RU118424U1 - EXTENDED EXPLOSIVE EXPLOSION DEVICE - Google Patents

Abstract

1. An initiating device for an extended charge of an explosive, including an intermediate detonator and a primary means of initiation, characterized in that it, as an intermediate detonator, comprises a combined intermediate detonator, consisting of a lumped intermediate detonator connected to the primary means of initiation, and an elongated intermediate detonator located along elongated charge axes; The linear density of an elongated intermediate detonator having the same detonation velocity as an elongated explosive charge is calculated by the formula! ! where РД, РBB - linear densities of the elongated intermediate detonator and the elongated explosive charge, t / m; ! ρД, ρBB - density of the elongated intermediate detonator and the elongated explosive charge, t / m3; ! dД, dBB - critical diameters of detonation of explosives of an elongated intermediate detonator and an elongated explosive charge, m; ! DD, DBB - velocity of detonation of explosives of the elongated intermediate detonator and the elongated charge of the explosive, m / s. ! 2. The device according to claim 1, characterized in that the initiating device may comprise several lumped intermediate detonators initiated simultaneously. ! 3. The device according to claim 1, characterized in that a powdery and / or granular ammonium nitrate explosive can be used as the explosive of the concentrated and linear intermediate detonators.

Description

The utility model relates to initiating devices for extended charges of industrial explosives located in underground mine workings for blasting in all climatic regions of Russia and the CIS countries.

An initiating device of an elongated charge, the explosive of which is insensitive to primary means of initiation, consists of an intermediate detonator and primary means of initiation. Initiating devices differ in the types of intermediate detonator and primary means of initiation

Elongated charges from low-sensitivity explosives often require the use of enhanced initiation, which is achieved by using an intermediate detonator from highly sensitive to the pulse primary means of initiation of explosives. The industry produces intermediate detonators in the form of detonator blocks of explosives of certain overall mass characteristics of pulse-sensitive electric and non-electric detonators and a detonating cord. Initiating devices with an increased mass of the intermediate detonator can be manufactured by assembling existing detonator blocks into blocks (1-3). The disadvantage of the blocks is the high complexity and low-tech formation of such intermediate detonators.

The sensitivity or susceptibility to detonation of an explosive is its ability to explode from the action of a shock wave of another explosive. The criterion for evaluation is the critical pressure at the front of the shock wave. Explosion of detonation by a shock wave can occur upon direct contact of the explosive with the primary means of initiation or upon contact with an intermediate detonator.

Any explosive is capable of stable propagation of detonation if its charge diameter is not less than the critical diameter of detonation, depending on the physical state of the substance (density, porosity, etc.) and the physico-mechanical characteristics of the medium surrounding the explosive charge in which it explodes. Explosives steadily detonate only at a certain speed. No matter how powerful a detonator is used, the detonation velocity in the charge of an initiated explosive in a certain area from the initiation site reaches a value characteristic of a given explosive under given explosion conditions. With an increase in the diameter of the charge, the detonation velocity increases to a certain limiting value characteristic of a given state of explosive and is usually observed in inhomogeneous (powdery and / or granular) explosives. The diameter of the explosive charge, above which the detonation remains constant, is considered the limiting diameter, and the speed is the limiting detonation velocity. The critical detonation diameter is a measure of the detonation ability of an explosive and is its most important characteristic: the smaller it is, the higher the detonation ability of a given explosive. Its value for the same explosive varies widely depending on the physical state and conditions of the explosion of the charge. The detonation velocity of an explosive charge in a critical diameter is a constant value, independent of the conditions of the explosion of the charge of the rock in which it is placed. Most ammonium nitrate explosives are insensitive to primary means of initiation and require the use of intermediate detonators.

Known core explosive device when the initiation of an explosion is carried out using an intermediate detonator in the form of a cylinder placed in the center along the initiated charge of the explosive mixture (4), adopted by the authors as a prototype. The disadvantage of the prototype device is the lack of selection criteria for geometric and explosive-technical (diameter, detonation speed, explosive density, etc.) parameters of the intermediate detonator.

The technical task of the utility model was to increase the efficiency of blasting operations by increasing the reliability of initiating an elongated charge from an insensitive explosive, the efficiency of an explosion, the safety and ease of installation of an explosive network, increasing security and reducing the cost of blasting.

The technical problem was solved by the development of an initiating device for an extended explosive charge, including an intermediate detonator and primary initiation means, which, as an intermediate detonator, contains a combined intermediate detonator consisting of a concentrated intermediate detonator connected to the primary initiation means and an elongated intermediate detonator placed along the axis extended charge; the linear density of the elongated intermediate detonator having the same detonation speed with an elongated charge is calculated by the formula: ,

where: - R _D , R _BB - linear density of the elongated intermediate detonator and the elongated explosive charge, t / m;

- ρ _d, ρ _BB - explosive density of the elongated intermediate detonator and elongated charge, t / m ³ ;

- d _D , d _BB - critical diameters of the detonation of explosives of an elongated intermediate detonator and an elongated charge, m;

- D _D , D _BB - detonation velocity of explosives of an elongated intermediate detonator and an elongated charge, m / s.

