical parts, the tapering of the stepped-conical part being directed towards the mouth section of the charge, and the total height of each spacer is chosen diameters of the well at a ratio of the stepped-conical part to the cylindrical part from 0.2 to 4.0.

Claims (1)

Claim A method of blasting rock formations, including drilling a well, forming a charge from a loose explosive dispersed into a section with inert intervals, and blasting, characterized in that, in order to improve the degree of crushing of the rocks due to the sequential increase in the explosion energy from the wellhead section to downhole, the gaps are performed with cylindrical and step-conical parts, and the narrowing of the step-conical part is directed towards the wellhead section of the charge, and the total height of each gap is chosen equal to 3Ή0 well diameters with a ratio of step-conical to cylindrical parts from 0.2 to 4.0.