RU70572U1 - BLOCKING OF HOLES WHEN EXPLOSION WORKS - Google Patents

Abstract

The utility model relates to the field of drilling and blasting and is intended for use in the mining industry during rock breaking to increase the efficiency and safety of blasting in mines hazardous to gas and dust. Blasting of holes during blasting consists of a water-filled ampoule, locking the wad of plastic material and an additional wad in front of the ampoule from the side of the explosive charge. Destruction of a water-filled ampoule upon displacement of an additional wad and a decrease in the temperature of detonation products due to the earlier conversion of the ampoule water to steam provides a longer delay of the explosion products in the blast zone before the destruction of the rock under the influence of the reflected tensile wave in the rock mass. 1 Fig.

Description

The utility model relates to the field of drilling and blasting and is intended for use in the mining industry during rock breaking to increase the efficiency and safety of blasting in mines hazardous to gas and dust.

The quality of the internal stemming depends primarily on the used stemming material. The most widespread in practice has been plastic clogging from clay, loam or artificially prepared sand-clay mixture. From these materials, wads are formed, with which part of the hole is filled. (see Mindeli E.O. et al. Blocking of holes. "Nedra", M., 1967, p.13-27).

The disadvantages of the internal jamming of holes from these materials are:

- insufficient locking effect due to poor adhesion of the wad with the walls of the hole. the jamming block is thrown out without performing work to contain the explosion products.

- with a moisture content of more than 20%, the explosion products break through the clogging.

A promising stemming is liquid stemming, as its application, along with improving the efficiency of explosive destruction by lengthening the sealing period of the charging chamber, can increase the safety of blasting in relation to ignition of methane and dusty air, and also helps to reduce dust formation.

Closest to the proposed utility model is a combined stemming, consisting of a polyethylene-filled ampoule with a check valve and a diameter less than the diameter of the borehole by 0.004-0.005 m, as well as locking jamming plugs made of sand or clay, etc. (see USSR author's certificate No. 408135, IPC 7 E42D 1/08).

The disadvantages of this clogging include the breakthrough of hot gaseous detonation products from the charging chamber along the sickle-shaped gap between the water-filled ampoule and the walls of the hole to the locking wad with all the negative consequences of the possibility of breaking hot gases from the mouth of the hole. With increasing pressure, the water in the ampoule behaves like a solid, and the destruction of the ampoule and the movement of various layers of the liquid clog with a complete overlap of the borehole diameter occurs after displacement with a significant delay in the end of the ampoule from the explosive charge side or ejection of the locking clog (wad).

The purpose of the utility model is to increase the efficiency of blasting.

In the proposed utility model, “Blasting holes during blasting”, which includes well-known features: a water-filled ampoule, locking the wad, the goal is achieved by setting an additional wad in front of the ampoule.

The jamming of the hole 1 consists of an additional wad 2, installed on the charge side 3 of the explosive (BB) in front of a water-filled ampoule 4, behind which a locking wad 5 of plastic material is placed.

After the explosion of charge 3 of explosive, not only an additional wad 2 is displaced, but also detonation products break with the solid particles of wad 2, which “rip” the plastic shell of the water-filled ampoule 4, the water from which instantly turns into steam, filling the entire cross-section of the borehole 1 throughout ampoule length with decreasing temperature of explosive detonation products before exposure to locking wad 5.

The design of the proposed drilling of holes during blasting provides a longer delay of the products of the explosion and thus provides the most complete use of the explosive charge energy before the destruction of the rock under the action of a tensile wave reflected from the bottom face in the rock mass.

Claims (1)

Blasting holes during blasting, including a water-filled ampoule, locking the wad of plastic materials, characterized in that an additional wad is installed in front of the ampoule.