CS243275B1 - Detonator with increased safety against mass explosion - Google Patents

Abstract

The invention solves the increased economics of thick-walled production of metal detonator housings. By changing the front conical cavity to a small diameter cylindrical in the direction of ignition on a conical and another cylindrical cavity with a larger diameter was achieved alongside the solution economics and other benefits.

Description

The invention relates to all types of detonators for civil and military purposes, with electric ignition with built-in and split ignition means.

A detonator with increased mass explosion safety according to AO No. 231 644 is known, the essence of which is a thick-walled metal sleeve molded together with an initial charge in a detonator tube containing a secondary explosive. The thick-walled metal casing has a central opening, and from the ignition side, the central opening has a conical cavity formed first, passing into a narrow cylindrical cavity to which another wider cavity adjoins. The cavity diameter ratio is 1: 2 to 1: 4.

In the manufacture of a thick-walled metal sleeve, the formation of a face cavity imposes considerable constructional requirements on the modification of the casting mold and limits the multiplicity of the thick-walled sleeves in the mold produced at the same time. Thus, production is not economical enough, especially in terms of mass production.

It is an object of the present invention to overcome this drawback in that the through hole is formed by a narrower cylindrical cavity first passing through a conical cavity into a wider cylindrical cavity, in which a compacted initial filling fills the conical cavity.

Claims (1)

Subject Explosion-proof detonator consisting of a cavity containing a compacted secondary charge and a primary charge molded thereon in a thick-walled metal housing with a central through-hole, characterized in that the main advantage of the invention is the simplification of the design of cavities in casting molds tenfold multiplicity of die casting mold, which significantly increases economy. Another, further advantage arises from the solution according to the invention in that filling the conical cavity with an initial substance increases its initiating effect due to the so-called "cumulative" effect. Another significant advantage is the improvement of the mechanical strength of the ignition surface and the density of the entire charge of the initial explosive. The invention is shown in more detail in the drawing, which is a cross-section of a detonator according to the invention. The thick-walled primary cartridge housing 1 molded in the detonator cavity 2 on the secondary cartridge 3 has a central through-hole formed on the ignition side, indicated by an arrow, first formed by a cylindrical cavity 4 adjoining the conical cavity 5 which passes to the cylindrical cavity 6. 0 to 1.8 mm and a height of 1.0 to 3.0 mm, the conical cavity 5 has an apex angle of 30 to 150 ° and the cylindrical cavity 6 has a diameter of 2.5 to 4.9 mm and a height of 3.0 to 5, 0 mm. The diameters of the two cylindrical cavities are in the ratio of (1: 2) to (1: 4). The initial explosive 7 is located both in the conical cavity and in the cylindrical cavity 6. In the direction of ignition, the central opening is formed first by a narrower cylindrical cavity (4), passing through the conical cavity (5J) into the wider cylindrical cavity (6), where a compacted initial filling (7) is placed, filling the conical cavity (5).