RU2226254C2 - Device for forming explosion wave - Google Patents

Abstract

FIELD: explosive charge initiating devices. SUBSTANCE: proposed device includes explosive charge and detonating branch with common receiving section. Gasket made from inert material is laid on detonating branch coaxially relative to common receiving section; it is provided with channel filled with explosive. Cross-sectional area of said channel on side of detonating branch is lesser than cross-sectional area of common receiving section. Channel has shape of two truncated cones directed towards each other by their lesser bases. It may be provided with constriction towards detonating branch. EFFECT: enhanced reliability. 3 cl, 2 dwg

Description

The invention relates to the field of explosive technology, in particular, to devices for initiating explosive charges (explosives).

A device for generating a blast wave is known (patent RU 2135935 from 08/05/97, published on 08/27/99, F 42 B 3/10) containing an explosive charge, detonation wiring from a freeze-dried explosive, which is located on the explosive charge or on an additional layer of flexible explosive, located on the explosive charge. When detonation wiring is activated, the pulse propagates to its end sections and initiates a flexible explosive layer and explosive charge.

A device is known for generating a blast wave (AS USSR 1799111 dated 01/30/91, published May 10, 2000, F 42 B 3/10) containing an explosive charge and detonation wiring with a common receiving section. The detonation wiring is placed in an inert material matrix and installed in the explosive charge. In this case, the matrix is lined by explosive materials in contact with the explosive charge, which is more sensitive to explosion than the explosive charge, and the end sections of detonation wiring are located on the lined surfaces.

The disadvantages of the known devices are the instability of obtaining a given detonation wave front, the possibility of increasing the time difference between the detonation wiring channels due to the displacements of the external detonation source relative to the common receiving section. The latter, of the above devices, was selected as a prototype.

The task to which the claimed solution is directed is to improve the quality of the explosion formation process.

The technical result of the proposed solution is to increase the reliability of obtaining a given detonation wave front by increasing the stability of detonation channels by reducing the initial deviations of the detonation excitation point at a common receiving section from the axis of symmetry of the explosive charge, as well as reducing the impact on the stability of assembly errors. An additional technical result is to increase the reliability of the transmission of the initial detonation pulse.

The claimed technical result is achieved due to the fact that in the device for generating a blast wave containing an explosive charge and detonation wiring with a common receiving section, a gasket of inert material, in which a channel filled with explosives is made, is coaxial with the common receiving section. The cross-sectional area of the channel on the detonation side is less than the cross-sectional area of the common receiving section. The channel can be made narrowing towards the detonation wiring or take the form of two truncated cones with smaller bases facing each other.

The presence of an additional gasket with a channel filled with explosives, which is installed on the detonation wiring, helps to reduce assembly errors, which leads to an increase in the reliability of obtaining a given detonation wave front. A smaller cross-sectional area of the channel from the detonation wiring side as compared to the cross-sectional area of the common receiving wiring section reduces the deviation of the detonation excitation point from the common receiving section from the axis of symmetry of the explosive charge, which increases the stability of the channels, reduces the effect on the assembly errors and, in ultimately, it increases the reliability of obtaining a given detonation wave front. The shape of the channel also allows to increase the reliability of transmission of the initial detonation pulse.

The design of the device for the formation of a blast wave is illustrated in the drawing (Fig.1 and 2), where 1 is the body; 2 - housing cover; 3 - explosive charge; 4 - detonation wiring; 5 - gasket of inert material; 6 - common receiving area.

In confirmation of the industrial applicability of the proposed solution, the following example of the implementation of a blast wave generating device can be considered.

Housing 1 contains a charge of explosive 3 and detonation wiring 4 with a common receiving section 6, the assembly density of which is ensured by the cover of housing 2.

The housing 1 is made of steel 10 and has a thickness of 3 mm. The detonation wiring of a plastic explosive is placed in a 5 mm thick plastic matrix and contains a common receiving section with a diameter of about 9 mm and branched end sections. Coaxially with the common receiving area, an ABS plastic gasket is installed, in which a channel is filled with a plastic explosive with a diameter of about 6 mm with a narrowing to detonation wiring. The cross-sectional area of the channel at the point where it adjoins the common receiving section is ~ 2 ... 5 mm ² , the cross-sectional area of the receiving section is about 30 mm ² .

The device for forming a blast wave operates as follows.

An explosive in the inert gasket channel 5 is activated from an external source. In this case, detonation excitation can occur at any point of a larger channel cross section. Next, the detonation pulse is transmitted to the common receiving section 6 and from it, through the detonation wiring 4, through its end sections, the explosive charge 3 is initiated, where a wave of a given shape is formed. The narrowing of the channel of the inert gasket 5 and its exact positioning coaxially with the common receiving section 6 ensures the initiation of detonation in the center of the common receiving section, which reduces the simultaneous operation of the end sections of the detonation wiring 4.

Claims (3)

1. A device for generating a blast wave containing an explosive charge and detonation wiring with a common receiving section, characterized in that a gasket of inert material is installed on the detonation wiring coaxially with the common receiving section, in which a channel filled with explosive is made, wherein the transverse area the cross-section of the channel from the detonation wiring side is less than the cross-sectional area of the common receiving section. 2. The device according to claim 1, characterized in that the channel has the shape of two truncated cones with smaller bases facing each other. 3. The device according to claim 1, characterized in that the channel is made narrowing towards the detonation wiring.

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