UA127534C2 - BORE CHARGE - Google Patents

Abstract

The invention belongs to the mining industry and can be used for the destruction of rocks during the open mining of ore deposits, in particular for the destruction of rocks that have high strength and require significant energy to obtain a given granulometric composition. According to the invention, a casing made of polymer material is placed in the cavity of the well - a channel former, inside which there are at least two strands of detonating cords connected to the switching network. The length of the channel former corresponds to the length of the explosive charge in the well, and in the upper and lower parts of the channel former, warheads are attached to the detonating cords. The cavity of the well is filled to the design level with an emulsion explosive, previously prepared by impacting it with negative pressure, the value of which is less than the value of atmospheric pressure. The well is charged with an explosive substance using traditional means of mechanization, with minimal cost of the charging process, and the possibility of forming a cavity in the body of the explosive substance, which allows to increase the energy characteristics of the explosion.

Description

The well is charged with an explosive substance using traditional means of mechanization, with minimal cost of the charging process, and the possibility of forming a cavity in the body of the explosive substance, which allows to increase the energy characteristics of the explosion. eat

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The invention belongs to the mining industry and can be used for the destruction of rocks during the open mining of ore deposits. In particular, the invention relates to the design of well charges intended for the destruction of rocks that have high strength and require significant energy to obtain a given granulometric composition.

The invention is intended to provide high energy characteristics due to the high density of the explosive substance and the formation of a high-temperature plasma, which is formed once over the entire height of the explosive charge in the well and allows the initiation of the explosive substance in a shorter period of time compared to the traditional methods of initiating the explosive substance in open development ore deposits.

Well-known construction of a well charge, which includes a well drilled on a block, in the cavity of which means of initiation are placed in the form of checkers-fighters connected to means of commutation, and an explosive substance. The explosive substance was isolated from the bottom surface by a plug made of crushed rock mass (Bizov V.F., Fedorenko P.Y. Library of a mining engineer. Explosive works, volume 10. - Kryvyi Rih: Mineral, 2001. - P. 130-133).

The disadvantage of the well-known design of the well charge is that only warheads are used to initiate the explosive substance. This leads to the local formation of a detonation wave, which during a certain time spreads vertically along the body of the explosive substance. Traditional initiation of an explosive substance takes a relatively long period of time, which reduces the dynamic characteristics of the impact on the mountain massif. In addition, the movement of the detonation wave along the body of the explosive in its vertical direction leads to a gradual increase in the dynamic impact on the array and, as a result, the possibility of the formation of oversized pieces that require additional costs for secondary crushing.

It is significant that in the implementation of the known design, a granular explosive substance is used, which as a bulk mass in the borehole cavity has a relatively low bulk specific density, which negatively affects the energy indicators of the destruction of rocks, especially with their high strength.

The closest solution, chosen as the closest analogue, is a well charge, which includes a well, in the cavity of which an explosive charge with means of initiation is placed, as well as a plug that isolates the explosive from the day surface.

З In the well, inside the explosive, there is a container in the form of a pipe, the length of which corresponds to the length of the well charge. In the upper and lower parts of the container there are means of initiation - combat checkers (Patent of Ukraine Mo 112807 for a useful model).

The disadvantage of the well-known design of the well charge is that the use of a container as a cavity for the implementation of oppositely directed detonation waves increases the cost of blasting. The use of pipes with a considerable length requires additional costs for their transportation and the need for additional means of mechanization for placing these containers in the well cavity. In addition, the placement of warheads in the final parts of the well charge with a long well length leads to a decrease in the energy impact of the detonation wave on the well charge.

A significant disadvantage of the method is that a granular or emulsion explosive is used, which does not undergo preliminary preparation, as a result of which air gaps or air bubbles in the body of the explosive are eliminated to increase its density.

Insufficient density of the explosive leads to a decrease in its energy characteristics.

The basis of the invention is the task of improving the design of the well charge due to the fact that: an emulsion explosive is used as an explosive; a degassed explosive is used, obtained under the influence of negative pressure, the value of which is lower than atmospheric; a shell made of polymer materials is located in the explosive substance - a channel former; at least two strands of detonating cord are placed in the channel former; warheads are attached to the threads of the detonating cord located in the channel former, in the upper and lower parts of the well charge.

The task is solved by the fact that the well charge contains a well cavity, in which the means of initiation in the form of warheads are placed, as well as an explosive substance, which is isolated from the day surface by a plug made of crushed rock mass, a shell of polymer material is placed in the well cavity - a channel former , inside which there are at least two strands of detonating cords connected to the switching network.

The length of the channel former corresponds to the length of the charge of the explosive substance in the well, and in the upper and lower parts of the channel former, warheads are attached to the detonating cords, while the cavity of the well is filled to the design level with an emulsion explosive, previously prepared by impacting it with negative pressure, the value of which is less values of atmospheric pressure.

The drawing explains the essence of the invention.

According to the invention, the well charge includes a well, in the cavity of which there is a shell made of polymer material - a channel former, inside which there are at least two strands of detonating cords connected to the switching network.

The length of the channel former corresponds to the length of the explosive charge in the well, and in the upper and lower parts of the channel former, warheads are attached to the detonating cords. The cavity of the well is filled to the design level with an emulsion explosive, previously prepared by impacting it with negative pressure, the value of which is less than the value of atmospheric pressure.

