RU2635414C1 - Explosive device - Google Patents

Abstract

FIELD: weapon and ammunition.

SUBSTANCE: device contains a steel capsule, on the basis of which longitudinal channels and a voltage concentrator are made, into which the initiating charge is pressed. A detonator, a transfer charge are pressed into the body in series.

EFFECT: improvement of operational characteristics - efficiency and speed of operation of the explosive device, improvement of mass-dimensions characteristics of the explosive device, and increase of safety.

4 cl, 1 dwg

Description

The invention relates to detonating devices that are triggered by a given mechanical force, not containing initiating explosives (BB), and can be used to develop the design of a mechanical shock fuse and detonation circuits of explosive automation.

A device is known, described in the patent for invention No. 2392578, IPC F42C 19/10, under the name "Detonating device of a mechanical fuse", containing a sequentially stepped cylindrical firing pin, a deformable element, a detonator capsule, an axial channel, a transfer charge and a detonator block. The striker is mounted loosely on the surface of the deformable element with the end face of the striker step drowned relative to the end surface of the body.

The disadvantage of this device is:

- high response energy;

- high probability of self-operation of the device when exposed to emergency shock and vibration loads in the direction of the axis of the detonator;

- difficulty in manufacturing, high mass and dimensions of the device.

It is also known a device comprising a housing in the form of a thin-walled brass sleeve with a detonator capsule made of blasting explosive and a detonator arranged sequentially in it. A disk made of polarized piezoelectric ceramics is mounted in the detonator capsule on the blasting explosive, and the detonator capsule itself is located on the detonator, the device is described in invention patent No. 2302607, IPC F42C 19/10, publ. 07/10/2007, under the name "Detonating device of a mechanical fuse."

The disadvantages of the known detonating device are:

- high response energy;

- high probability of self-operation of the device when exposed to emergency shock and vibration loads in the direction of the axis of the detonator;

- low output power (initiating ability) of the device.

The closest and selected as a prototype is the detonating device of a mechanical fuse, consisting of a housing and a sequentially placed capsule equipped with a secondary explosive, transfer charge and detonator, described in RF patent No. 2083948, IPC F42C 19/10, publ. 07/10/1997, under the name "Detonating device of a mechanical fuse."

The disadvantages of the known detonating device are:

- high response energy;

- high probability of self-operation of the device when exposed to emergency shock and vibration loads in the direction of the axis of the detonator;

- high overall dimensions of the device.

The aim of the invention is to provide an effective safe, reliably detonating device with low response energy.

This goal is achieved in that in an explosive device consisting of a body and a sequentially located capsule equipped with an initiating charge of a secondary explosive, a transfer charge and a detonator, according to the invention, the capsule is equipped with a voltage concentrator located in the center of its base, made with at least two symmetric along the axis of the longitudinal channels filled with a secondary explosive, while the transfer charge is made of a secondary low-density explosive, and the detonator is made in the form of a secondary charge High density explosives.

In addition, the voltage hub is made in the form of an anvil.

In addition, cobalt (III) pentaamine diperchlorate (5-nitrotetrazolato) pentamine was used as the secondary explosive of the initiating and transfer charges.

In addition, a brand B heater was used as the secondary explosive of the detonator.

The technical result of this invention is the development of a safe small-sized explosive device with low actuation energy and high initiating ability due to the rejection of the use of highly sensitive initiating explosives, reducing the area of explosives loaded by a striker, the use of explosives with a much shorter section of the transition of combustion into detonation.

New features (the capsule is equipped with a voltage concentrator located in the center of its base, made with at least two longitudinal channels symmetrical along the axis, filled with a secondary explosive, while the transfer charge is made of a secondary low-density explosive, and the detonator is made in the form of a secondary secondary explosive charge density) are not identified in technical solutions for a similar purpose. On this basis, we can conclude that the claimed invention meets the condition of "inventive step".

The invention is illustrated in the drawing, which shows a General view of an explosive device:

1 - housing;

2 - capsule;

3 - initiating charge of the secondary explosive;

4 - voltage concentrator;

5 - longitudinal channels;

6 - transfer charge of the secondary explosive low density;

7 - detonator in the form of a secondary secondary explosive charge of high density.

