RU2148240C1 - Means of initiation - Google Patents

Abstract

FIELD: means of initiation, applicable in their manufacture. SUBSTANCE: means of initiation has an electric primer or fuze, case, high-explosive charge, bush with retarding compound in the narrow duct and transformer in the wide duct. The bush in thin-walled. The space between the case and bush outer surface in its thin section is made either free, or with a polymeric tube placed in it, or filled with an agent, which is retained either by an additional cap, or polymeric bush, or is pressed in. EFFECT: enhanced adaptability to manufacture. 8 cl, 9 dwg

Description

 The invention relates to means of initiation and can be applied in their production.

 It is known that the means of initiation used in the mining industry are often faced with conflicting requirements for initiating ability, delayed response and their accuracy, safety of use.

 This leads to a variety of designs of initiation tools with different manufacturability.

 So in the means of initiation [1] the retardation element is designed in the form of two caps, one of which with an igniter composition is placed inside the other, in which there is a retardation composition.

 This solution is technologically advanced, but it is difficult to achieve the accuracy of the operation delays.

 As a prototype, an initiating means was used, in which a retardation element in the form of a sleeve was used, in which a slowing-down compound was placed in a narrow channel, and a combustion to detonation converter (hereinafter referred to as the converter) in a wide channel [2].

 This design of the sleeve facilitates the process of equipping the retardation element, however, for the manufacture of this sleeve, in addition to stamping, additional foundry equipment is required.

 The aim of the invention is to expand the functionality and improve the manufacturability of the means of initiation.

 This goal is achieved by the fact that in the means of initiation containing an electric igniter or flame tube, or flame tube, a sleeve, a blasting explosive charge (BVV), a sleeve with a retarding composition in a narrow channel and a converter in a wide channel, the sleeve is thin-walled, while the space between the sleeve and the outer surface of the sleeve in its thin part is either free, or with the placement of a polymer tube in it, or filled with a substance that is held or an additional cap with a tap or a polymer sleeve, or is pressed in.

 The substance placed in the space between the sleeve and the sleeve consists of salts of alkali and alkaline earth metals or phlegmatized TEN, or hexogen, or pentalite.

 In the converter, initiating explosives are used - lead azide or its mixture with TNRS, or a mixture of explosive mixtures with ignition compositions based on zirconium, carbonyl hexogen, and iron-hydrogen sulfide.

 The converter is made of igniter composition interacting with the charge of the explosive charge, in which one or more channels are formed having a ratio of the channel length to its diameter in the range of 2-10.

 The converter is made similar to the previous one, but the channel or channels are formed both in the igniter composition and in the transition charge of the explosive charge.

 The converter is made similar to the previous one, but between the transition charge of the explosive charge and the main charge of the explosive charge placed the second dose of igniter composition.

 The converter interacts with the main charge of the BVV through the hole in the cap or sleeve, which are installed in a wide channel of the sleeve.

 At the end of the sleeve with a moderator there is an additional cap with an igniter composition.

 The main charge of explosive substances consists of a heater or hexogen, or pentolite.

 In FIG. 1 to 9 are sectional views of an initiator.

 The initiation means (Fig. 1) consists of a sleeve 1, a charge of the explosive charge 2, an electric igniter 3, a sleeve 4, a retarding composition 5, a converter 6.

 The sleeve 4 in this means of initiation is made on stamping equipment by draft on the mandrel of a segment of the tube.

 The length and inner diameter of the thin section are variable, depending on the response delay and the composition used.

 In the initiating means of FIG. 1 short sleeve 4 is used. Moreover, the additional volume between the sleeve and the thinned section of the sleeve 4 has little effect on the transfer of the fire pulse from the electric igniter 3 to the retardant composition 5.

 The Converter 6 is located next to the transition between the channels. The stepwise form of this transition is preferred, which improves the initial conditions of detonation, and as a result, increases the initiating ability.

 But even with a conical transition between the channels, satisfactory results are obtained. The preferred material for sleeve 4 is steel.

 In FIG. 2 shows a variant of the initiating means, in which a segment of the polymer sleeve 7 is placed on a thin section of the sleeve 4. This solution is used for large delays when the additional volume reduces the initial fire pulse of the electric igniter 3.

 The elongated polymer tube 7 can act as an electrostatic screen or centering sleeve when mating with a flame tube. Tube 7 is made of polyethylene, polyvinyl chloride with flame retardant additives.

