RU2113684C1 - Initiation means - Google Patents

Abstract

FIELD: initiation of high-explosive charges. SUBSTANCE: case 2 accommodates electric primer 1 and cap 3 with hole 4. Cap 3 accommodates igniting compound 5, primary charge 6 in the form of compound based on mixture of fine-disperse carbonyl hexogen with ordinary hexogen on polymeric binder, and intermediate charge 7. Primary charge 6 interacts with main charge 8 through intermediate charge 7. Conical cavity 9 filled with part of the primary charge may be made in the igniting charge. The cap may accommodate inert material with an axial duct filled with retarding agent. EFFECT: simplified design and enhanced safety. 6 cl, 4 dwg

Description

 The invention relates to means for initiating charges of blasting explosive (BVV) and can be used in the manufacture of initiating means using electric igniters, fire cords and fire tubes.

 Currently known means of initiation, part of which is a detonator, which do not use initiating explosives (TRS) [1 and 2]. These detonators have increased safety due to the lack of TRS.

 Their disadvantage is that only the option with an electric igniter is realized, and that they use sleeves and cases that are not standardized with industrial detonators.

 Closest to the invention is a detonator, indicative for use in various initiation systems [3]. This detonator has a unified sleeve.

 Its disadvantage is the use of TRS in it and the complexity of the design due to the use of additional bottoms with holes of various designs.

 The purpose of the invention is to simplify the design and increase the safety of the means of initiation.

The goal is achieved by:
in the initiating means, consisting of an electric igniter or a fire-conducting cord, or a fire-conducting tube, a sleeve with the main charge of the explosive charge, a cap with a hole and an intermediate charge of the explosive charge, the initial charge based on a mixture of a finely dispersed carbonyl hexogen and regular hexogen on a polymer is placed in the cap after a dose of igniter composition wherein the initial charge interacts through the intermediate charge of the explosive charge with the main charge of the explosive charge, and the intermediate and main charges consist of a heater;
in the means of initiation, the igniter composition has a conical cavity coaxial with the opening in the cap, in which part of the initial charge is placed, the top of the cavity being 0.1-0.5 mm from the base of the cap;
in the means of initiation, the dense inert material placed in the cap has a channel coaxial with the opening in the cap filled with a part of the igniter composition, moreover, pressed iron powder with a particle size of 100-200 microns on a binder can be used as a dense inert material;
in the means of initiation, a delaying composition is placed in the channel after the first dose of the igniting composition, interacting through the second dose of the igniting composition with the initial charge, the length of the channel with the slowing composition being proportional to the response delay.

 In FIG. 1-4 shows sections of initiation means and design options.

 The means of initiation (Fig. 1) consists of an electric igniter 1 or equivalent flame-retardant cord or flame-retardant tube, sleeve 2, cap 3 with hole 4, igniter composition 5, initial charge 6, intermediate charge 7 and main charge 8.

 In FIG. 2, cap 3 with cavity 9 is shown separately.

 The embodiment of FIG. 3 differs from the embodiment of FIG. 1 dense inert material 10 and channel 11.

 The embodiment of FIG. 4 differs from the embodiment of FIG. 3 by an elongated channel 11, a retarder 12 and the separation of the igniter composition 5 into two doses.

 Means of initiation (Fig. 1) works as follows.

 The initial heat pulse developed by the electric igniter 1 through the holes 4 in the cap 3 ignites a slagging igniter composition 5, from which the initial charge 6 detonates. In this case, the detonation wave propagates with amplification in the intermediate charge 7 and in the main charge 8.

 The triggering of the main charge 8 initiates the detonation of the external charge of the explosive charge.

 In the initial charge, a mixture of finely dispersed carbonyl RDX and ordinary RDX on a polymer binder was used. This charge is resistant to mechanical stress as a blasting explosive and is sensitive to a thermal pulse as an initiating explosive.

 The disadvantage of this composition is the insufficient reliability of the transition of combustion to detonation under conditions of gas outflow and at a low-temperature initial impulse.

