RU2371663C2 - Controlled blasting charge "cbc" - Google Patents

Abstract

FIELD: explosives.

SUBSTANCE: proposed charge consists of cylindrical sections filled with explosive which features outer and inner cones arranged on sections end faces. Higher-power explosive is arranged between inner cone and cylinder surfaces, as compared to explosive fitted in the section remaining part. Note that section outer cone can accommodate the charge that features higher sensitivity to initiating pulse. Outer cone can be not filled with explosive.

EFFECT: higher efficiency and reliability of detonation.

3 cl, 2 dwg

Description

The invention relates to mining and construction, where contour blasting is used to set the sides of the ledges in a position close to vertical, and to create profile recesses.

Currently, in industry, when forming charges for contour blasting, ZKVG garland charges (TU 84-1143-87) or 6ZhV ammonite are used in the form of cartridges with a diameter of 32 mm (GOST 21984-76) and a diameter of 90 mm (TU 7276-004-075 -10709-97) manufactured by specialized factories. The formation of a charge for contour blasting from the above products has many disadvantages, which include: the complexity and complexity of their installation in a mining enterprise, associated with the need to connect individual cartridges or charge units together and at the same time connect them with a detonating cord (DS) in one or several threads. With lateral initiation of an elongated explosive charge (EX), the normal speed and completeness of its detonation are usually not achieved. In addition, these explosives are not water-resistant, and their shells do not provide the necessary tightness, in connection with which there are failures of such charges at mining enterprises.

Avoid the use of LH in the formation of charges can be using, for example, continuous hose or cord charges. However, attempts by individual mining enterprises in Russia to produce such charges on their own failed because the operations of filling polymer hoses are very laborious, dangerous and are accompanied by the formation of harmful dust. It is unprofitable to deliver similar charges from specialized plants to mining enterprises due to the low payload of vehicles. Perhaps that is why such charges are not yet made.

Hose charges ШЗ-1 - ШЗ-4, with a linear mass of 4 kg / m or more, resulting from the disposal of ammunition, also do not solve the problem, because they have increased power - not corresponding to the conditions of contour blasting technology in mining and construction, and in addition, they are delivered irregularly and in limited batches.

Closest to the claimed is a charge for contour blasting of ZKVK (TU 84-1068-85), consisting of individual polymer cylindrical shells (sections) filled with explosives, interconnected using a two-sided polymer connecting device that holds the sections only due to friction arising between the inner surface of the device and the surface of the charge in contact with it. This design is very unreliable and individual charge links may diverge during installation, and therefore, when forming a charge, it is necessary to use a strong carrier cord, to which it is necessary to tie individual sections, which is very laborious. Due to the fact that the surface of the section is smooth, it does not have recesses and stiffeners where it would be possible to fix the loop of the cord, then, slipping, they move to the upper part of the section and abut against the connecting device, pull it off, violating the integrity of the charge. In addition to the unsolved problem with the connection node, the charge has other disadvantages, including poor tightness of the shells of charges leads to moisture getting into ammonite 6ZhV, which under its influence is phlegmatized, which leads to failures in waterlogged wells, and the contour row wells are usually waterlogged. In connection with these shortcomings, the charges are not designed for wells with the length required for contour blasting, they are produced in one small diameter - 24 mm and are usually used to load shallow holes, i.e. have a limited scope.

The objective of the claimed invention is to increase the reliability and efficiency of detonation of charge for blasting. The technical result is to ensure the safety of handling charge in all technological operations, including during its installation and installation in the well.

The technical result is achieved in that the charge sections filled with explosives are provided with outer and inner cones located at the ends of the sections, while between the surfaces of the inner cone and the cylinder there is a more powerful explosive compared to the explosive located in the rest of the section, in addition, in the outer cone of the section may or may not be present at all or partially EXPLOSIVES, with increased sensitivity to the initiating pulse.

The housing of a separate section (Fig. 1) has a cylindrical shape (1), supplemented by external (2) and internal (3) hollow cones, truncated or not (cones) located at the ends of the section. The explosive section is filled through the upper outer cone, in which a hole is provided for this, which is closed by a stopper (4). The cones are connected to the cylindrical part of the section by their bases, while the top of the upper cone is directed outward, and the bottom is inward of the cylindrical part so that the sections can be connected to each other by fixing the outer cone of one section in the inner cone of the other. The connection of the individual sections during the formation of the charge "ZKVD" (figure 2) with each other is carried out using threaded, rotary or other connecting elements (5), ensuring reliable contact between the sections. The bottleneck in charges consisting of separate sections is the moment of ensuring reliable detonation transmission from one section to another, therefore, when manufacturing, the length of the charge link (separate section) should be increased to technologically possible limits in order to avoid an excessive number of detonation transfers between sections.

It is known that threaded, and indeed almost any other connection cannot guarantee absolute sealing of the internal space, especially in products that are manufactured industrially. However, the proposed conical connection provides for locking air under the lower (inner) cone in each section when the charge is immersed in the flooded part of the well. The air locked between the cones, being compressed under the action of hydrostatic pressure, is forced upward to a “dead end” and prevents water from entering the space between the surfaces of the cones, which ensures a more efficient transfer of detonation between adjacent sections, because in this case, the shock wave passes through the air gap, and not through the water layer, which is much more effective (at times).

To simplify handling of the charge during its installation, as well as to ensure it, especially in the case of charging deep wells, at least two external transverse stiffening ribs (6) are provided on the cylindrical surface of the sections, between which a carrier cord can be attached. In addition, thanks to the transverse stiffening ribs, it is possible to install a centralizer of charge ZKVD, which is a ring with petals, which eliminates contact of the charge with the walls of the well and improves the quality of blasting. The charge centralizer (7) is installed in separate sections and its possible movement S along the charge in the borehole is limited by the distance between the transverse stiffeners of adjacent sections (Fig. 2). The possibility of such a relatively free movement of the centralizer along the charge provides the necessary flexibility and noise immunity to the charge during its installation in the well, which usually has significant violations and deviations from the correct cylindrical shape.

To increase reliability in the transmission of detonation from the upper section to the lower, because Typically, the initiation of blast charges is made from above and in our case, also, in the lower part of the section between the surfaces of the inner cone and the cylinder there is a more powerful explosive (8) compared to the explosive located in the rest of the section, and in the outer cone of the section there having increased sensitivity to the initiating impulse (9).

In the case of loading dry, drained, weakly flooded wells and holes, a sufficiently effective detonation transmission between sections can be achieved even in the absence of explosives in the outer (upper) cone of the section, due to the cumulative effect. The volume of filling the cone and the economic effect depends on the explosive properties of explosives.

Claims (3)

1. The charge for contour blasting, consisting of sections of a cylindrical shape filled with explosive (BB) with outer and inner cones located at the ends of the sections, characterized in that between the surfaces of the inner cone and the cylinder there is a more powerful explosive compared to the explosive located in the rest of the section. 2. The charge according to claim 1, characterized in that in the outer cone of the section there is an explosive having increased sensitivity to the initiating pulse. 3. The charge according to claim 1, characterized in that the outer cone is not filled with explosives.

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