RU2775124C1 - Method for blasting different-strength rock masses in the permafrost zone - Google Patents

Abstract

FIELD: mining industry.

SUBSTANCE: invention relates to the mining industry, and in particular to methods of explosive blasting of rocks from an array, and in particular to methods of blasting different-strength rock masses in the permafrost zone in open pit mining. The method for explosive breaking of rocks from a massif includes drilling blast holes, determining in the process of drilling the presence of zones of permafrost, seasonally thawed layer and talik layers, location depth and their thickness, marking the contours in the plan and marking the roof and soil of these zones along the depth of the holes, loading wells dispersed and placed in the indicated zones with explosive charges, the diameter of which is equal to the diameter of the wells, placement of inert gaps between explosive charges to prevent detonation transmission, placement of fighters in explosive charges, and detonation of explosive charges. In this case, in the zone of the seasonally melted layer 1 and the talik layer 2, ice cylinders 6 are coaxially located in the center of the explosive charge, and the rest of the space is filled with explosive 5, 14, and to ensure coaxiality, the ice cylinders 6 have guides 12, while the militants 13 in the explosive charges 14 in the zones of the seasonally thawed layer 1 and the talik layer 2 are connected to the corresponding charges in the permafrost zones 3 by detonation conductors 9, for example, a detonating cord or a shock wave tube, while the charges 14 with ice cylinders 6 in the zone seasonally thawed layer 1 and talik zone 2 are detonated simultaneously from instantaneous detonators, and charges 5 in permafrost zone 3 - from detonation conductors 11.

EFFECT: increasing the efficiency and uniformity of crushing of different strength massifs by increasing the zone of controlled crushing in permafrost while blocking the leakage of explosive gases into the seasonally thawed layer and talic layers.

2 cl, 2 dwg

Description

The invention relates to the mining industry and construction, namely, to methods of blasting different-strength rock masses in the permafrost zone in open pit mining.

Massifs of different strengths can have zones of permafrost, seasonally thawed layer and talik layers, which have different strengths, positions and thicknesses along the height of the blasted block. The explosion of such arrays leads to unequal sizes of destruction areas in these zones. Due to the greater strength of rocks, the radius of the controlled crushing zone (CZR) in the zone of permafrost turns out to be significantly smaller than in the zones of the seasonally thawed layer and talik layers. This leads to uneven fragmentation of the array and the appearance of oversized.

A known method of blasting different-strength rock masses in open-cast mining, including determining the presence of interlayers of hard and soft rocks during drilling, loading wells with explosive charges dispersed and placed along said interlayers, and blasting explosive charges (EX) (see Kutuzov B.N. Explosive Explosive Methods, Part 1. Destruction of Rocks by Explosions, Moscow: Gornaya Kniga, 2009, p. 420, Fig. 9.10, a). It is noted that the action of the charge is most effective if the gaps between the dispersed charges are filled with stemming material. Despite this, these gaps are destroyed during the explosion and the detonation products of explosives from the interlayer of hard rocks penetrate into the interlayers of soft rocks. This leads to the fact that the radius of the SRD in hard rocks is less than that in soft rocks, i.e. there is an uneven fragmentation of the array.

The method of blasting in open pits of different-strength layered rock masses with a lower, less durable layer of rock and an upper, more durable layer includes drilling wells, loading them with combined borehole explosive charges, placing a less powerful explosive in the lower part of the wells, dispersing the lower and upper parts of the charges with inert rock gap and placing a more powerful explosive in the upper part of the wells, driving the wells and initiating charges, with the placement of a less powerful explosive in the lower part of the wells to the level of the soil of a more durable rock layer, while the inert gap is performed with a height of 1.75 to 2.5 borehole diameters, and the initiation of the charges is carried out with advanced short-delayed blasting of the upper part of the charges relative to their lower part (see RU 2563893 C1, 27.09.2015, class F42D 1/08). However, this method does not ensure the effectiveness of the destruction of rocks of different strengths in permafrost with a seasonally thawed layer and talik layers.

