RU2688996C1 - Charge retainer during drilling and blasting operations - Google Patents

Abstract

FIELD: mining; construction.

SUBSTANCE: invention relates to explosive engineering in mining industry, construction and is intended for development of rock massifs of any fortress in underground mines, not hazardous by gas or dust, design of charge retainer allows to reliably hold explosive charge in ascending boreholes and wells at manual and mechanized charging of granulated or emulsion explosives. In compliance with proposed invention, structure of charge lock housing has the following versions: for ascending wells with diameter of 64–100 mm, the charge retainer body is made in form of a hollow truncated cone with elastic lobes in an amount of not less than three, located in the end of the wide part of the body at an angle coinciding with the angle of the hollow truncated cone, which ends are bent at steeper angle, closed from opposite side by blind bottom with stops on its inner surface in amount of not less than three pieces; for ascending bore pits with diameter of 38–45 mm, the charge retainer body is made in the form of a hollow cylinder with elastic lobes in an amount of not less than three, located in the housing end at an angle to it; inside the housing in the middle there is a solid partition; for ascending bore pits with diameter of 41–43 mm, the charge retainer body is made in the form of a cylinder with a truncated cone shaped shank, inside along the body axis there is a cone hole, outside the housing in place of transition from cylinder to truncated cone there is a solid elastic cone-shaped belt, solid or divided into two or more parts.

EFFECT: invention is aimed at creation of cheap, reliable retainer of charge of cartridged, granulated or emulsion explosives in ascending bore pits, wells of various diameters, for improvement of safety, quality and efficiency of blasting operations.

3 cl, 5 dwg

Description

The invention relates to the field of explosives in the mining industry, construction, and is intended to develop rock masses of any strength in underground mines not hazardous for gas or dust. The design of the charge lock allows you to safely hold the explosive charge in ascending holes and wells with manual and mechanized loading granular or emulsion explosives.

There is a known method of blasting ascending wells (patent for invention No. 2234673) according to which the ascending well is charged and a damming is made, as which is used a clamp representing a monolithic rod of viscous material, for example, raw wood with a conical plug inserted into the split, made, for example, in the form of a sleeper cell on the basis of a drilling development. The disadvantage of this method is that the stemming in the form of this lock has a complex structure, requires significant additional material, labor costs for transporting the material and installing the stemming, the inability to use an effective method of blasting in a squeezed environment on the uncleaned rock mass, as the uncleared rock will not allow to mount emphasis for the installation of stemming.

There is a known method of loading a bore-hole (Patent for invention No. 2620113) according to which a charge of an explosive is charged and fixed, and a hole is bored using a wedge-latch assembly consisting of a cylindrical clamp with flat cheeks and a flat wedge. The wedge-clamp assembly is sent by the arrestor into the hole until the wedge stops at the end of the explosive charge, then with a sharp push from the end of the clamp, the wedge enters the clamp, expands its cheeks and is fixed against the walls of the hole. The disadvantage of this method is that the wedge-latch assembly rests against the wedge on the end of the explosive charge and when fixed by a sharp push on the end of the latch, an uncontrolled dynamic impact on the explosive charge and initiation means (detonator) is obtained, which violates the safety requirements of drilling and blasting operations. With this method of loading can not be applied direct initiation.

The closest analogue of the claimed invention is a plastic shutter for stemming wells "Red Pilgrin Sar MTI" manufactured by "Columbia Plastics LTD". The body of this gate is a hollow truncated cone with elastic petals located at the end of the wide part of the body at an angle in the amount of not less than three closed from the opposite end. The diameter of the circumference of the petals of the charge lock is greater than the diameter of the hole or hole. The disadvantage of this design is that when the gate is sent to the well, it is necessary to tighten and hold the waveguide of the non-electric initiation system, the electric detonator wires from displacement, elastic petals press them against the borehole wall and during tiling of the gate tinder on them, as a result of which the initiation means can be damaged . The above disadvantages reduce the quality and safety of blasting.

