RU26323U1 - CARTRIDGE FOR EMULSION EXPLOSIVES CONTAINING GAS-GENERATING ADDITIVES - Google Patents

Description

Cartridge for emulsion explosives

The utility model relates to the mining industry, and in particular to the technique of blasting on the surface, and can be used for blasting using emulsion explosives containing gas-generating additives.

The emulsion explosives are sensitized by introducing gas bubbles into their compositions using microspheres, aorophors, or by aeration. The most widely used method in Russia is the sensitization of emulsion explosives with the help of porophores - substances that can interact with some component of the explosive agent with the formation of gaseous reaction products. As porophore, for example, sodium nitrite is used, which interacts with ammonium nitrite with the release of gaseous nitrogen.

It is known to use a polyethylene sleeve for plating non-water-resistant boreholes when charging flooded wells (V.I. Komashchenko et al. Level work. M., Nedra, 1995, p. 149). A well-known drawback is the complexity of the process of loading wells and the need for special equipment for lowering the sleeve and filling its explosives.

MuuccTuii iiu-ipuii for irmidipnm of the most obsolete С1shizh1111 IpuiiyjiHpoumuxbiMii explosives of the basement of basic ammonium nitrate, containing an outer shell of woven polypropylene and an inner shell of an elastic waterproof material filled with explosives, both of which are Cl. E21C37 / 00, priority dated 02.28.2001., Published 02.27.2002.).

The well-known patropNS is intended for the patropyrocapia of emulsion explosives, containing gas-generating additives, because gas inclusions can diffuse through openings into the atmosphere, as a result of which the detonation ability of such explosives decreases.

Known sealed cartridge with an emulsion explosive containing gas-generating additives made in the form of a rigid or elastic shell with clamps at the ends (L. V. Dubnov and other Industrial explosives. 1VU-Nedra, 1988, p.274-275). Known cartridges of various diameters are made in specialized factories or directly in mining enterprises in accordance with established TU.

The main disadvantage of the known cartridges is their low reliability, because As a result of a chemical reaction, gas is released, which leads to an increase in explosive volume and an increase in pressure inside the shell and can lead to a violation of its tightness.

Iiuipoii has been proposed for mulleiotypic Uli containing a shell with gorceia a21simaAsh and BB. The essence of the utility model is that the cartridge contains an air chamber located in the shell anywhere along the length of the cartridge. The air chamber can be made in the form of free space between the end of the shell and the explosive or in the form of a capsule with permeable walls. He is E2IC37 / 00

 the volume of the air chamber is from 6 to 10% of the internal volume

SHELL

The creation of an air chamber inside the cartridge in order to protect the shell1 from breaks, since it compensates for the increase in explosive volume during gas evolution and allows changing the diameter of the cartridge. In addition, in the process of a chemical reaction, emulsion is mixed. By air, it goes through the L-D-mers, which increases the reliability of explosive detonation in the cartridge and the detonation ability of the whole.

- The essence of the utility model is illustrated by the Chertels, where FIGL shows a general view of the cartridge with an air chamber in the form of free space between the ends of the shell and explosives, FIG. 2 shows a general view of a cartridge with an air chamber in the form of a capsule with permeable walls, .3 - transverse senenie.patrona ..

The cartridge contains a shell 1 made, for example, of a polyethylene film of brand M, T or H according to GOST 10354-82 with a thickness of 0.15-0.20 mm. The ends of the polyethylene sheath are sealed in a forelock with clamps 2 made of aluminum G1rovo; yuki with a diameter of 2.5 mm, shiigsh or cordoya drink. The quality of explosives is ICJJJvJyül, for example, emulolite P, which is a mechanical mixture of an emulsion and a sensitizer (an aqueous solution of sodium nitrite, sodium chloride, etc.). Explosives are placed in cartridges with a diameter of 120 mm and a length of 480 mm. When filling a cartridge with explosive 3 in a cell, an air chamber 1 is created 4, which can be formed anywhere along the length of the cartridge. An air chamber can be formed, for example, by leaving a free npocTpmicTjja meadau somewhere from the ends of shell 1 and BB 3, as shown in Fig. To create an air chamber, a capsule 5 with permeable walls can be used, as shown in FIG. 2, which can be placed anywhere inside the shell. After mixing the components of the emulsion explosive and placing it in the protector, a chemical reaction between iitrite, sodium, nitrite, ammonium and B14 gas nitrogen separation begins, while the volume of explosives and the air chamber fills 4. The air in the chamber, in the form of small, bubbles, fills explosives, thereby enhancing its sensitizing properties. When using one or several capsules as an air chamber, the indicated effect is achieved due to the permeability of their walls, for explosives. and air.

The volume of the air chamber is chosen from the conditions of exclusion, the possibility of rupture of the shell during gas evolution and ensuring the necessary explosive density in the TJC gas generating cartridge, the explosive density is reduced. -Isl and cartridges use the loading of dry wells, then the explosive should not have ivieiree 0 , 8 g / cm, because with HJÜmucI and below the indicated value, cartridges with emulsion explosives may lose the detonation ability. If the cartridges are used for watered flooding, the final explosive density in the cartridges should be higher than 1 g / cm, otherwise they will not sink. Experimental studies have established that these conditions correspond to the volume of the air chamber in the range from 6 to 10% of the internal volume of the shell.

The use of a technical solution according to a utility model makes it possible to increase the reliability of cartridges by reducing the likelihood of rupture of their shell and ensuring high sensitizing properties.

Claims (4)

1. Cartridge for emulsion explosives containing gas-generating additives, including a shell with end clamps and explosives, characterized in that it contains an air chamber placed in the shell anywhere along the length of the cartridge.  2. The cartridge according to claim 1, characterized in that the air chamber is made in the form of free space between the end of the shell and the explosive.  3. The cartridge according to claim 1, characterized in that the air chamber is made in the form of a capsule with permeable walls. 4. The cartridge according to any one of claims 1 to 3, characterized in that the volume of the air chamber is from 6 to 10% of the internal volume of the shell.