RU2227885C1 - Explosive tubular booster - Google Patents

Abstract

FIELD: experimental physics, applicable, in particular, at propelling of rigid bodies. SUBSTANCE: the booster has a body accommodating an explosive and initiating elements. The explosive is made in the form at least of six shaped charges located longitudinally in the body. The charge recesses are directed towards the body axis with formation in the body cross-section of a ring from plasma jets formed by the charges, the ring is formed by superposition of each subsequent plasma jet on the previous one. The body has the shape of a truncated cone. The initiating elements are made longitudinal and connected by an electric circuit. EFFECT: considerably expanded technical characteristics. 2 dwg

Description

The invention relates to the field of experimental physics, radio electronics, military equipment and can be used in the design of devices, devices and ammunition for electronic purposes (electronic jamming, disabling electronic equipment, including off) in a wide range of tasks.

When determining the level of technology, publicly available information was used, presented in the following sources of information:

published descriptions of title documents, applications for inventions;

Soviet and other publications available in the library;

Messages transmitted via radio, television, cinema, etc.

An analysis of this information (RF Author Certificate No. 2072091 C1, IPC F 42 V 1/02, RF No. 2072501 C1, IPC F 42 V 1/02) showed that the well-known, widely used explosive tube accelerators, instruments, devices, ammunition with available certain characteristics allow you to create electronic radiation (electronic interference, destruction of electronic equipment) of installed power in a certain spectrum of the radio frequency range, strictly oriented in space to the target with a certain radiation time.

The disadvantages of such devices include the limited radiation power and spectrum of the radio frequency range, the difficulty of aiming at the target, the short duration of the radiation. In addition, even with significant changes (increases) in the dimensions of the devices, it does not seem technically possible to significantly increase the radiation power and time.

The problem to which the invention is directed is to create a new type of explosive tube accelerators, instruments, devices, ammunition, which will significantly increase the radiation power and the spectrum of the radio frequency range, the radiation time, will provide ease of aiming at the target with the existing dimensions, as well as reduce the dimensions of the products with existing power, time and radiation spectrum, depending on the tasks.

The technical result that can be obtained by using it is that with the previous existing dimensions of such devices, their technical parameters (power, spectrum, radiation time) increase, i.e. the technical characteristics of the devices will expand to the level of widespread use, the power will increase sharply (up to several hundred times from existing at this time) and the radiation time (up to tens, hundreds of times from existing at this time), the radiation spectrum is expanding.

This problem is achieved in that the explosive tubular accelerator, comprising a housing, inside of which explosive and initiating elements are located, according to the claimed invention, the explosive is made in the form of at least six cumulative charges arranged longitudinally in the housing, the recesses of which are directed to the side the axis of the casing with the formation in the cross section of the casing of the charge generated by the plasma jets of the ring formed by the superposition of each subsequent plasma jet on the previous one, the housing is made in the form of a truncated cone, and the initiating elements are made longitudinal and connected by an electric circuit.

The essence of the invention is shown in the drawings. Figure 1 shows a General view of the VTU, where the case of a truncated cone (1) with radially arranged longitudinal cumulative devices, in an amount of 6 to n, consisting of explosives (2) with a longitudinal cumulative recess and reinforced with metal (3), with longitudinal initiating elements (4) connected by an electric circuit and directed at an angle λ (6) of FIG. 2 to the center of the longitudinal axis of the truncated cone to the initial (internal) radius of rotation of the plasma (7).

Longitudinal cumulative devices, in an amount of 6 to n, consisting of explosive (2) with a longitudinal cumulative recess and reinforced with metal (3), placed in a truncated cone body (1) with an outer radius differentiated from maximum to minimum, equal to the sum the depth of the cumulative device, the length of the cumulative jet (5), at which the destruction of the Mach disk and the initial (internal) radius of rotation of the plasma (7) and directed toward the center of the longitudinal axis of the truncated cone at an angle λ (6), initiate Xia initiating longitudinal elements (4) connected circuits.

The proposed device operates as follows.

After initiation by longitudinal initiating elements (4) of longitudinal cumulative devices, in an amount of 6 to n, with a direction to the center of the longitudinal axis of the truncated cone at an angle λ, consisting of explosives (2) with a longitudinal cumulative recess and reinforced with metal (3), placed in the case of a truncated cone (1) with an outer radius differentiated from maximum to minimum equal to the sum of the depth of the cumulative device, the length of the cumulative stream (5), at which the destruction of the “Makhovsky disk” begins and the beginning of the linear (internal) radius of rotation of the plasma (7), the formed transverse cumulative jets (5) in the form of a plasma, consisting of the products of the explosive explosive and the shell of the reinforcing metal, move to the center of the longitudinal axis of the truncated cone at an angle λ (6), at a distance at which the destruction of the “Makhovsky disk” begins, the jets crossing the center of the longitudinal axis of the truncated cone at a distance R (pl), corresponding to the initial (internal) radius of plasma rotation, overlap each other so that each subsequent yn plasma relative to the center longitudinal axis of the truncated cone is covered by the previous plasma jet relative to the center longitudinal axis of a truncated cone, forming a rotating plasma ring (7).

Claims (1)

An explosive tubular accelerator, comprising a housing, inside of which an explosive and initiating elements are located, characterized in that the explosive is made in the form of at least six cumulative charges arranged longitudinally in the housing, the recesses of which are directed toward the axis of the housing to form a cross section of the casing of the plasma jets formed by the charges of the ring formed by superimposing each subsequent plasma jet on the previous one, while the casing is made in the form of a truncated cone, and the initiating elements are made longitudinal and are connected by an electric circuit.

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