The initiating device may comprise several concentrated intermediate detonators initiated simultaneously; a concentrated intermediate detonator can be installed along the axis of the elongated intermediate detonator anywhere. As the primary means of initiation, electric detonators or non-electric initiation systems of the Edilin, SINV, Korshun type and their analogues are used. Elongated and concentrated intermediate detonators are made of powdered, granular or aqueous emulsion ammonium nitrate explosives.

After the primary means of initiation has been triggered, detonation is excited from its pulse in the concentrated intermediate detonator, and from the pulse of the concentrated intermediate detonator, the detonation pulse is transmitted to the elongated intermediate detonator adjacent to it. The detonation of an explosive of an elongated intermediate detonator proceeds in a continuous mode with the maximum possible (stationary) detonation velocity for it only in charges of the maximum diameter. The detonation of the main explosive charge is excited from detonation pulses of the concentrated and elongated intermediate detonators, which form a flat detonation wave front along the length of the charge. An elongated intermediate detonator, located along the axis of the initiated elongated charge, contributes to a more rapid increase in pressure and the establishment of a stable detonation velocity stationary for a given explosive and maintaining it in a continuous mode. Maintaining a steady steady state of detonation in an elongated explosive charge is achieved through the use of an elongated intermediate detonator of a certain diameter, calculated from the equality of the detonation speeds of the elongated intermediate detonator and the elongated explosive charge, taking into account their detonation parameters in the critical diameter.

The technical effect can only be achieved by combining all the features of a utility model. Placing an elongated intermediate detonator along the axis of an elongated explosive charge coupled to a concentrated intermediate detonator connected to primary initiating means ensures detonation pulse transmission, completeness of detonation, a stable detonation velocity of an elongated explosive charge, and an increase in explosion efficiency. The use of concentrated and elongated intermediate detonators of powdered, granular or water-containing explosives increases safety and reduces the cost of blasting.

The essence of the utility model is illustrated in figure 1, which shows a diagram of the initiating device of the elongated adit charge, depending on the location of the concentrated intermediate detonator (in section):

- a) a concentrated intermediate detonator in the end part of the elongated charge from the side of the stem;

- b) a concentrated intermediate detonator in the end part of the elongated charge from the bottom of the underground mine;

- c) a concentrated intermediate detonator in the middle part of an elongated charge;

- d) concentrated intermediate detonators in the end parts of an elongated charge;

- e) concentrated intermediate detonators equally spaced from the ends of the elongated charge;

Designations:

1 - charging chamber in an underground mine,

2 - an elongated explosive charge,

3 - elongated intermediate detonator,

4 - concentrated intermediate detonator,

5 - primary means of initiation,

6 - conductor of the initiating pulse to the primary means of initiation,

7 - stemming from an inert material,

d _s - the diameter of the explosive charge,

d _ld is the diameter of the linear intermediate detonator.

- the direction of motion of the front of the detonation wave in the explosive charge.

The proposed initiating device for an elongated explosive charge 2 is a combined intermediate detonator, consisting of a concentrated intermediate detonator 4, coupled with an elongated intermediate detonator 3. The focused intermediate detonator 4 is connected to the primary means of initiation 5 of the initiating pulse conductor 6. The elongated explosive charge with initiation means placed in the charging chamber 1 with the clogging 7 of inert material. The elongated intermediate detonator is adjacent to the concentrated intermediate detonator along the axis of the elongated charge. Concentrated intermediate detonators can be placed along the axis of the explosive charge in accordance with the blasting design. To ensure maximum transfer of the initiating pulse to the elongated explosive charge during its initiation, it is necessary that the contact surface of the concentrated and elongated intermediate detonators with the initiated explosive be as large as possible. Therefore, when initiating large-diameter charges, intermediate detonators are usually recommended to be recessed into the initiated explosive or placed inside and along the elongated charge of the mixed explosive.

The order of formation of the elongated charge and its operation.

For a given diameter of the charge generation, an explosive of an elongated charge is selected, which is capable of detonating at the maximum speed in a stationary mode. Based on the values of the detonation characteristics of explosives (detonation velocities in the critical diameter, critical detonation diameters), the linear density of the elongated intermediate detonator is determined by the formula from the condition that the detonation velocities of the elongated explosive charge and the elongated intermediate detonator are stationary. Depending on the diameter of the charge generation, in which the elongated explosive charge is placed, the concentrated and elongated intermediate detonators are made of various types of explosives (powder, granular, water-containing). Intermediate detonators of large mass in large chamber charges can be made of explosives packaged in bags or other packaging.