A known method of explosive destruction of rocks of different strengths by dispersed and shortened borehole charges with a cumulative effect (see RU 2594236 C1, 10.08.2016, class F42D 1/08, F42D 3/04, E21C 41/26), including drilling of the main dispersed and additional shortened wells with a cumulative effect, determination in the process of drilling of the contour in plan, marks of the soil and the roof of strong inclusions, placement of explosive charges in the main and additional shortened wells, stemming and blasting. When loading additional shortened wells, a foam cylinder is lowered to the bottom of the well, the length of which is determined by the formula, then a cone is lowered with a diameter equal to the diameter of the well with a top angle from 90 ° to 30 °, while the height of the cone is determined by the formula, then the explosive charge is placed , the amount of which is calculated by the formula. The explosion of dispersed explosive charges is carried out at different times with the advanced short-delayed initiation of the upper charge. The explosion of the explosive charge in additional shortened wells is carried out with a short-delayed lead from those located near the upper dispersed charges. However, this method does not provide control of the explosion products during the destruction of permafrost with a seasonally thawed layer and talik layers due to the “shoot through” of the explosion products in them.

Also known is a method of blasting different-strength rock masses in the permafrost zone in open-pit mining, including determining the presence of permafrost zones, seasonally thawed layer and talik layers, the location depth and their thickness, marking the contours in the plan and marking the roof and soil of these zones in depth during drilling. wells (see Nikolaev S.P. Efficiency of explosive loosening of complex structures with interlayers of thawed soils // Vzryvnoe delo, No. 115/72, 2016. P. 77-85, Fig. 2). In the presence of a continuous explosive charge, detonation products leak (“shoot through”) into thawed layers and voids, which leads to a sharp decrease in the efficiency of the destruction of frozen rocks due to a rapid drop in gas pressure. This is confirmed by the insufficient development of the frozen rock layers and the increased yield of oversized items. To block leaks of detonation products (PD) in the known method, a waterproofing layer of frozen sludge with ice is placed in the zone of the thawed layer in the well.

The disadvantage of the known method is that the layer of frozen sludge is destroyed during the explosion and access to the leakage of PD into the thawed layers is opened. This is due to the fact that there is no counterpressure of explosive gases from the side of the thawed layer.

According to the method of blasting rock masses of varying strength, which includes determining during drilling the presence of permafrost zones, seasonally thawed layer and talik layers, the location depth and their thickness, marking the contours in the plan and marking the roof and soil of these zones by the depth of the wells (see Melnikov N. V., Marchenko L.N. Explosion energy and charge design. M.: Publishing house "Nedra", 1964. P. 16, Fig. 5), loading of wells is carried out by dispersed and placed in the indicated zones explosive charges, the diameter of which equal to the diameter of the wells. Explosive charges are separated from each other by gaps that are filled with sand and stone flour obtained during drilling. In this case, a more powerful explosive is placed in that part of the charges that crosses the solid inclusion (permafrost zone). However, during the explosion of explosive charges in these zones, gaps are destroyed and explosive gases (explosive detonation products) break through from the zone of permafrost to the zones of the seasonally thawed layer and talik layers, which reduces the efficiency of crushing the massif (uneven crushing).

The task to which the claimed invention is directed is to increase the efficiency of blasting permafrost rocks, including a seasonally thawed layer, as well as talik layers in permafrost in the form of various layers and lenses.

The technical effect obtained by solving the problem is to increase the efficiency and uniformity of crushing of different-strength massifs due to an increase in the EPZ in permafrost while blocking the leakage of explosive gases into the seasonally thawed layer and talik layers.

To solve the problem, a method for blasting different-strength rock masses in the permafrost zone in open-cast mining, including drilling blast holes, determining in the process of drilling the presence of permafrost zones, seasonally thawed layer and talik layers, location depth and their thickness, marking contours in the plan and marks the roofs and soils of these zones along the depth of the wells, loading the wells with dispersed and placed explosive charges in the indicated zones, the diameter of which is equal to the diameter of the wells, the placement of inert gaps between the charges to prevent the transfer of detonation, the placement of militants in explosive charges and the detonation of explosive charges, is different by the fact that in the zone of the seasonally thawed layer and the talik layer, ice cylinders are placed in the center coaxially (coaxially) along the borehole charge along its axis, and the rest of the space is filled with explosives, and, to ensure coaxiality, the ice cylinders have guides, while the fighters in the dawn explosives in the zones of the seasonally thawed layer and the talik layer are connected to the corresponding charges in the zones of permafrost by detonation conductors, for which, explosive charges with ice cylinders in the zone of the seasonally thawed layer and the talik zone are detonated simultaneously from instantaneous detonators, and explosive charges in the zone of permafrost - from the militants of the zones of the seasonally thawed layer and the talik layer, initiated through detonation conductors. In addition, ice cylinders are made with a diameter of 0.25 of the well diameter with lengths, respectively, equal to the thickness of the seasonally thawed layer and the talik zone, and the guides are made of flexible wire.

