UA136031U - METHOD OF DESTRUCTION OF ROCKS BY EXPLOSION - Google Patents

Abstract

A method of destroying rocks by explosion, in which wells are drilled, charged with two types of explosives and detonated. First, wells are charged and detonated with one explosive whose impedance is equal to the acoustic stiffness of the rock, and then again drill and charge subsequent wells with another explosive, the impedance of which must also be equal to the acoustic stiffness of the rock, and at the same time differ. from the impedance of the previous explosive.

Description

The method of destruction of mining rocks by explosion is used for the extraction of minerals by an open method in quarries, and it can also be used during blasting operations in the country's coal mines.

Various methods of detonating well charges, various parameters of their location on the ledge, order and sequence of detonating charges, various designs of the well charges themselves, and methods of calculating the parameters of drilling and blasting operations on ledges during the destruction of rock and semi-rock rocks are known and widely used in quarries (11.

But in all these known cases, almost half of the energy of the explosion of well charges is not used for the destruction of rocks, but is lost and goes in vain deep into the massif.

A known method of destruction of rocks by explosion |2), the essence of which is that in explosive charges, which are placed in wells drilled along the contour of the reflected massif, warheads are installed on the ends of adjacent charges in a checkerboard pattern, located from each other vertical at a distance (I) equal to:

Y-a.r/S--04, where a is the distance between wells; p - speed of detonation of the explosive substance;

C is the propagation speed of elastic waves in the array;

And - spread by the time of activation of fighters.

This method ensures increased reliability of the formation of the area of increased voltage between the wells, the boundaries of which are closed on the opposite ends of the neighboring charges from the warheads, but with this method, half of the energy of the explosive waves does not take part in the destruction of mining rocks.

There is also a known method of explosive blasting of mining rocks |Z), the essence of which is that the well is charged with a loose charge of explosive substance, dispersed on the section by inert gaps, which are performed with cylindrical and stepped-conical parts.

The narrowing of the part 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 a ratio of parts from 0.2 to 4.0.

The stepped part of the gap directs the shock wave through the cylindrical part of the gap in the form of a wide beam, and also contributes to increasing the time of the explosion due to

To ensure a decrease in the speed of the shock wave and an increase in the time for energy concentration. This method also does not ensure a more complete use of the energy of blast waves that spread deep into the massif of rocks.

The method of destruction of mining rocks by extended charges of explosives is also known

HER. The essence of the method is that in order to increase the degree of crushing of rocks due to more complete use of explosion energy, in adjacent wells of adjacent rows, additional initiation of charges is produced from the side of the opposite outer walls of the wells, relative to the destroyed massif of mining rocks. Additional initiation of well charges does not allow using the energy of explosive waves that went deep into the massif from previous explosions of explosive charges to destroy rocks.

There is another known method of explosive blasting of mining rocks І|5|, the essence of which is that in order to improve the quality of rock crushing due to more efficient use of explosion energy, flat explosive charges are used, the planes of which are placed perpendicular to the maximum compressive stress. This method of explosive chipping of mining rocks does not ensure full use of the energy of explosive waves for the destruction of the massif.

There is a known method of crushing mining rocks by explosion |b| in which, in order to reduce the costs of raw materials from excessive crushing by knocking out oversized blocks with their subsequent crushing to the standard size, as well as reducing the cost of blasting due to the reduction of crushing costs, auxiliary shortened holes are drilled with a depth of up to 0.5 of the height of the ledge, while first, the main holes are properly blown up with a specific explosive consumption (BP) to separate the massif along natural cracks. And then they already charge and detonate auxiliary shortened holes with a specific flow rate of BP for crushing oversize. With the described method of rock crushing, half of the energy of blast waves does not take part in rock destruction.

There is a well-known method of blasting mining rocks І7| the essence of which is that in order to reduce the seismic action and improve the quality of crushing by separating the fronts of shock blast waves, the block is divided into two parts, the wells of one part of the exploding block are charged with high-sensitivity BP, the other with low-sensitivity BP, while the dividing line the block is oriented perpendicular to the bases of the trapezoid. This method of explosive blasting of mining rocks is the closest in terms of technical essence and the result achieved, and therefore is taken as an analogue. The technology of the method described above provides the use of two different types of explosives, but their properties and, especially, the conditions of use of BP are not used for additional destruction of rocks by the energy of explosive waves that spread deep into the rock massif from previous explosions.

The task is to use two different types of explosives: firstly, to transfer as much explosion energy as possible to the massif of mining rocks, and, secondly, to extract previously lost energy from previous explosions and use it for additional destruction of the massif of mining rocks .

The problem is solved by the fact that in the method of destroying mining rocks by explosion, which includes drilling wells, charging them with two types of explosives and blowing them up, first the wells are charged and blown up with one explosive substance, the impedance of which is equal to the acoustic stiffness of the mining rock, and then they are drilled again and charge subsequent wells with a different explosive substance, the impedance of which must also be equal to the acoustic stiffness of the rock, and at the same time differ in its impedance by one half-wave of compression from the impedance of the previous explosive substance.

