RU182716U1 - CONTROL BLASTING CHARGE - Google Patents

Abstract

The utility model relates to the mining industry, namely to blasting techniques, and can be used in special blasting operations, for example during contour blasting. Inside the charge column along the entire length there is a highly porous cord fastened with an initiation means, and a solid column of explosive charge is formed in the gap between the cord of highly porous material and the walls of the well. The use of charge reduces the complexity of creating a contour charge, reduces the contour destruction of the array, simplifies installation operations, simplifies the design of the device. 8 s.p. f-ly, 2 ill.

Description

The utility model relates to the mining industry, namely to blasting techniques, and can be used in special blasting operations, for example, during contour blasting.

A known method of loading wells with combined explosive charges from a waterproof and non-waterproof explosive (Sukhanov A.F., Kutuzov B.N. Destruction of rocks by explosion, M: Nedra, 1983, p. 135). At the same time, a charge of waterproof explosive is poured into the flooded well at a height equal to the height of the water column. After a certain exposure time of 12-24 hours, a non-water-resistant explosive is supplied to a water-resistant explosive in the upper dry part of the well.

The disadvantage of this method is the long duration of loading, as well as the use of waterproof and non-waterproof types of explosives, which increases the cost of blasting, as well as increased marginal destruction of the array.

Known are the designs of contour borehole charges (author's certificate of the USSR No. 1508699 and No. 1417577) with a central arrangement along the axis of the bore of charges from cartridge explosives placed in the form of a solid or dispersed column of a charge like a garland. The space between the cartridges and the walls of the well is filled with an inert mass - fine-grained materials for crushing rocks or an air gap is left. The lower cartridge is in contact with the bottom of the well or is separated by an air or inert gap. The main, upper stemming above the charge column is filled with inert materials.

The disadvantage of this method is the high complexity, time loss and increased marginal destruction of the array.

Known downhole contour charge (RF patent No. 2150672, publ. 10.06.2000). The inventive charge consists of cartridges of explosive (BB), which are flank mounted on a wooden liner, are adjacent to the walls of the well and are oriented along the axis of the contour series of charges, while a porous stemming of organic origin is used as the internal jamming between the explosive cartridges and above the contour charge and in the bottom of the well there is a damper stemming consisting of inert and porous parts.

The disadvantage of this method is the high complexity and increased marginal destruction of the array.

Known explosive charge for contour blasting (RF patent No. 91411, publ. 02/10/2019), adopted as a prototype. The essence of the utility model: the charge of an explosive composition for blasting is made in the form of a solid column, with a diameter greater than the critical diameter of the detonation of the explosive composition in an open charge, with or without an annular gap between the charge and the walls of the well, of an explosive composition consisting of a mixture of explosive substance based on porous ammonium nitrate and expanded perlite sand in a ratio of 9: 1 to 1: 9 by volume, and one or more intermediate detonators were used as the initiator of the explosion, azmeschennyh to charge detonating cord along the column, wherein the diameter of the core charge, made in the polymeric sleeve (distributing means) with an annular gap between the charge and the wall of the borehole is calculated using Eq.

The disadvantage of this method is the high complexity and increased marginal destruction of the array.

The technical result of the claimed invention is to reduce the complexity of creating a loop charge, as well as reducing the marginal destruction of the array.

The technical result is achieved by the fact that in the charge for contour blasting formed in a well including an explosive substance in the form of a solid column and the initiation means according to the invention, a highly porous cord is fastened along the entire length of the column of the charge, bonded to the initiation means, and the solid column of charge is made of explosive formed in the gap between the cord of highly porous material and the walls of the well.

The technical result is also achieved by the fact that a highly porous material is a gernite cord.

The technical result is also achieved by the fact that a polyurethane cord is used as a highly porous material.

The technical result is also achieved by the fact that a porous rubber cord is used as a highly porous material.

The technical result is also achieved by the fact that a silicone cord is used as a highly porous material.

The technical result is also achieved by the fact that as a means of initiation, a detonating cord is used, fastened with a highly porous cord using electrical tape or adhesive tape.

The technical result is also achieved by the fact that in a highly porous material a cord of circular cross section is used.