The technical result of the claimed invention is the simplicity and manufacturability of charge fixing, the possibility of using direct initiation, reliable fixation of the retention and dispersion of the explosive charge in ascending holes and wells with mechanized and manual charging of granular or emulsion explosives, improving the quality and safety of blasting.

The technical result is achieved by the fact that the charge lock using elastic lobes or an elastic belt, wedging, reliably fixes and holds the charge of the granulated, emulsion explosives in ascending bore-holes or rocks in any fortress. The waveguide of the non-electric initiation system or the electric detonator wire is located in the space between the elastic lobes or in the tapered hole inside the charge lock casing, which reliably protects them from damage to the hole wall, borehole or charging hose, as well as a bollard during ascending charge lock.

The essence of the proposed solutions is illustrated by drawings.

FIG. 1 shows a charge lock for ascending wells with a diameter of 64-100 mm with a charge lock housing in the form of a hollow truncated cone with elastic petals in an amount of at least three located at the end of the wide part of the housing at an angle coinciding with the angle of a hollow truncated cone whose ends are bent under a steep angle, closed from the opposite side with a deaf bottom with not less than three pieces of stops on the inner surface, where: 1 is the lock body, 2 is elastic petals, 3 is bends, 4 is the bottom, 5 are stops, 6 is the space between the elastic le ECTS. Elastic petals and bends at their ends serve for reliable holding of the explosive charge in ascending bore-holes, wells. The space between the elastic lobes is intended for the location of the waveguide of the non-electric initiation system or the wires of the electric detonator and protect them from damage to the borehole walls or the charging hose, the arrestor. The stops located at the bottom inside the case serve to stop and center the charging hose or the rammer of various diameters when sending the charge lock to the hole, well.

FIG. 2 shows a charge lock for ascending holes with a diameter of 38-45 mm with a body in the form of a hollow cylinder with elastic petals located in the butt of the body, at an angle to it in an amount of not less than three and a solid partition inside in the middle of the body, where: 1 - body clamp, 2 - elastic petals, 6 - the space between the elastic petals, 7 - partition. Elastic petals are used for reliable fixation and retention of explosive charge in ascending holes, wells. The space between the elastic lobes is intended for the location of the waveguide of the non-electric initiation system or the wires of the electric detonator and protect them from damage to the borehole walls or the charging hose, the arrestor. The inner partition in the middle of the case serves to stop the charging hose, the bollard when sending the charge lock to the hole.

FIG. 3 shows a charge lock for ascending boreholes with a diameter of 41-43 mm with a cylinder-shaped body with a truncated cone-shaped shank, a tapered bore inside and an outer cone-shaped solid or divided into two or more parts with an elastic band outside the body at the transition point from the cylinder to the shank, where: 1 is the lock body, 8 is an elastic belt, 9 is a shank, 10 is a tapered bore. Elastic belt is used for reliable retention of explosive charge in ascending holes, wells. The tapered hole is designed to position the waveguide of the non-electric initiation system or the wires of the electric detonator and protect them from damage to the borehole walls or the charging hose, the arrestor. The shank of the cylindrical body is inserted into the charging hose, the arrestor and serves as an emphasis when sending the charge lock to the hole.

Fixing the explosive charge for ascending holes with a diameter of 38-45 mm, for example, using a non-electric initiation system and charge clamp with a hollow-cylinder-shaped body with elastic leaves arranged at an angle and a solid partition inside in the middle of the body, FIG. 5, where: 1 - the body of the lock, 2 - elastic petals; 6 - the space between the elastic petals, 7 - partition, 11 - charging hose (rammer), 12 - waveguide of non-electric initiation system, 13 - detonator cap, 14 - intermediate detonator, 15 - explosive charge, 16 - hole wall, and is performed as follows in a way. After loading the hole with an explosive substance, we put the charge lock on the end of the charging hose or the rammer and send it to the hole until it stops at the end of the explosive charge. During the discharging of the charge lock, its elastic petals resting on the wall of the hole are wedged in it to reliably hold the explosive charge while the waveguide of the non-electric initiation system is located in the free space between the leaves where it is fully protected from mechanical impact on the wall of the hole or charging hose.

