BG544Y1 - Composite intermediate detonating priming charge - Google Patents

Abstract

The detonating priming charge is used in the opencast mining of ores and minerals, and in civil engineering. It has simplified technological design, by which greater explosive force is produced. It can be applied in borehole works with different diameters and depths, the rock fragment produced having optimal sizes. It consists of a supporting casing (1) in which explosive cartridges (3) are placed, fitted in at least one section (4), and each of them containing three cartridges (3), the geometrical centres of their bases lying in the central circle (K) with diameter (D), and between them the initiating means (7) is fitted, and between its external surface and part of the external surfaces (6) of the cartridges (3) an open central air chamber (8) is formed, spreading to the intermediate air chamber (10). In the lower part of casing (1) at least one bottom hole (11) is machined, and in its upper part a safety cap (12) with at least one upper hole (13) is installed. 9 claims, 4 figures

Description

The utility model refers to a composite (multi-cartridge) intermediate detonator charge, which is used in open-cast mining and non-metallic minerals, as well as in construction.

BACKGROUND OF THE INVENTION

Known pyrotechnic cartridge (blast charge), which is shaped as a multi-cartridge (assembled) and consists of a carrier housing, along which longitudinal axis are mounted on top of one another modular cartridges located in sections. Each cartridge is made of a thin-walled cylindrical shell, which contains pyroelements (explosive cartridges) on a perforated base, shaped like a plug. Between the pyroelements are ignited charges, and three peripheral air chambers (recesses) are formed between part of the outer surface of the cylindrical shell and part of the inner surface of the supporting housing, one of which houses the electrical ignition contact wire. Between each two peripheral chambers, part of the outer surfaces of the two pyroelements and part of the inner surface of the cylindrical shell, three more peripheral air chambers are formed, and between the delay charge located in the middle of the supporting housing and the pyroelements in each section are formed. intermediate air chambers (1).

The technical nature of the utility model

The composite intermediate detonator charge includes a carrier housing, the explosive cartridges and initiating means being arranged in sections along the vertical axis, with intermediate and peripheral air chambers formed between their outer surfaces and the inner surface of the carrier housing. According to the utility model, the blast cartridges are arranged in at least one section, and each of them contains three cartridges, the geometrical centers of the bases being located in one central circle K of diameter D, and between them is the initiating means, such as an open central air chamber extending to the intermediate air chamber is formed between its outer surface and part of the outer surfaces of the blasting cartridges. At least one bottom opening is formed in the lower part of the carrier body, with a protective cap containing at least one upper opening in its upper part.

According to another embodiment, peripheral explosive cartridges are installed in each of the main blast cartridges in each section, with the geometric centers of their bases lying in an intermediate circle K ₁ of diameter D, which is concentrically positioned relative to the central circle K, and each peripheral air chamber is formed between a portion of the outer surfaces of one main cartridge, two peripheral cartridges and a portion of the inner surface of the carrier body.

According to a further embodiment, a central blast cartridge is provided between the main cartridges containing an axial through hole concentrically enclosing the initiating means configured as a detonating cord.

Alternatively, one or two main cartridges are located adjacent to the main cartridges and the central cartridge, with the centers of the bases of all blast cartridges lying in a circle.

Peripheral explosive cartridges are located between the outer surfaces of the main cartridges.

Around the central cartridge, the geometric centers of the bases of the main and peripheral cartridges are located in one end circle K ₂ of diameter D ₂ , with diameters D, D, and D ₂ respectively of the circles K, K, and K ₂ in which the centers of cartridge bases are expressed with the following mathematical dependence

D,> D ₂ > D

Between the blast cartridges whose centers of their bases lie in one end circle K ₂ are six cartridges.

Blast holes are formed in the blast cartridges, the number of which is twice less than the number of cartridges in which an initiating means made as detonating cord is found.

The initiating means is also found in the peripheral chambers located through one in them.

The initiating means is designed as a detonating cord and concentrates the main cartridges concentrically.

The advantages of the utility model are that the compound intermediate detonator charge has a simpler and more technological construction, since it is formed (composed of) fewer parts with a simplified shape. A greater amount of explosive energy is obtained due to the large contact area between the initiating means and the explosive cartridges and between them and the bulk (main) explosive. In addition, the size of the contact area can be adjusted by increasing the number of explosive cartridges, the charge being successfully used in drills of different diameters and depths due to the possibility of using the optimum number of cartridges; easier and trouble-free ignition of the cartridges due to their direct contact with the initiating means; the fragmented rock fragments are of optimum adjustable size, since the explosive energy released can be changed (regulated).

Description of the attached figures

Figure 1 is a cross-sectional view of the composite intermediate two-section detonator charge with three cartridges in one section;

Figure 2 is a section through AA;

Figure 3 is a cross-section of a two-section charge with six cartridges in one section;

Figure 4 is a cross-section of a two-section charge with seven cartridges in one section.

Examples of implementation of the utility model

The composite (multi-cartridge) intermediate detonator charge consists of a carrier housing 1 of cylindrical shape made of plastic, on whose vertical axis 2 are arranged in series the main explosive cartridges 3 mounted on each other in the lower 4 and the upper section 5 in three pieces in each of sections 4 and 5. The geometric centers of the base of the cartridges 3 located in one of the sections lie in a central circle K of diameter D.