 To compensate for this drawback, igniter composition 5 is placed in cap 3, the slags formed during combustion of which reduce the outflow of gases through opening 4.

 The effect of the outflow of gases is more pronounced when the detonator is excited from the flame tube and the cord. When the igniter composition has a thickness of 5 about 3 mm, a response delay of about 10 ms is obtained and the charges are stably detonated.

 The use in the intermediate charge 7 and the main charge 8 of a heating element having a higher TNT equivalent than hexane is due to the need to initiate low-sensitivity external explosive charges. The equipment of the initiating means of the embodiment of FIG. 2 allows to obtain a response delay of not more than 4 ms while maintaining the initiating ability. When the top of the cavity 9 is located at a distance of A = 0.1 - 0.5 mm, the initial heat pulse quickly reaches the initial charge 6 in the cavity 9 and causes its detonation.

 In the embodiment of FIG. 3, a dense inert material 10 is placed in the cap 3, which can be used as pressed iron powder with a fineness of 100 - 200 microns on a binder. Channel 11 in this material is made with dimensions at which throttling properties for combustion products are manifested. For stability of the transmission of the initial pulse, the channel 11 is filled with igniter compositions 5, which during combustion is slagged and closes the channel. The presence of a dense inert material 10 located near the initial charge 6, and a narrow channel 11 can increase the initiating ability of the initial charge 6.

 In the embodiment of FIG. 4 in the cap 3 is placed a dense inert material 10, in the channel 11 of which a slowing-down compound 12 is placed. The necessary response delay is determined by the formulation of the slowing-down composition 12 and its length. The diameter of the channel 11 must exceed the critical size at which the combustion attenuation of the retarding composition 12 occurs.

 The separation of the igniter composition 5 into two doses improves the ignition of the insensitive retardant compositions 12 and compensates for the influence of the dispersion of the combustion temperatures of the retardant compositions 12 on the initial charge 6.

 Placing a massive inert material 10 near the initial charge 6 increases its initiating ability.

 Thus, in comparison with the prototype in this means of initiation, the design is simplified due to the rejection of bottoms with holes of various designs, and the replacement of the initiating explosives with a blasting composition based on carbonyl hexogen improves the safety of the initiating means in the manufacture and use, which allows us to achieve the objective of the invention .

 Literature.

 1. US patent N 3.212.438, NKI 102-28 10/19/1965.

 2. Patent N 1521291, cl. F 42 B 3/10, F 42 B 19/08, 1989.

 3. US patent N 4727808, CL. F 42 B 3/10, 1988.

Claims (6)

 1. The means of initiation containing an electric igniter, or a flame-retardant cord, or a flame-retardant tube, a sleeve, the main charge of a blasting explosive, a cap with intermediate and initial charges, an igniter composition, characterized in that the igniter composition is placed in the cap before the initial charge, made on the basis of a mixture of finely dispersed carbonyl RDX and ordinary RDX on a polymer binder and interacting through an intermediate charge with the main charge.  2. The initiation tool according to claim 1, characterized in that the igniter composition is made with a conical cavity, coaxial with the hole in the cap, with a portion of the initial charge placed in it, while the apex of the cavity is located at a distance of 0.1 ± 0.5 mm from the base of the cap.  3. The initiation tool according to claim 1, characterized in that the cap is provided with a dense inert material with an axial, coaxial with the opening in the cap, a channel in which a part of the igniter composition is placed.  4. The means of initiation according to claim 3, characterized in that it is equipped with a retarding composition placed in the channel of a dense inert material after the first dose of the igniting composition and interacting through the second dose of the igniting composition with the initial charge, while the length of the channel with the retarding composition is proportional to the response delay .  5. The means of initiation according to claim 3 or 4, characterized in that a pressed iron powder with a fineness of 100-200 microns on a binder is used as a dense inert material.  6. The means of initiation according to claim 1, characterized in that the intermediate and main charges are made of heating elements.

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