A comparative analysis of the features of the claimed solution with the features of analogues indicates the compliance of the claimed solution with the criterion of "novelty".

The set of features of the invention provides a solution to the claimed technical problem, namely, improving the loosening of rocks of different strength due to the rational distribution of the energy of the explosion and increasing the total time of the impact of the explosion on the massif in the process of explosive breaking.

The claimed technical solution is illustrated by a drawing, where figure 1 shows a diagram of the formation of an ice cylinder in a well with a cut along the line A-A (A) and an embodiment of the cylinder in the form of a triangular prism (B); figure 2 is a schematic diagram of the method of blasting different-strength rock masses in the permafrost zone in open pit mining and the formation of charges in the well.

According to the present invention, in the zone of the seasonally thawed layer 1 and the talik layer 2, an ice cylinder 6 is placed in the center coaxially with the borehole charge, with a length equal to the thickness of the seasonally thawed layer and the talik layer (see Fig. 2). Moreover, to ensure coaxiality, the ice cylinder 6 is pre-equipped with guides 12, at least on three sides along the diameter of the well 4, made, for example, of a flexible wire (see Fig. 1).

For detonation of explosive charges 5 in the permafrost zone, militants 8 are placed in them. Fighters 13 are connected through inert gaps 7 with the corresponding explosive charges 5 in the permafrost zone 3 by detonation conductors 11, for example, a detonating cord or a shock wave tube. At the same time, explosive charges 14 are blown up preliminary and simultaneously from instantaneous detonators in the seasonally thawed layer 1 and talik layer 2, and explosive charges 5 are exploded from militants 13 through detonation conductors 11 in the permafrost zone 3.

With this method of blasting, ice cylinders are crushed and evaporate, significantly increasing the pressure in the seasonally thawed layer and talik layer. This prevents the breakthrough of explosive gases from the explosion of charges in the zone of permafrost, the all-season-thawed layer and the talik layer.

The pressure of water vapor formed during the evaporation of an ice cylinder is 3-4 times higher than the pressure of explosive gases (detonation products) of the charge in the seasonally thawed layer and talik layer. This is due to the fact that the molar mass of water molecules is many times less than that of complex molecules of explosives. In the first approximation, assuming that the Clapeyron-Mendeleev law is fulfilled for explosive gases, the pressure of gases is inversely proportional to the molar mass of gases and, accordingly, the pressure of water vapor will be greater than the pressure of explosive gases. In this regard, the diameter of the ice cylinders can be set at 0.25 of the borehole diameter.

Determining the presence of zones of a seasonally thawed layer and a talik layer in the enclosing hard permafrost rocks, the contour in plan and the elevations of the roof and soil of these zones makes it possible to establish the parameters of the occurrence of these zones inside the destroyed massif, including their thickness at the depth of specific wells, to adjust the design and parameters of borehole charges VV, the necessary locations for the placement of ice cylinders along the depth of the wells.

Charging wells with explosive charges, the diameter of which is equal to the diameter of the wells, makes it possible to simplify the loading process, maximize the use of the volume of wells and increase the yield of rock mass from one linear meter of the well.

The manufacture of ice cylinders 6 can be performed as follows (see Fig. 1A). To form guides 12, at least three flexible wires twisted in the form of a ring are passed through a sleeve, for example, made of polyethylene, with a length equal to the thickness of the talik zone or a seasonally thawed layer of a certain diameter, which are straightened on three sides so that between them there was an equal angle (for example, 120 ⁰ ). Then the lower part of the sleeve is tied together with flexible wires and in a vertical position it is filled with water and frozen in this form. The resulting ice cylinder 6, when lowered into the well 4 by means of wire guides 12, is easily positioned in the center, in addition, the space formed by the guides 12 between the wall of the well 4 and the surface of the cylinder 6 facilitates the passage of detonation conductors, fighters and the placement of an explosive charge around the ice cylinder 6. Instead ice cylinder with guides, you can use an ice triangular prism made according to the diameter of the well (see Fig. 1B).

