RU8109U1 - EXPLOSIVES - Google Patents

Abstract

1. An explosive charge containing tubular gunpowder in the form of a beam of a given diameter, a granular powder placer and a burning sleeve placed in the shell, characterized in that the channels of the powder tubes, the gaps between them and the powder grains are filled with an oxidizing solution, and the shell is formed by a sleeve of synthetic material. 2. The charge according to claim 1, characterized in that polyethylene is used as a synthetic material. The charge according to claim 1 or 2, characterized in that ammonium nitrate is used as the oxidizing agent. 4. The charge according to claims 1, 2 or 3, characterized in that when it is placed in a well with an annular gap with respect to the walls, said gap is filled with explosive or ammonium nitrate. 5. The charge according to claims 1 to 3 or 4, characterized in that it is placed in a standard case from a combat propelling charge with a burning sleeve.

Description

EXPLOSIVES

The utility model relates to the field of blasting in mining and construction.

The prototype of the utility model is an explosive charge containing tubular gunpowder in the form of a beam of a given diameter, a placer of granular gunpowder and a burning sleeve placed in the shell - see L.A. Smirnov, O.V. Tinkov Conversion. Part IV Disposal of decommissioned ammunition and solid rockets. TSNIINTIKP, M, 1996, p. 38.88.

The known charge is used as a combat propelling charge for artillery shots and cannot be used to break rocks for the following reasons:

-low crushing efficiency due to low loading density - as a result of low energy concentration per unit volume of the powder charge;

-low susceptibility to detonation of a powder charge;

- a large amount of highly toxic carbon monoxide and soot released during the explosion of a powder charge due to the low oxygen balance of the charge;

F42B 1/04

In this regard, the proposed utility model is based on the technical task of creating, on the basis of the known powder charge, which is devoid of the above disadvantages and can be used as a borehole charge by increasing the energy concentration per unit volume, susceptibility to detonation, and handling safety, and also reducing the amount of toxic carbon and soot emitted.

This problem is solved in such a way that in the explosive charge containing tubular gunpowder in the form of a beam of a given diameter, a placer of granular gunpowder and a burning sleeve placed in the shell, in accordance with the proposal, the channels of the powder tubes, the gaps between them and the powder grains are filled with an oxidizing solution, and the shell is formed by a sleeve of synthetic material.

In a private embodiment, polyethylene can be used as a synthetic material.

Another variant of the proposed device is the use as an oxidizing agent of ammonium nitrate.

In addition, when placing a charge in a well with an annular gap with respect to the walls, the specified gap is filled with explosive or ammonium nitrate.

To ensure safety during transportation and storage, the charge is placed in a regular case from a combat propelling charge with a burning sleeve.

The drawing shows the explosive charge.

The charge contains powder tubes in the form of a beam 1, a placer of granular powder 2 and a burning sleeve 3 placed in a polyethylene sleeve 4.

The tube channels in beam 1, the gaps between them and the grains of gunpowder 2, as well as the voids between the beam 1 and sleeve 3 are filled with a solid solution of oxidizing agent 5. This significantly increases the energy concentration in a unit volume due to an increase in charge density.

The charge is as follows.

When blasting on the earth's surface, the charge is removed from the case and lowered by hand into the drilled well 6, the diameter of which slightly exceeds the diameter of the charge. If necessary, several charges can be used simultaneously. In this case, they are mounted directly on top of each other, vertically, connecting the ends, and the gap 7 between the walls of the borehole 6 and the polyethylene sleeve 4 is filled with industrial explosives or granular ammonium nitrate. Such filling leads to an even greater increase in the energy concentration per unit volume of the borehole charge due to an increase in the loading density.

After lowering the last of a given number of charges into the well 6, an action movie is installed on its upper end. Next, they make a stemming of the well 6 and blasting.

the efficiency of using the proposed device used as a downhole charge is due to its increased volumetric energy concentration. The density of the powder charge of the prototype is 0.5-0.7 g / cc, and the proposed charge of 1.3-1.38 g / cc. The consequence of an increase in charge density is an increase in susceptibility to detonation.

The effect of reducing the amount of toxic carbon monoxide emitted from 290 l / kg (for the prototype) to 50-60 l / kg and soot is due to the introduction of an oxidizing solution 5 having a positive oxygen balance.

Thus, the scope of application of commercially available powder propellant warheads has been expanded, on the basis of which the proposed charge has been created with a simultaneous increase in their efficiency and safety of use, as well as a decrease in the amount of toxic carbon monoxide (carbon monoxide) and soot released during the explosion.

Claims (5)

1. An explosive charge containing tubular gunpowder in the form of a beam of a given diameter, a granular powder placer and a burning sleeve placed in the shell, characterized in that the channels of the powder tubes, the gaps between them and the powder grains are filled with an oxidizing solution, and the shell is formed by a sleeve of synthetic material.  2. The charge according to claim 1, characterized in that polyethylene is used as a synthetic material.  3. The charge according to claim 1 or 2, characterized in that ammonium nitrate is used as the oxidizing agent.  4. The charge according to claims 1, 2 or 3, characterized in that when it is placed in a well with an annular gap with respect to the walls, said gap is filled with explosive or ammonium nitrate. 5. The charge according to claims 1 to 3 or 4, characterized in that it is placed in a regular case from a combat propelling charge with a burning sleeve.