Between part of the outer surfaces 6 of the main cartridges 3 is located a flammable means made as a detonating cord, which rests on the outer surfaces 6 forming an open central chamber 8. In part of the inner surface 9 of the carrier housing 1 and part of the outer surfaces 6 on the main cartridges 3, in the area around the housing 1, three intermediate chambers 10 are formed, connecting to the central chamber 8, against which a middle bottom opening 11 is formed in the supporting housing 1.

On the main cartridges 3, located in the second section 5, there is a safety cap 12 containing an axial opening 13 formed opposite to the bottom opening 11.

The utility model is also illustrated by another example, in which the carrier body 1 is in the form of an equilateral triangular prism with strongly rounded lateral edges, with three peripheral cartridges 14 s installed in each of the sections 4 and 5 in the area of the intermediate air chambers 10. through holes 15 resting on the main cartridges 3, with the centers of their bases representing circles lying in an intermediate circle K of diameter D ,, concentrically positioned relative to the central circle K. Between a portion of the outer surface of the peripheral cartridges 14 and m from the inner surface 9 of the bearing housing 1 are formed peripheral air chambers 16.

The composite intermediate detonator charge is further illustrated by the following example, in which in the area of the open central chamber 8 in each of the sections (lower 4 and upper 5) is placed a central explosive cartridge 17 with an axial through hole 18 formed therein, in which the triggering means 7, and around the central cartridge 17 are located three main 3 and three peripheral cartridges 14 containing through one through holes 15, the centers of their bases lie in one end circle K ₂ with diameter D ₂ and the diameters D , D _t and D ₂ of circles K, K, and K ₂ , in which the centers respectively of the bases 3, the peripheral 14 and at the same time the main and peripheral explosive cartridges are related to the following inequality

D,> D ₂ > D

Using the utility model

The utility model works as follows. When using an electric ignition method, after insertion of the main blasting cartridges 3, an initiating means, arranged as a detonating cord 7, extends through the bottom opening 11 of the carrier housing 1 between them in the central chamber 8 and is secured thereto by a knot or concentrates it several times.

The protective cap 12 is then inserted, with the free end of the detonating cord 7 passing through its axial orifice 13, if the detonating cord 7 is wrapped around the housing 1, then the two ends are connected above the cap 12, after which the compound intermediate detonator charge is introduced into pre-drilled drill, the explosive is filled and the intermediate charge is ignited by the detonating cord 7, which in turn ignites the explosive.

When peripheral cartridges 14 are also housed in the carrier housing 1, the detonating cord 7 is also passed through the through holes of the cartridges 14 or through the air chambers 10, 16.

Claims

Claims (9)

1. A composite detonator charge comprising a carrier body on whose vertical axis explosive cartridges and an initiating means are arranged in sections, with intermediate and peripheral air chambers formed between their outer surfaces and the inner surface of the carrier housing. blasting cartridges (3) are located in at least one section (4), and each of them contains three cartridges (3), with the geometric centers of their bases lying in one central circle K of diameter D and between them is found initiating environment (7) with an open central air chamber (8) extending between its outer surface and part of the outer surfaces (6) of the cartridges (3) extending to the intermediate air chamber (10) and at the bottom of the carrier housing (1) at least one bottom opening (11) is formed, with a safety cap (12) containing at least one upper opening (13) in its upper part. Charge according to claim 1, characterized in that peripheral explosive cartridges (14) are installed between each of the main blast cartridges (3) in each of the sections (4, 5), with the geometric centers of their bases lying in an intermediate circle K having a diameter D _p which is concentrically positioned relative to the central circle K and each peripheral air chamber (16) is formed between part of the outer surfaces (6) of one main cartridge (3), two peripheral cartridges (14) and part of the inner surface (9) of the carrier housing (1). Charge according to claim 1, characterized in that a central blasting cartridge (17) is provided between the main cartridges (3), comprising an axial through hole (18) concentrically enclosing the initiating means configured as a detonating cord. Charge according to claim 3, characterized in that one or two main cartridges (3) are located next to the main cartridges (3) and to the central cartridge (18), with the centers of the bases of all cartridges lying in one circle. Charge according to claim 3, characterized in that peripheral explosive cartridges (14) are arranged between the outer surfaces (6) of the main cartridges (3). Charge according to claim 5, characterized in that, around the central cartridge (17), the geometric centers of the bases of the main (3) and peripheral cartridges (14) are located in a terminal circle K ₂ of diameter D ₂ , such as diameters D , D) and D ₂ respectively of the circles K, K, and K ₂ in which they cut the bases of cartridges (3, 14 and 17) are related to the following mathematical dependence D,> D ₂ > D Apparatus according to claim 6, characterized in that 6 blast cartridges (3, 14) are arranged between the blast cartridges (3, 14), whose centers of the bases lie in one end circle K ₂ . Charge according to claims 2, 5 and 6, characterized in that apertures having a number twice less than the number of cartridges (3, 14) are formed in the blast cartridges (3, 14) an initiating means configured as a detonating cord (7) has been identified. Charge according to claims 5 and 6, characterized in that the initiating means is also located in the peripheral chambers (16) disposed through one therein.