UA150426U - Method of forming and detonating a deep-hole charge - Google Patents

Abstract

A method of forming and detonating a deep-hole charge includes drilling a well on the block under development, placing initiation and explosive means in the well cavity, isolating the explosive from the day surface with a tamping. Before charging wells a bulk detonator is made in the form of a shell of polymeric material, the length of which corresponds to the height of the deep-hole charge, while in the end parts of bulk detonator checkers are located, and bulk detonator is placed in the cavity of the well Adjacent to the volumetric detonator in the well a capsule is placed, formed from a multilayer shell of polymeric material, in which the explosive charge is placed. The explosive charge is insulated with a tamping in the form of a closing capsule, inside the multilayer shell of which a crushed rock mass is placed. At the same time inside the bulk detonator high-temperature plasma and a zone of regulated critical pressure of the detonation wave is formed between the slabs by initiating thereof, the synergistic effect of which initiates the explosive in a multilayer capsule along the height of the deep-hole charge. Explosives, which, upon reaching the critical pressure, destroy the shell of the multilayer capsule along the entire height of the deep-hole charge and dynamically affect the rock mass.

Description

The useful model belongs to the mining industry, in particular, for the explosive destruction of rocks of medium and above average strength in the open development of ore and non-ore minerals.

There is a well-known method of forming a well charge, which includes drilling a well, in the cavity of which means of initiation are placed - combatants. After that, the cavity of the well is filled with an explosive substance, the amount of which provides the necessary level of explosion energy for the destruction of the rock massif.

Above the column of explosive substance, a wall of crushed rock mass is placed to prevent the breakthrough of the gases formed. Militants are connected to each other in a single explosive network and connected to the means that ensure their initiation (Bizov V.F., Fedorenko P.Y. "Explosive works", Kryvyi Rih, "Mineral", 2001, 130-133 ).

The disadvantage of the known method is that when the explosive is initiated, the detonation wave propagates sequentially along the body of the explosive. This order of initiation results in a relatively low rate of formation of explosion products and, accordingly, reduces the speed of the pulse of dynamic impact on the mountain massif.

The well-known method of forming and detonating a well charge for the destruction of strong and particularly strong rocks requires an increase in the specific consumption of explosives, which negatively affects the cost of drilling and blasting.

A significant disadvantage of the known method is that it is characterized by a significant yield of oversized material, which requires significant costs for additional secondary crushing.

The known method does not involve the process of regulated accumulation of explosion energy with subsequent destructive impact on the mountain massif.

An increase in the specific gravity of the explosive has a negative effect on the effectiveness of the drilling charge, which leads to significant emissions of dust particles into the atmosphere, worsening the ecological situation of the industrial region.

The task of the useful model is to improve the method of forming a well charge by placing an explosive substance in a capsule that has a multilayer shell and high strength. In addition, a volumetric detonator is used to initiate the explosive substance, which is made of a shell, to the end parts of which are attached warheads. For

Due to the accumulation of the energy of the explosion during the initiation of the explosive substance, the volumetric detonator is placed on the outside of the high-strength shell of the capsule, in which the explosive substance is located.

An increase in the energy potential of the explosion is provided by drilling the well, which is performed in the form of a capsule in which moistened crushed rock mass is placed. The capsule for placement of the pit is made of a water-impregnated membrane if there is a water well, and if there are dry wells, the capsule is made waterproof for pre-saturation with water of the crushed rock mass intended for the pit.

The task is solved due to the fact that the method of formation and detonation of the well charge includes drilling a well on the block being developed, placing initiation means and explosive substance in the well cavity, isolating the explosive substance from the day surface with a hammer.

According to a useful model, before charging wells, a volumetric detonator is formed in the form of a shell made of polymer material, the length of which corresponds to the height of the well charge.

In the end parts of the volumetric detonator, warheads are placed and the volumetric detonator is placed in the cavity of the well. Adjacent to the volume detonator in the well, a capsule is placed, which is formed from a multi-layer shell of polymer material, in which the charge of an explosive substance is placed, and is isolated by a hole punch in the form of a closing capsule, inside the multi-layer shell of which crushed rock mass is placed.

Inside the volumetric detonator, by initiating the warheads, a high-temperature plasma and a zone of regulated critical pressure of the detonation wave are formed between them, the synergistic effect of which initiates an explosive substance in a multilayer capsule along the entire height of the well charge.

When the explosive charge is initiated, explosion products are formed, which, upon reaching critical pressure, destroy the shell of the multilayer capsule along the entire height of the well charge and dynamically affect the rock massif.

To increase the detonation characteristics, one strand of the detonating cord is placed inside the shell of the volumetric detonator.

To increase the energy indicators of the explosion when destroying strong rocks, at least two strands of the detonating cord are placed inside the shell of the bulk detonator.

In order to effectively isolate the explosive charge by saturating the crushed rock mass with water, during the formation of the well charge in watered wells, the multilayer shell of the closing capsule is made waterproof.

For effective closing of the explosive charge, when forming the well charge in dry wells, the multilayer shell of the closing capsule is made waterproof with subsequent water saturation of the hammering material from the crushed rock mass.

The technical result of the implementation of the useful model is that: a high degree of detonating effect of the bulk detonator on the explosive charge is ensured; the explosion carried out has high energy characteristics; as a result of the explosion, high-quality crushing of the massif of strong and especially strong rocks is ensured with minimal oversize output; the method of forming the well charge is high-tech and allows charging both dry and watered wells with an explosive substance; the use of a multi-layer shell of the capsule, in which the explosive substance is located, allows energy to be accumulated in the capsule from the moment of detonation of the explosive substance to the moment of its impact on the mountain massif; the location of the bulk detonator from the outer part of the capsule containing the explosive substance allows you to speed up the process of charging the wells and, accordingly, reduce the time of delivery of the block for a mass explosion; the use of a capsule with a moistened impact makes it possible to isolate the explosive substance as much as possible, and in combination with a capsule containing an explosive substance, it allows creating a camouflage effect of the explosion on the mountain massif with a minimum volume of emissions; the method can be implemented during blasting operations in open-pit mining operations by blowing up wells of any diameter.

