CS266660B1 - A method of performing blasting operations to influence structurally mechanical coal seam units - Google Patents

Abstract

The method relates to the implementation of blasting operations to influence structural and mechanical units in a coal seam, i.e. to reduce the risk of mountain tremors, gas and coal bursts in deep mines and consists in the fact that boreholes for the charge are established in a coal block with a diameter that is at least 1.5 times the diameter of the charge and these boreholes are filled with water up to their mouths before firing. To increase the efficiency of the blasting operation, a counter-directional ignition is performed

Description

The invention relates to a method of carrying out blasting work for influencing structural-mechanical units in a coal seam, i.e. for reducing the risk of mountain shocks, gas and coal bursts in deep mines.

Previously known blasting procedures to eliminate the risk of mountain shocks, coal and gas bursts are carried out in boreholes with a diameter of up to 50 mm charged by hand, or in boreholes of larger diameters, charged by various mechanized methods. In the case of manual charging, the diameter of the borehole is chosen close to the diameter of the charged charges, mainly to ensure the stability of the detonation in terms of interrupting the detonation by the preceding air wave. This method is very difficult to implement in terms of charging. Charging these boreholes with explosives with a stabilized doping rate encounters a low relative safety of these explosives against the initiation of methane and coal dust. Methods for ensuring the stability of detonation by means of mine-safe bleekovice are known, but there are also problems with charging. The reduction of the risk of deflagraco is usually solved by prescribing charging in a common package, or this package is double and after being pulled into the borehole, this package is filled with water or another liquid. This method is time-consuming and also causes practical problems in charging particularly long bores during practical application. There are known ways to reduce the risk of deflagration, where different types of prefabricated parts are placed on the bottom of the borehole before and after the charge.

-2266 660 packings filled with various liquids or gels * None of these methods guarantee absolute protection against deflagration and the effectiveness of blasting work is reduced by the attenuation of voltage waves between the charges and the borehole wall, which is greater the greater the difference between the diameter of the charge and the bore.

The above-mentioned drawbacks are eliminated by the method of carrying out the explosive powder according to the invention, the essence of which consists in that the boreholes for charges are laid in a coal block with a diameter of at least 1.5 times the diameter of the charge and filled with water before firing up to to its mouth. To increase the efficiency of blasting work, the opposite ignition is performed. In the coal seam, a borehole is established, which is usually driven with any diameter, regardless of the diameter of the explosive used. The borehole is charged with explosive and filled with water. Because the water is around the charge at the time of detonation, stress waves are transferred to the massif without significant losses. The case of deflagratory combustion of explosives, cases of overcharging of the charge by the channel effect and subsequent failures, which are possible if the charge is placed freely in the borehole, without filling the space between the walls of the borehole and the charge with water, are practically excluded. Failures of these special long charges are very risky due to their difficult disposal and the danger of their possible subsequent initiation by the cutting organs of mining machines. The risk of a channel effect increases with these charges without being stored in the aquatic environment, as boreholes with increased diameters are made to facilitate the charging of charges, which are several times longer in these special blasting operations than in conventional blasting operations. Furthermore, cases of thermal action of mountain fumes on the explosive mass are excluded. From a hygienic point of view, the composition of the detonation products will be significantly improved, mainly by reducing the amount of toxic nitrogen oxides. The development of coal dust is also limited compared to the methods used so far.

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266 660

The following example shows a specific way of carrying out blasting work for influencing structural-mechanical units in the coal seam. At. diameter of the explosive used 28 - 30 mm, the most advantageous diameter of the bore is 45 mm. The length and permeability of the borehole are checked just before charging using adjusting chargers. To facilitate charging, the borehole is not pre-flushed; when drilling for flushing, the borehole is cleaned with compressed air blown into the borehole through the drill rod. The relationship between the charges® during charging is checked by subtracting the length of the charged column of explosive from the length of the borehole according to the marks on the chargers. Instant electric detonators in a mine-safe design with such a length of supply conductors shall be used for detonation that it is not necessary to adjust them in the borehole. also by instantaneous electric detonator in mine safe design. The entire borehole is filled with water up to its mouth. If there is a noticeable leakage of water from the borehole, a constant inflow of water into the borehole will be ensured. The two detonators are connected and fired.

Claims (2)

OF THE INVENTION A method of blasting work for influencing the structural mechanical units of a coal seam with a water seal, characterized in that the boreholes for charges are laid in a coal block with a diameter of at least 1.5 times the diameter of the charge and filled with water up to. to its mouth. 2. The method according to item 1, characterized in that a counter-rotation is performed to increase the efficiency of the blasting work. Moravské tiskařské závody, středisko 100, Studentská tr.5, OLOMOUC Price: 2,40 Kčs