According to І8В, 9|І with the destruction of rocky and semi-rocky mining rocks by the energy of the explosion occurs due to the action of the explosive wave reflected from the free surface, which in this case loses its half of the wave and thus transforms from a compression wave into an extension wave. And the tensile strength limit of mining rocks is an order of magnitude less than the compressive strength limit of mining rocks. Therefore, the process of destruction of the rocky and semi-rock massif of mining rocks on the escarpment will occur in the direction from the free surface towards the location of the well charge due to the energy of the reflected explosive stretching waves.

During blasting by known and above-mentioned methods, almost half of the energy of blast waves does not take part in the destruction of mining rocks, it spreads and is lost in the depth of the undisturbed massif, creating the effect of its previous saturation with energy without visible signs of disintegration of mining rocks.

That is, there is a process of constant accumulation of the potential energy of explosive waves in the massif of rocks. The essence of the proposed method is that in a mass of mining rocks that has not yet been destroyed, but has accumulated potential energy from previously conducted explosions,

An explosive wave with a different amplitude of oscillation, which is equal to the loss of a half-wave of compression, is directed from it. This effect is achieved by the subsequent use for charging and detonation in wells of another type of explosive with a different impedance, which should maximally correspond to the acoustic stiffness of the destroyed rock and be different from the previous explosive by one half-wave of compression. In this case, the previously accumulated energy of the blast waves in the massif of mining rocks will be revealed, used and directed to the additional destruction of the massif of mining rocks, due to the fact that the destruction of the rock will no longer occur due to compressive stresses in the blast wave, but due to stresses in the explosive stretching waves. And the strength limit of mining rocks under tensile stress is ten times less than the strength limit of rocks under compressive stress.

An example of using the method. First, the drilled wells are filled with an explosive substance, the impedance of which should be maximally equal to the acoustic stiffness of the rock, and they are blown up. Then they drill the wells again and fill them with another explosive substance, the impedance of which should also be maximally equal to the acoustic stiffness of the mining rock, and at the same time, the other explosive substance should differ from the previous explosive substance by one half-wave of compression and detonate them. This makes it possible to extract and use previously lost energy from the previous explosion to direct it to additional destruction of mining rocks. In this way, it is possible to increase the dimensions between the wells and significantly reduce the costs of drilling and blasting.

Sources of information: 1. Tomakov P.I., Naumov I.K. Technology, mechanization and organization of open-pit mining: Textbook for universities. - M.: Moscow Mining Institute Publishing House, 1992. - 464 p. 2. Method of destruction of rocks by explosion. Auth. sv-vo0 USSR Mo 1363922 V.I. Pugachev,

Hryhoryan S.S. "Transvzrivprom", publ. Bull. Mo 27 ot 07/23/1988. 3. The method of blasting of rocks. Auth. USSR Mo. 1362213 Muhambet Satov, publ. Bull. Mo 29 dated 07.08.1988. 4. Method of destruction of rocks by prolonged charges of explosive substances. Auth. sv- vo USSR Mo 894317 Mets Yu.S., Kolesnychenko I.T., Lesko V.G., publ. Bull. Mo 48 dated 12/30/1981. 5. The method of explosive blasting of rocks. Auth. sv-vo USSR Mo 749132 Mashukov I.V., publ. Bull. Mo. 21 dated 07.06.1981.

6. Method of rock crushing by blasting. Auth. sv-go0 USSR Mo 1492206 Ilyakhin S.V.,

Mamokhin A.B., Fedorchenko V.A., Seryikh N.M., Khlebyna O.I., Morozov S.V., publ. Bull. Mo 25 dated 07.07.1989. 7. The method of blasting of rocks. Auth. USSR Mo. 1091634 Muhambet Satov,

Urumov T.T. published Bull. Mo. 36 dated 30.09.1985. 8. Hanukaev AN. The energy of stress waves during the destruction of rocks by explosion. M.

Gostekhnadzor, 1962. - 200 p. 9. The mechanism of destruction of a non-uniform layered massif of rocks by the de-energization of an explosion. /Novak A.I. Bulletin of the NUVHP, collection of scientific works, "Technical Sciences" series. - 2014. - Issue Mo 4 (68). - P. 441-447.

Claims (1)

USEFUL MODEL FORMULA A method of rock destruction by explosion, in which wells are drilled, charged with two types of explosives and blown up, which differs in that the wells are first charged and blown up with one explosive substance, the impedance of which is equal to the acoustic stiffness of the rock, and then again drill and charge subsequent wells with a different explosive substance, the impedance of which must also be equal to the acoustic stiffness of the rock, and at the same time differ in its impedance by one half-wave of compression from the impedance of the previous explosive substance.