An elongated intermediate detonator helps to maintain a steady stationary detonation velocity for a given explosive in a charge. The volume of the destroyed rock and the degree of crushing is largely determined by the total momentum and the nature of its distribution. The initiation of an elongated charge using combined intermediate detonators allows you to adjust the duration of the interaction of detonation and shock waves, reflection and compression waves along the length of the elongated charge in the charging chamber, which increases the fraction of useful explosion energy and changes the nature of the rock mass destruction. The combined intermediate detonator provides a more favorable distribution of specific impulses, the total impulse is much higher than when initiated by one or more concentrated detonators. When a combined intermediate detonator is initiated, the interaction of detonation and shock waves in the charging chamber helps to create a kind of gas-dynamic shutter that delays the release of explosion products into the atmosphere for a longer time, which contributes to the transfer of most of the explosive energy to the environment with an increase in the duration of the explosion pulse on the medium.

An example implementation of a utility model (figure 1).

The adit extended mine with a mass of 2200 t in a charging output of 4000 m ^{3 was} made in the form of a stack of granulite RP explosive bags with a length of 50 m and a height of 7 m. The combined intermediate detonator was made of powdered ammonite explosive No. 6ZHV, placed in bags, and consisted of from a concentrated intermediate detonator with a mass of 19 tons and an elongated intermediate detonator with a length of 50 m. An elongated intermediate detonator was placed along the axis of the adit extended explosive charge. The average density of explosives: adit extended charge - ρ _BB = 0.9 t / m ³ ; elongated intermediate detonator - ρ _D = 1.0 t / m ³ . Critical diameters of detonation of explosives: adit extended gallery of Granulite RP - d _BB. = 0.075 m; elongated intermediate detonator from ammonite No. 6ZHV - d _D. = 0.01 m. Detonation velocities of explosives in a critical diameter: adit extended gallery from Granulite RP - D _BB = 2500 m / s; elongated intermediate ammonite detonator No. 6ZHV - D _D = 3000 m / s. The linear density of the adit extended charge is . The linear density of the elongated intermediate ammonite detonator No. 6ZHV, calculated according to the above formula, is: The mass of the elongated intermediate detonator is 21 tons (0.42 × 50 = 21).

The claimed technical result - improving the efficiency of blasting - is provided by the design of the initiating device of an extended explosive charge:

- the reliability of the transmission of the initiating pulse and maintaining a stationary steady detonation velocity of the explosive of an elongated charge along its entire length by placing an elongated intermediate detonator along the axis of the elongated explosive charge, providing a high contact surface with an elongated explosive charge;

- the safety of blasting due to the design of the initiating device made of powder, or granular, or water-containing explosives, - the placement of an elongated intermediate detonator, docked with a concentrated intermediate detonator, along the axis of the elongated explosive charge;

- increase the efficiency of the explosion due to the optimization of the parameters of the initiating device, providing a stable stationary detonation velocity of the elongated explosive charge;

- reducing the cost of blasting due to the design of the initiating device, consisting of a concentrated and elongated intermediate detonators of powdered, or granular, or water-containing explosives.

The claimed inventive device of powdered ammonium nitrate explosive was tested during a large-scale explosion for the construction of an explosive-filling dam using an extended adit charge from a granular ammonium nitrate explosive with positive results. An elongated adit charge in the form of a stack was formed from packages of bags with ammonium nitrate explosive. The combined intermediate detonator was carried out by stacking packages (bags) of powdered ammonium nitrate explosive. Explosives were manufactured in mobile, portable mixing plants installed at the production site near the site of the large-scale explosion.

Information sources

1. AS of the USSR No. 1119398.

2. RF patent No. 2080545.

3. RF patent №2251653.

4. RF patent No. 2060449.

Claims (3)

1. The initiating device of an elongated explosive charge, comprising an intermediate detonator and primary means of initiation, characterized in that it as an intermediate detonator contains a combined intermediate detonator, consisting of a concentrated intermediate detonator connected to the primary initiating means, and an elongated intermediate detonator located along axis of elongated charge; the linear density of an elongated intermediate detonator having the same detonation velocity with an elongated explosive charge is calculated by the formula

where R _D , R _BB - linear density of the elongated intermediate detonator and the elongated explosive charge, t / m; ρ _D , ρ _BB - the density of the elongated intermediate detonator and the elongated explosive charge, t / m ³ ; d _D , d _BB - critical diameters of the detonation of explosives of an elongated intermediate detonator and an elongated explosive charge, m; D _D , D _BB - detonation velocity of explosives of an elongated intermediate detonator and an elongated explosive charge, m / s. 2. The device according to claim 1, characterized in that the initiating device may contain several concentrated intermediate detonators, initiated simultaneously. 3. The device according to claim 1, characterized in that as the explosive concentrated and linear intermediate detonators can be used in powder and / or granular ammonium nitrate explosive.