An example of a specific implementation of the claimed technical solution (see Fig. 2).

According to the geocryological service of the enterprise, the location, depth and thickness of the zones of the seasonally thawed layer 1 and talik zone 2 in the array of permafrost rock mass 3, the contours in the plan and the elevations of the roof and soil of these zones are determined. Based on the results of previous explosions, the amount of borehole charge is determined.

Taking into account specific conditions, the parameters of vertical downhole explosive charges, including their diameter (hole diameter), are determined using well-known methods or the results of previous explosions under similar conditions, without taking into account the presence of zones of seasonally thawed layer 1 and talik zone 2, i.e. based on the properties of host permafrost 3.

In accordance with the found values of resistance along the bottom of the ledge and the length (depth) of the wells, blast holes with a diameter of 4 are drilled along the grid of wells adopted at this enterprise.

In the process of drilling wells, by changing the drilling speed, color and condition of the destruction products that are brought to the surface, if necessary, the presence, the contour in plan, the marks of the roof and soil and the thickness of the zones of the seasonally thawed layer 1 and the talik zone 2 are specified along the depth of each well 4.

Then the wells are loaded with 4 explosive charges 5, 14, the diameter of which is equal to the diameter of the wells. Loading is preliminarily carried out from the bottom of the well to the soil of the talik zone 2. After that, the action 8 with the detonation conductor 11 is lowered and installed, after which an inert gap 7 (sand or stone flour) is placed. In this case, the detonation conductor 11 is passed through the inert gap 7. Next, the ice cylinders 6, the fighter 13 and the explosive charge 14 for the talik zone 2, connected to the detonation conductor 9, are installed. Performing similar operations, continue charging the explosive to the design height of the charge. Accordingly, the explosive charges 14 in the zones of the seasonally thawed layer 1 and the talik layer 2 have the form of a hollow cylinder.

In the process of loading wells, installation of downhole explosive networks is performed, connecting the action 8 of the explosive charge 5 in the permafrost zone with a detonation conductor 11 with the action in the thawed zone 13, detonation lead-out conductors 9 with the surface network, and at the end of loading, the stemming 10 of the upper uncharged part of the wells is placed.

First of all, with the help of an electric detonator, militants 13 are simultaneously and instantly blown up in the zones of the seasonally thawed layer 1 and talik layers 2, from the explosion of which the detonation conductors 11 are detonated and the militants 8 explosive charges 5 are blown up in the permafrost zone 3.

The use of the claimed invention will improve the technical and economic indicators of loosening of rocks of different strength due to the rational distribution of the energy of the explosion and an increase in the total time of the impact of the explosion on the massif in the process of explosive breaking.

Claims (2)

1. A method for blasting different-strength rock masses in the permafrost zone in open-cast mining, including drilling blast holes, determining in the process of drilling the presence of permafrost zones, seasonally thawed layer and talik layers, location depth and their thickness, marking the contours in the plan and marking the roof and soils of these zones along the depth of wells, loading wells with explosive charges dispersed and placed over the indicated zones, placing inert gaps between explosive charges, placing militants in explosive charges and detonating explosive charges, characterized in that in the zone of the seasonally thawed layer and the talik layer ice cylinders are placed coaxially in the center of the explosive charge, and the rest of the space is filled with explosive, and to ensure coaxiality, the ice cylinders are additionally equipped with guides, while the fighters in the explosive charges in the zones of the seasonally thawed layer and the talik layer are connected to the corresponding charges in the permafrost zones by detonation conductors passed through inert gaps, for which the charges with ice cylinders in the zone of the seasonally thawed layer and the talik zone explode simultaneously and instantly, and the charges in the permafrost zone - from the militants of the zones of the seasonally thawed layer and talik layer initiated through detonation conductors. 2. The method of blasting rock masses of different strengths in the permafrost zone according to claim 1, characterized in that the ice cylinders are made with a diameter of 0.25 of the well diameter and lengths equal to the thickness of the seasonally thawed layer and the talik zone.

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