The technical result of the use of the invention is that: the charging of the well with an explosive substance is carried out using traditional means of mechanization, with minimal cost of the charging process; the possibility of forming a cavity in the body of the explosive substance is provided, which allows to increase the energy characteristics of the explosion; the specific density of the explosive increases; the design of the charge can be implemented in the open development of mineral deposits of strong ores, which require significant kinetic energy for the destruction of the rock massif; the rock massif is effectively destroyed to the specified granulometric composition with a minimum number of oversized pieces, which then require additional material and labor costs for secondary crushing; counter-directed detonation waves are formed, the parameters of which provide impact on the explosive by high-temperature plasma; simultaneous detonation of the entire volume of the explosive substance in the well is ensured, as well as a high detonation speed, which improves the qualitative and quantitative indicators of a mass explosion at

From the development of the block; a reduction in the cost of blasting works is ensured in comparison with traditional methods used in open-pit mining operations.

The proposed design of the well charge is illustrated by its vertical projection.

The well charge includes a well 1, in the cavity of which is placed a shell made of polymer material - a channel former 2, inside of which there are at least two strands of detonating cords 3.

The length of the channel former 2 corresponds to the length of the explosive charge 4 in the well 1.

In the upper and lower parts of the channel former 2, warheads 5 are attached to the detonating cords.

Threads of detonating cords C are connected to the switching network 6 placed on the surface of the block being developed.

The cavity of the well 1 is filled to the design level with the emulsion explosive 4, which has undergone preliminary preparation by applying negative pressure to it, the value of which is less than the atmospheric pressure.

The emulsion explosive substance 4 is isolated from the day surface by a plug 7 of crushed rock mass.

The initiation means are connected to the switching network.

Wells are drilled on mining ore blocks and hollow rock blocks in accordance with the drilling and blasting passport.

The invention is implemented as follows:

After drilling the entire grid of wells, they start charging them.

Studies have shown that the use of granular explosives for the implementation of the construction of a well charge does not allow to obtain the expected effect - the maximum energy impact on the massif of rocks. It was established that emulsion explosives can be effectively used to charge wells. Since the emulsion explosive substance is gas-filled during the manufacturing process, the explosive substance is degassed before charging the wells.

Degassing can be carried out by settling the explosive until the 60th moment of complete removal of gas bubbles from the body of the explosive. Reducing the time spent on degassing the explosive substance can be achieved by using additional mixing, which avoids turbulent eddies, as a result of which the capture of atmospheric air can occur.

Studies have shown that the most effective way of degassing an emulsion explosive is the effect of negative pressure on it, the magnitude of which is less than atmospheric pressure. Various types of equipment can be used for such processing, involving the processing of explosive substances in isolated containers or flow vessels. The creation of negative pressure in the zone of placement or movement of the explosive substance allows you to effectively and in a short time remove gas bubbles from the body of the explosive substance, thereby increasing its specific density.

After the preliminary preparation of the emulsion explosive, they start charging the wells.

Before charging the wells, the height of the well charge is determined. Based on the obtained height of the well charge, two threads of the detonating cord are measured, which are placed in a shell made of polymer material - a channel former. In the upper and lower parts of the channel former, warheads are attached to the detonating cords.

Studies have shown that the use of at least two strands of detonating cords is effective in forming a channel in the body of the explosive. The use of a single strand of detonating cord in a channel former does not allow to effectively form a channel for the movement of counter-directed detonation waves formed by the initiation of warheads. An increase in the number of threads of the detonating cord by more than two pieces is due to the use of a high-density emulsion explosive or the production of explosions in conditions of low ambient temperatures.

A channel former with strands of detonating cords and warheads is placed in the well, which is filled with emulsion explosive to the design level. Above the explosive, the cavity of the well is filled with a packing made of crushed rock mass.

After filling the wells, the explosive network is switched to perform a mass explosion.

The mechanism of the explosion is as follows. First, with the help of an explosive chain, threads of detonating cords placed in a channel former between warheads are initiated.

When the threads of the detonating cords are initiated, there is an instant dynamic effect on the body of the explosive substance, while the particles of the explosive substance are displaced from the threads of the detonating cords towards the periphery. When the particles of the explosive substance move, a free channel is formed in its body, the length of which corresponds to the length of the channel former.

After the formation of a free channel, checkers are simultaneously initiated, which were previously located on both ends of the channel former. When the checkers are initiated, counter-directed detonation waves are formed and moved towards.

When counter-directed detonation waves collide, a high-temperature plasma is formed along the height of the channel, the characteristics of which allow to fully initiate the entire volume of the explosive simultaneously along the entire height of the charge. It is essential that the action of the high-temperature plasma is carried out perpendicular to the axis of the channel, that is, perpendicular to the axis of the charge. Under this influence, the detonation wave formed by the plasma moves along a short path along the body of the explosive material, limited by the diameter of the well.

Studies have shown that a short pulse impact on an explosive substance leads to a camouflaged explosion, in which almost all the energy of the explosion is directed towards the collapsing mountain massif, with minimal emissions of dust-like particles into the atmosphere.

The studies, which were carried out taking into account the conditions of the development of ore deposits of minerals, showed the high efficiency of the design of the well charge and the possibility of its application in any mining-geological and mining technical conditions.

The borehole charge allows you to reduce the cost of drilling and blasting due to the high energy characteristics of the explosion.

Claims (1)

FORMULA OF THE INVENTION A borehole charge containing a borehole cavity, in which initiation means in the form of warheads are placed, as well as an explosive substance isolated from the day surface by a plug made of crushed rock mass, which differs in that the borehole cavity has a shell made of polymer material - a channel former, inside which there are at least two strands of detonating cords connected to the switching network, while the length of the channel former corresponds to the length of the explosive charge in the well, and warheads are attached to the detonating cords in the upper and lower parts of the channel former , while the cavity of the well is filled to the design level with an emulsion explosive, previously prepared by impacting it with negative pressure, the value of which is less than the value of atmospheric pressure. and MK! Pe A ee A PV y. PEC 7 DONE Kovpies g I Kehpii GEO i rylo o OBOV I Pe V porve ree ka STTooonisna NN el i Z y ore A i By