The technical result is also achieved by the fact that as a highly porous material, a cord of rectangular cross section is used.

The technical result is also achieved by the fact that as a highly porous material using a square cord.

The charge for contour blasting is illustrated by drawings, where in FIG. 1 shows a charge for contour blasting, a vertical section, in FIG. 2 shows a charge for blasting, top view, where:

1 - well;

2 - means of initiation, for example, a detonating cord;

3 - a solid column of explosive charge formed in the gap formed between the walls of the borehole 1 and the means of charge distribution along the length of the cord of highly porous material 4;

4 - cord of highly porous material - means for distributing the charge along the length, mounted on the elements of the means of initiation 2;

5 - fastening of a cord of highly porous material 4 to the means of initiation 2, for example, adhesive tape wound, for example, along a helical generatrix.

The charge for blasting is formed in well 1 drilled in a rock mass. In the well 1, a means for distributing the charge along the length of the wire is installed - a cord of highly porous material, fixed to the elements of the initiation means 2 using fasteners 5 of a cord of highly porous material 4 to the means of initiation 2, for example, adhesive tape wound with a screw. The fixing place is determined empirically on the basis of the condition of reliable retention of the cord 4 of highly porous material in a continuous column of charge 3. In the gap formed by the walls of the borehole 1 and cord 4 of their highly porous material, explosive is formed or filled up, forming a continuous column of charge 3 of explosive. As a means of charge distribution along the length - a cord of highly porous material 4, you can use a gernite cord, polyurethane cord, a porous rubber cord, or a silicone cord. The shape of the cord in cross section may be different, for example round, rectangular or square. The type of cord 4 made of highly porous material is adopted depending on availability, cost, as well as technological considerations. The detonating cord 2 can be installed on a rigid cross-section of the cord 4 using tape or tape. The type of fastening is adopted based on the types of cord material 4.

The use of the proposed device contour charge from a cord of highly porous material 4 inside the charge column 3 together with granular and emulsion explosives can reduce marginal destruction, as well as increase the safety of blasting operations with a decrease in the complexity of the work.

A cord of highly porous material 4 is in a folded state, for example, in the form of a bay. In this form, a cord of highly porous material 4 is delivered to the place of special blasting, for example, on the ledge of the quarry. A cord 4 of highly porous material is introduced and lowered into the well 1. As the descent is made, the cord is fastened from highly porous material 4 to the initiation means 2, for example, using adhesive tape wound, for example, along a helical generatrix. It is also possible to attach a cord 4 of highly porous material to various elements of initiation means 2, for example, to an intermediate detonator (not conventionally shown). Then, a solid charge column 3 is formed from emulsion explosive (or bulk) by filling the gap formed between the walls of the well 1 and a cord of highly porous material 4. The end of the initiating means 2 is brought out for installation in a surface explosive network. After that, special blasting operations are carried out in the usual manner.

The use of charge for blasting provides the following advantages:

- the complexity of creating a circuit charge;

- reduction of marginal destruction of the array;

- reduction in the cost of the device;

- simplification of installation operations;

- simplification of the design of the device.

Claims (9)

1. The charge for the contour blasting, formed in the borehole, comprising an explosive substance in the form of a solid column and initiating means, characterized in that a highly porous cord located along the length of the column of the charge is fastened with an initiating means, and a solid column of explosive charge is formed in the gap between the cord of highly porous material and the walls of the well. 2. The charge according to claim 1, characterized in that a gernite cord is used as a highly porous material. 3. The charge according to claim 1, characterized in that a polyurethane cord is used as a highly porous material. 4. The charge according to claim 1, characterized in that a porous rubber cord is used as a highly porous material. 5. The charge according to claim 1, characterized in that a silicone cord is used as a highly porous material. 6. The charge according to claim 1, characterized in that as a means of initiation, a detonating cord is used, bonded to a highly porous cord using electrical tape or adhesive tape. 7. The charge according to claim 1, characterized in that a round cord is used as a highly porous material. 8. The charge according to claim 1, characterized in that a cord of rectangular cross section is used as a highly porous material. 9. The charge according to claim 1, characterized in that a square cord is used as a highly porous material.

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