RU2138759C1 - Blasting cartridge-detonator - Google Patents

Abstract

FIELD: blasting means for blasting operations, applicable as an intermediate detonator of charges intended for initiation of deep-hole and other charges of low-sensitive and commercial explosives, as well as explosives used in military purposes. SUBSTANCE: the housing accommodates an explosive charge with a through passage for the blasting fuze and an axial blind passage for the blasting means. The charge end face opposite to the blind passage is made convex, hemispherical, inert inserts are installed intermittently in it. EFFECT: enhanced efficiency and safety of blasting operations. 1 dwg

Description

 The invention relates to the field of blasting and can be used in intermediate charge detonators designed to initiate borehole and other charges of insensitive and industrial explosives (BB), and also used as explosives for military purposes.

 Known intermediate checker - a detonator brand TG-500 (ost 84-41-80, p. 3), which is an integral product with a through channel for a detonating cord (DS). Checker - the detonator is cast directly into the paper shell. Such a detonator is simple in design, but the detonating agent located on its surface (capsule - detonator) may be damaged during transportation or during work, which may cause a partial or complete impossibility of explosion.

Known checker-detonator (US Pat. RF 2089827, F 42 B 1/04, priority 13.12.94, publ. 10.09.97. Bull. N25), including a cylindrical paper waterproof housing, which contains the explosive charge with a through axial channel under the detonating a cord and a blind channel displaced relative to the axis under the detonator caps or electric detonator. Both channels have straight walls, on one side of the undercuts - 15 ^o and are connected by a groove, which prevents damage to the detonating cord or wires during blasting. This design checkers as the closest in technical essence and the claimed result is selected as a prototype. The disadvantage of this design is the non-simultaneous approach of detonation waves to the surface, which reduces the efficiency of the checker and the reliability of the transmission of detonation to the initiating checker charge. In addition, when initiating a low-sensitivity explosive, it becomes necessary to use several checkers to achieve reliable initiation, or to introduce a limit on the sensitivity of the initiating explosive.

 The problem to which the invention is directed is reliable transmission of detonation and safe operation. The technical result of the proposed solution is to increase the efficiency and safety of work.

 The essence of the invention lies in the fact that the explosive charge with two longitudinal channels is placed in a checker-detonator containing a housing. One channel through under the detonating cord or electric wire, the second deaf - under the capsule - detonator or electric detonator. The blind channel is located on the axis of the charge, and the end of the charge, opposite the blind channel, is convex, for example, hemispherical, and inert inserts are installed along this end. The design of the detonator allows the use of either a detonating cord or a detonating agent.

 The location of the blind channel along the axis of the charge helps to create a more uniform pressure field along the surface of the charge, which increases the efficiency of the initiating action and reduces the likelihood of failures or incomplete detonation of the initiated explosive, i.e. increases work safety.

 These qualities of the proposed device (efficiency and safety) are enhanced if the end face is made convex (hemispherical), since in this case the best symmetrization of the detonation wave is achieved and the wave is simultaneously output to the convex surface of the detonator block.

 The placement of inert inserts, for example, in the form of a lattice in the surface layer of the detonator block makes it possible to form high pressure zones above the inserts that enhance the initiating pulse, i.e. increases the efficiency of initiation, and also allows the use of less sensitive explosive compositions both as an explosive charge in a checker-detonator and as an initiated charge. This makes blasting less dangerous.

 In FIG. 1 shows a General view of the claimed device.

 1. The explosive charge.

 2. The longitudinal through channel.

 3. Axial blind channel.

 4. Inert insert.

 5. Connecting groove.

 An example of this can be a checker detonator, including a BB1 charge with a hemispherical surface, placed in a paper waterproofing case, a through channel 2 with a diameter of 10 mm for a detonating cord or electric wire, a blind axial channel 3 with a diameter of 8 mm for a detonator or electric detonator, a grate 4 of inert material with ribs of a triangular section and a pitch between the ribs L, a connecting groove 5, which prevents the detonating cord or wire from blasting from damage.

A mathematical experiment was carried out with a detonator block having the following parameters: BB — TNT with ρ = 1.61 g / cm ³ , hemispherical surface radius R = 50 mm, lattice ribs made of copper and have a cross section in the form of an equilateral triangle with a side of 6 mm, the spacing between the edges of the grating is ~ 20 mm.

 Checker-detonator works as follows.

 When undermining the means of initiation, detonation of the charge 1 is excited in the Central zone of the charge. A diverging detonation wave propagates from the initiation point, which first simultaneously approaches the vertices of the inserts 4 and then simultaneously enters the hemispherical surface of the charge. In this case, two oblique shock waves are formed in the insert, which interact along the axis of the insert with the formation of a new reflected shock wave. Behind the front of this wave, as calculations and experiment show, a pressure is realized that is higher than the pressure in the detonation wave. Thus, over pressure zones are formed above the inserts, which are the source of a more powerful initiating pulse.

 Calculations performed using the two-dimensional DMK program showed that the pressure on the axis of the grating rib is twice the pressure at the Jouguet point on the front of the detonation wave in TNT.

 This explains the increase in the initiating pulse of the inventive checkers-detonator and the possibility of using less sensitive explosive compositions.

Claims (1)

 A detonator bomb including a housing in which an explosive charge is placed with a through channel for a detonating cord or electric impulse wire and a blind channel for detonating means, characterized in that the blind channel is located along the axis of the explosive charge, and the end face is opposite to the blind channel , made convex and inert inserts are installed on it.