Fixing the explosive charge for ascending holes with a diameter of 41-43 mm, for example, using a non-electric initiation system and charge clamp with a cylinder-shaped body with a truncated cone-shaped shank, a tapered hole inside and an outer tapered elastic belt, is illustrated in FIG. 4, where: 1 is a clamp body, 8 is an elastic belt, 9 is a shank, 10 is a tapered bore, 11 is a charging hose (bailhole), 12 is a waveguide of a non-electric initiation system, 13 is a blasting cap, 14 - explosive charge, 16 - wall of the hole and as follows. After loading the hole with an explosive, the end of the waveguide of the non-electric initiation system from the side of the cylindrical body of the charge lock is passed through its internal cone hole and inserted inside the charging hose. Then we insert the tapered shank of the charge lock into the charging hose and with the help of the charging hose we will send the charge lock into the hole until it stops at the end of the explosive charge. During the discharging of the charge clamp, its elastic cone-shaped belt resting against the wall of the hole is wedged in it to securely hold the explosive charge while the waveguide inside the lock is fully protected from mechanical impact on the wall of the hole or charging hose.

Fixation of explosive charge for ascending wells with a diameter of 64-100 mm, for example using a non-electric initiation system and charge clamp with a body in the form of a hollow truncated cone with elastic petals in the amount of at least three located at the end of the wide part of the body at an angle coinciding with the angle of the hollow truncated cone the ends of which are bent at a steeper angle, closed on the opposite side by a deaf bottom with stops on the inner surface in an amount of not less than three pieces is carried out similarly to fixation of aryad of explosives for ascending holes with a diameter of 38-45 mm (Fig. 5) using a charge lock with a body in the form of a hollow cylinder with elastic petals angled and a solid partition inside in the middle of the body.

The use of an explosive charge lock in a bore-hole, a well, can improve the safety, quality, efficiency of blasting operations and the convenience of working personnel.

The industrial use of a charge lock for drilling and blasting work eliminates the material and labor costs for the manufacture, transportation and installation of mechanical locking gaps, devices and devices for their installation, improve safety, quality, efficiency and manufacturability of blasting operations.

Technical and economic efficiency is achieved by eliminating the use of mechanical locking barriers, additional devices and devices for their installation and installation, by reducing the material and labor costs of their manufacture, transportation and installation.

Charge locking devices for drilling and blasting operations of the claimed invention were tested and effectively used in the mining conditions of underground mines in Russia: PJSC MMC Norilsk Nickel, PJSC AK Alrosa, JSC Evrazruda and Kazakhstan: Vzryvtekhnologii LLP, LLP "Iskra-Service", JSC "TNK" Kazchrome "when blasting with blast-hole charges in the faces of the horizontal workings and borehole charges at the floor, sublevel caving of the rock.

Claims (3)

1. Charge lock during drilling and blasting operations, made of a thermoplastic material, such as polyethylene, characterized in that the charge lock case is made in the form of a hollow truncated cone with elastic petals in an amount of not less than three located in the end of the wide part of the case at an angle coinciding with the angle a hollow truncated cone, the ends of which are bent at a steeper angle, closed on the opposite side by a deaf bottom with stops on the inner surface in an amount not less than three. 2. Charge lock during drilling and blasting operations, made of thermoplastic material, such as polyethylene, characterized in that it consists of a body made in the form of a hollow cylinder with elastic petals located at the end of the body at an angle to it in an amount of not less than three, inside the body in the middle there is a solid partition. 3. Charge lock during drilling and blasting operations, made of a thermoplastic material, such as polyethylene, characterized in that it consists of a body made in the form of a cylinder with a truncated cone-shaped shank, inside there is a tapered bore inside along the body axis, outside the body at the transition point from the cylinder to the truncated cone there is a continuous elastic band of the cone-shaped form, integral or divided into two or more parts.

Images