CS231644B1 - Increased safety detonator against mass explosion - Google Patents

Abstract

The purpose of the invention is to achieve increased safety against mass explosion of detonators of all kinds stored in standard packaging, by means of an internal structural modification of the detonator assembly. This is achieved by using a thick-walled metal primary charge casing, pressed into the detonator cavity onto the secondary charge. The thick-walled casing has a conical cavity formed on the firing side, passing into a cylindrical cavity, both without the presence of explosive. The conical cavity has an apex angle of 30 0 to 150 o, the cylindrical cavity has a diameter of 1.0 to 1.8 mm and a height of 1.0 to 3.0 mm. The actual initiation means is stored in another, different cylindrical cavity, immediately following the two previous ones, has a diameter of 2.5 to 4.0 mm and a height of 4.0 to 6.0 mm.

Description

Detonator with increased safety against mass explosion

The purpose of the invention is to achieve increased safety against mass explosion of detonators of all kinds stored in standard packaging, by means of an internal structural modification of the detonator assembly. This is achieved by using a thick-walled metal primary charge casing, pressed into the detonator cavity onto the secondary charge. The thick-walled casing has a conical cavity formed on the firing side, passing into a cylindrical cavity, both without the presence of explosive. The conical cavity has an apex angle of 30 ⁰ to 150 o, the cylindrical cavity has a diameter of 1.0 to 1.8 mm and a height of 1.0 to 3.0 mm. The actual initiation means is stored in another, different cylindrical cavity, immediately following the two previous ones, has a diameter of 2.5 to 4.0 mm and a height of 4.0 to 6.0 mm.

IGNITION

FIG. 1

231,644

231M4

The invention relates to civil and military detonators with immediate and delayed function, with electric and non-electric ignition, with built-in and separate ignition means.

The essence of the function of a detonator is the transfer of ignition, which is understood as a flash of flame or a stream of hot slag from an ignition device such as a fuse, tracer, electric pill, column of delay composition, friction or impact detonator to ignite the explosive charge of the detonator, which is capable of causing detonation decomposition of the surrounding explosives. The explosive charge of the detonator, usually placed in a metal sleeve, is made up of a primary charge, placed in a thin-walled cup or thick-walled casing with a continuous or fitted cylindrical hole for ignition and a secondary charge, which is pressed into the casing containing the primary charge and enhances its initiating effect. As with all products containing explosives, from the point of view of safety during transport and storage of detonators, it is newly required that they be sufficiently resistant to the transfer of detonation in the packaging so that unwanted detonation or thermal initiation does not lead to a simultaneous mass explosion of the entire contents of the packaging. Tests have verified that

That the current design of detonators does not meet this parameter at all, or to such an extent that ensuring safety during transportation and storage is economically and organizationally extremely challenging.

The aim of the invention is to create a detonator with increased safety against mass explosion, which, while ensuring all required functions, would prevent the transmission of mass explosion in standard M4 packages for transport and storage in the event of unwanted ignition or fire.

This objective is achieved by providing a detonator with increased safety against mass explosion, the thick-walled metal casing of the primary charge, pressed into the detonator cavity onto the secondary charge, has a central opening formed on the ignition side by a conical cavity with an apex angle of 30° to 150θ, a cylindrical cavity with a diameter of 1.0 to 1.8 mm and a height of 1.0 to 3»0 mm and a cylindrical cavity with a diameter of 2.5 to 4.0 mm and a height of 4.0 to 6.0 mm, the diameters of the cylindrical cavities being in the ratio of 1:2 to 1:4.

The advantage of the solution of the detonator with increased safety against mass explosion according to the invention is that it ensures a significant reduction in the risk of mass explosion transmission in detonators of all kinds and types during transport and storage in standard packaging. Another advantage of this solution is a simple structural modification of the internal arrangement, which, in addition to reliably ensuring all basic special functions of detonators, simplifies the technology of their production and increases their chemical and physical stability.

The essence of the invention is illustrated in more detail in the accompanying drawing, where Fig. 1 schematically represents an exemplary construction of an instant detonator with increased safety against mass explosion according to the invention. The thick-walled metal casing of the primary charge /1/, pressed into the detonator cavity /2/ onto the secondary charge /3/» has a central opening formed on the ignition side by a conical cavity /4/, a cylindrical cavity with a smaller diameter /5/ and a cylindrical cavity with a larger diameter /6/, in which the initiating explosive /7/ is pressed in. The smooth conical surface of the cavity /4/ accumulates the thermal energy of the ignition means and improves the reliability of the ignition of the primary charge /7/. The difference in diameters of the cylindrical cavities /5/ and /6/ given by the ratio 1:2 to 1:4* ensures mechanical protection of the primary charge /7/ from external stimuli and improves its initiating effect on the secondary charge /3/.

For example, an electric instant detonator with an aluminum shell, with a secondary charge of 0.6 g of penthrite and a primary charge of 0.08 g of lead azide in a zener housing with dimensions:

outer diameter 6, 23 mm 231,844 total height 7, 5mm conical cavity /4/- apex angle 90° height 1, 0 mm cylindrical cavity /5/. diameter b 6mm height b 0 mm cylindrical cavity /6/ diameter 4, 0 mm /2.5 times cavity diameter /5/ height 5, 5mm

has a 65% reduced explosion transmission in the same package compared to the current version of this detonator*

231 M4

SUBJECT OF THE INVENTION

Claims (1)

A detonator with increased security against mass explosion characterized in that the thick-walled metal case of the primary charge (1), pressed in the detonator sleeve (2) on the secondary charge (3), has a central opening formed from the ignition side by conical cavity (4) β ° to 150 °, cylindrical cavity / 5 / β with a diameter of 1.0 to 1.8 mm and a height of 1.0 to 3.0 mm and cylindrical cavity / 6 / with a diameter of 2.5 to * 4.0 mm and a height of 4 0 to 6.0 mm, which contains an initiating explosive (7), wherein the diameters of the cylindrical cavities (5) and (6) are in the ratio *, 2) to (1: 4); 1 drawing 231 644 IGNITION