An initiating charge 3 of the secondary explosive is pressed into a steel capsule 2 with a predetermined force. On the base of the capsule 2 is a voltage concentrator 4 (anvil with a diameter of 1.1 ... 1.2 mm). The following are pressed in successively with normalized efforts into the metal case 1: detonator 7, which is a charge of a secondary high-density explosive; the transfer charge 6 of the secondary secondary explosive of low density, which amplifies the blast wave generated by the capsule 2, ensuring the completeness of detonation of the detonator 7 of the secondary secondary explosive of high density. The longitudinal channels 5 at the base of the capsule 2 are filled with a secondary explosive and are made in order to improve the conditions for the transfer of an explosive pulse from the capsule 2 to a low-density secondary explosive charge 6.

An explosive device operates as follows. The fuse pin, on the end of which a piezoceramic element is located (not shown in the drawing), strikes the initiating charge 3 of the secondary explosive. In this case, the majority of the impact energy is absorbed by that part of the explosive that is located above the voltage concentrator 4 (anvil), since the density of the explosive in this part of the charge is significantly higher than in the rest. Due to the increase in pressure associated with this, as well as an increase in the rigidity of the explosive in the indicated region, the explosive transformation is initiated in the pinch zone of the explosive and spreads further along the initiating charge 3 of the secondary explosive in the capsule 2. The equipped capsule 2, in turn, initiates the transfer charge 6 of the secondary BB low density. Longitudinal channels 5, made in the base of the capsule 2, improve the transmission conditions of the explosive pulse. Then the shock wave is amplified when passing through the transfer charge 6 of the secondary explosive low density. In this case, the pre-detonation section for the explosive used is 7 mm (versus 37 mm for the prototype). Next, the shock wave is transferred to the detonator 7 of the secondary high-density explosive. The low energy of initiation of the initiating charge 3 of the secondary explosive in the capsule 2 is provided due to the multiple increase in pressure in the region above the voltage concentrator 4 (anvil).

An example of a specific implementation can be an explosive device based on secondary explosives, which is intended for use in pyroautomatics. In this explosive device, a starting explosive charge 3 of a secondary explosive mass of 0.028 g is pressed into a steel capsule 2 with a predetermined force. Based on the capsule 2 there is a voltage concentrator 4 (anvil with a diameter of 1.2 mm). At the base of the capsule 2, 4 symmetrical along the axis of the longitudinal channels 5 with a diameter of 1.0 mm are made. The following are pressed in successively with normalized forces into the metal casing 1: detonator 7, made in the form of a secondary high-density explosive charge of a T B brand, pressed to a density of 1.65 g / cm ³ ; the transfer charge 6 of the secondary low-density explosive is pressed into a density of 1.5 g / cm ³ . In this device, cobalt (III) diperchlorate (5-nitrotetrazolato) cobalt (III) pentamine is used as a secondary explosive for initiating charge 3 and transfer charge 6, this substance is on the level of sensitivity to impact on the same level as standard explosives, but it has much more short section of the transition of combustion to detonation. The use of this invention will allow:

- reduce the energy of the explosive device;

- reduce the likelihood of self-operation of an explosive device when exposed to emergency shock and vibration loads in the direction of the axis of the detonator;

- increase the output power (initiating ability) of the explosive device.

Thus, the above information indicates that when using the invention the following set of conditions:

- in an explosive device intended for use in the construction of a mechanical shock fuse and in detonation circuits of explosive automation, improved operational characteristics, namely the efficiency and speed of operation of the explosive device, increased the safety of operation of this device, improved overall dimensions of the explosive device;

- for the claimed invention in the form described in the claims, the possibility of its implementation using the above-described structural solutions is confirmed, namely, an explosive device with improved characteristics is obtained.

High safety indicators, including during impacts and broadband random vibrations, are ensured due to the fact that the explosive device is made using only secondary explosives.

Thus, the explosive device embodied in the claimed invention, when implemented, is capable of achieving the achievement of the technical result perceived by the applicant. Therefore, the claimed invention meets the condition of "industrial applicability".

Claims (4)

1. An explosive device consisting of a body and a sequentially located capsule equipped with an initiating charge of a secondary explosive, a transfer charge and a detonator, characterized in that the capsule is equipped with a voltage concentrator located in the center of its base, made with at least two symmetrical axes longitudinal channels filled with a secondary explosive, while the transfer charge is made of a secondary low-density explosive, and the detonator is made in the form of a charge of a secondary high-density explosive. 2. An explosive device according to claim 1, characterized in that the voltage concentrator is made in the form of an anvil. 3. An explosive device according to claim 1, characterized in that the cobalt (III) pentaamine diperchlorate (5-nitrotetrazolato) pentamine is used as the secondary explosive of the initiating and transfer charges. 4. An explosive device according to claim 1, characterized in that TEN grade B is used as the secondary explosive of the detonator.

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