The method is implemented as follows.

The implementation of the method is based on the use of the maximum effect of restraining the dynamic impact on the rock mass of the products of the initiated explosive substance, which is located in a capsule, the shell of which is formed from many layers of polymer material, among which the best is polypropylene, which has high mechanical strength and does not deform when using an explosive substance , which can have a high temperature when charging wells.

The use of a capsule with a strong shell makes it possible to effectively use the initiating effect from the impact of a volumetric detonator, which is used to realize the maximum energy impact of the explosion on the mountain massif.

After drilling the wells, preparation for the explosion is carried out from the moment of formation of the volume detonator on the block being developed. First of all, a shell of polymer material is formed, the length of which corresponds to the height of the well charge.

To the end parts of the casing of the volumetric detonator, checkers are attached, which are connected to the explosive network on the block.

The volumetric detonator is placed in the cavity of the well. Adjacent to the volumetric detonator in the well, a multi-layer shell of the capsule is placed for placing the explosive substance. Studies have shown that woven and non-woven polymer materials can be used as a shell of a volumetric detonator.

Experimental and research and industrial studies have shown that the effective use of a shell made of woven polypropylene for the formation of a capsule intended for the placement of an explosive substance. The use of polypropylene ensures high mechanical strength of the capsule shell. The performance of a multilayer shell with the number of layers of polypropylene fabric from 3 to 15 ensures a high accumulative capacity of the shell during the initiation of an explosive substance. If the shell of the capsule has less than three layers, then its strength is not enough to accumulate the energy of the explosion for further destruction of the rock massif.

Increasing the number of layers of polypropylene fabric to more than fifteen does not significantly increase the positive effect of the accumulation of explosion energy.

In addition, the use of woven polypropylene prevents deformation of the capsule shell when using an explosive substance that has a significant temperature. because after filling the capsule with an explosive, the well is hammered.

For hammering, a closing capsule is used, the shell of which is made of multi-layer polymer material and filled with crushed rock mass. The use of the capsule makes it possible to ensure an effective closing effect and prevent emissions of explosion products and dust particles into the atmosphere.

Depending on the mining conditions, closing capsules with a water-permeable and waterproof shell can be used. This is due to the fact that, as a result of research, it was established that the hydrated rock mass in the shell has a high locking effect, which ensures not only the prevention of explosion products breaking into the atmosphere, but also the maximum destructive effect on the rock mass.

To ensure the locking effect when performing an explosion in watered wells, the capsule is made with a water-permeable shell. The water-permeable shell of the closing capsule allows you to saturate the crushed rock mass during the period from the moment the well is equipped to the moment the explosion is produced.

If the blast wells are dry, then a waterproof shell of the closing capsule is used. The waterproof shell allows to saturate the crushed mass of the batter with water during charging, while it is not drained until the explosion is produced.

During the execution of the explosion, first of all, checkers-fighters are initiated. The presence of a shell between warheads causes the movement of counter-directed detonation waves from each checker, which are accompanied by counter-directed streams of high-temperature plasma.

The high-temperature plasma and the regulated critical pressure of the detonation wave synergistically affect the explosive substance and initiate it.

When an explosive substance is initiated inside a multilayer capsule, there is a short-term accumulation of explosion products, which, upon reaching a critical pressure, subsequently destroy the shell of the multilayer capsule and affect the rock massif, systematically destroying it.

Studies have shown that, depending on the favorable conditions for the formation of a volume detonator channel along which high-temperature plasma and counter-directed detonation waves move, results can be achieved by placing it inside the shell

From the bulk detonator, one thread of the detonating cord.

Increasing the above effect, depending on the type of explosive used and the physical and mechanical properties of rocks, is achieved by placing at least two strands of detonating cord inside the shell of the bulk detonator.

Claims (5)

USEFUL MODEL FORMULA 1. The method of formation and detonation of a well charge, which includes drilling a well on the block being developed, placing in the cavity of the well initiation means and explosive substance, isolating the explosive substance from the day surface with a hammer, which differs in that before charging the wells, a volumetric detonator is formed in the form of a shell made of polymer material, the length of which corresponds to the height of the well charge, while warheads are placed in the end parts of the volumetric detonator and the volumetric detonator is placed in the cavity of the well, and a capsule is placed adjacent to the volumetric detonator in the well, which is formed from a multi-layer shell made of polymer material, in which the explosive charge is placed, and it is isolated by hammering a well in the form of a closing capsule, inside the multi-layer shell of which crushed rock mass is placed, while inside the bulk detonator, by initiating warheads, a high-temperature gas is formed between themplasma and the zone of regulated critical pressure of the detonation wave, the synergistic effect of which initiates an explosive substance in a multilayer capsule along the entire height of the well charge, while when the explosive charge is initiated, explosion products are formed, which, upon reaching the critical pressure, destroy the shell of the multilayer capsule along the entire height of the well charge and dynamically affect the mountain massif. 2. The method according to claim 1, which differs in that one strand of the detonating cord is placed inside the shell of the volumetric detonator. C. The method according to claim 1, which differs in that at least two strands of the detonating cord are placed inside the shell of the volumetric detonator. 4. The method according to claim 1, which differs in that the multilayer shell of the closing capsule is made waterproof. 5. The method according to claim 1, which differs in that the multilayer shell of the closing capsule is made waterproof.