 In FIG. 3 and 4, an initiating means is shown in which a substance 8 is placed in a free volume, which is held in this zone by a cap or sleeve 9 or is pressed in. In order to increase the safety properties, inert salts of alkali, alkaline earth and transition metals are placed in this volume. In a particular case, potassium sulfate. When triggered by the means of initiation, these salts form solid aerosols, which reduce the tendency to explode the surrounding explosive atmosphere.

 When this volume is filled with phlegmatized BVV, an initiating means is formed, in which part of the detonation wave acts not only along the axis of the sleeve 1, but also in the transverse direction. Such a means of initiation has a greater initiating ability and is applicable for initiating fire tubes, detonating cords and charges of explosive devices.

 As phlegmatic BVV can be applied TEN, RDX, pentalite.

 Phlegmatization of BVV is necessary to prevent premature operation during combustion of the retardant composition 5.

 In FIG. 5, 6 and 7 show embodiments of the transducer 6 without the use of initiating explosives. In this case, either an ignition composition prone to detonation or a mixture of a blasting explosive with ignition compositions is placed in the larger channel of the sleeve 4. In this composition, one or more channels 11 are carried out, having a ratio of the length of the channel to its diameter in the range of 2-10.

 In the embodiment of FIG. 6 channels are performed simultaneously in the igniter charge 10 and the transition charge BVV 12.

 In the embodiment of FIG. 7 after the transition charge of the explosive charge 12 placed the second dose of the igniter composition 10.

 When installing the sleeve 4 in the sleeve 1 in these channels is placed the unconsolidated part of the charge of the explosive charge 2 or the second dose of the igniter composition 10.

 When the initiation means is triggered, the products of combustion of the igniter composition 10 pass through the channel 11 through the low-density explosive explosives, leading to a sharp increase in pressure and temperature and detonation of the explosive explosive charge 2.

 The increase in pressure in the sleeve 4 and the increase in the initiating ability of the converter is aided by the installation of a cap 13 or sleeve 14 shown in FIG. 8.

 In FIG. 9 shows an embodiment of an initiating means in which an igniter composition 15 with a low ignition temperature is placed in the cap 9 to interface with a flame-retardant cord or other low-energy source.

 Thus, the manufacture of thin-walled bushings on stamping equipment improves manufacturability and allows you to get the means of initiation for various purposes.

Sources of information
1. Patent GB N 2097517, cl. F 42 B 3/10 dated 04/26/82

 2. Patent US N 4727808, cl. F 42 B 3/10 dated 1.03.88 g. (Prototype).

Claims (8)

 1. A means of initiation containing an electric igniter or flame tube, a sleeve, a blasting explosive charge, a sleeve with a retarding composition in a narrow channel and a combustion to detonation converter in a wide channel, characterized in that the sleeve is thin-walled, with the space between the sleeve and the outer surface of the sleeve and its thin part is free, or a polymer tube is placed in it, or it is filled with a pressed-in substance or a substance held by a cap or a polymer sleeve.  2. The means of initiation according to claim 1, characterized in that the substance placed in the space consists of salts of alkali and alkaline earth metals or from phlegmatized TEN, hexogen or pentalite.  3. The means of initiation according to claim 1 or 2, characterized in that the transformer used is lead azide, a mixture of lead azide and THRS, or a mixture of blasting explosive with igniter compositions based on zirconium, carbonyl hexogen and iron-lead sulfide.  4. The means of initiation according to any one of claims 1 to 3, characterized in that the converter consists of an igniter composition and a transition charge of a blasting explosive, in which one or more channels are made, having a length to diameter ratio of 2 to 10.  5. The means of initiation according to claim 4, characterized in that after the transitional charge of the blasting explosive, a part of the igniter composition is placed.  6. The means of initiation according to any one of claims 1 to 5, characterized in that the converter interacts with the main charge of the blasting explosive through the opening of the cap or sleeve mounted in a wide channel of the sleeve.  7. The means of initiation according to any one of claims 1 to 6, characterized in that at the end of the sleeve with a moderator there is an additional cap with an igniter composition.  8. The means of initiation according to any one of claims 1 to 7, characterized in that the main and transition charges of the blasting explosive consist of TEN, or hexogen, or pentalite.

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