KR101555920B1 - Electric armor and protection system - Google Patents

Abstract

The present invention relates to an electrode unit for generating a pulse current when passing through a metal jet so as to deform a metal jet of an amorphous carbon using an electromagnetic force and at least one wire electrically connected to the electrode unit, And a wire explosion portion disposed on the path of the metal jet that has passed through the electrode portion. The wire is subjected to an explosion by receiving the pulse current to attenuate the penetrating ability remaining in the metal jet passing through the electrode portion, And is configured to apply debris and energy by the explosion to the metal jets.

Description

[0001] ELECTRIC ARMOR AND PROTECTION SYSTEM [0002] FIELD OF THE INVENTION [0003]

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to an electric glove for protecting an attack of an anti-tank rocket using an electromagnetic force and a protection system equipped with the same.

Combat vehicles are protected by armor to protect the internal functions of the crew and the vehicle from external threats. A typical external threat to combat vehicles is anti-tank rocket RPG-7. The RPG-7's warheads, when they strike a target with a shaping charcoal, operate a piezoelectric element on the warhead, generating thousands of volts of electromotive force, resulting in explosive explosions. As the metal liner is deformed by such an explosion, a metal jet having a tip velocity of about 7 km / s or more is generated, and the target is penetrated by the jet.

There are explosive reactive armor that protects RPG-7 equipped with a molded peony bullet, but it has a high explosive power against the explosive force, It can inflict damage on ally. In recent years, inactivated reaction gloves have been developed or under development that have improved these disadvantages of explosive reaction gloves. Unlike explosive reaction gloves and inactive reactive gloves, which reduce the performance of jets due to mechanical interferences caused by metal flight plates, a new concept of electric glove technology that reduces the performance of jets by applying electrical energy to metal jets Is being developed.

In an electric glove, a method of energizing a high voltage high current to a jet is to connect a pulse power supply device and two electrode plates charged at a high voltage are arranged side by side at regular intervals so that the jet passes through the first electrode plate and reaches the second electrode plate As the conductive jets are connected between the two electrode plates, a high voltage current flows through the jet. When a high voltage high current of several tens of kV is applied to the jet, the jet is separated into individual particles by the action of the electromagnetic force, and the penetration performance is greatly reduced because the mass and density are reduced by expansion in the radial direction.

However, since the tip of the jet penetrates the electrode plate at a very high speed of 7 to 8 km / s, there is not enough time to receive the electric energy, so that the penetration performance is not reduced. This is a challenge for electric gloves. Therefore, in disturbing the metal jet of the carbonated carbon black using the electromagnetic force, it may be considered to develop an electric glove capable of effectively attenuating the penetration force of the metal jet tip moving at a very high speed.

It is an object of the present invention to provide an electric glove capable of effectively attenuating the penetration force of a metal jet tip portion which is not sufficiently disturbed by an electromagnetic force.

According to an aspect of the present invention, there is provided an electric glove according to the present invention, which generates a pulse current when passing through a metal jet, And a wire explosion part having at least one wire electrically connected to the electrode part and disposed on the path of the metal jet passing through the electrode part, The pulse current is applied to explosion to attenuate the penetrating ability remaining in the jet, and the debris and the energy due to the explosion are applied to the metal jet.

According to an example of the present invention, the electrode unit includes a first electrode plate and a second electrode plate spaced apart from each other so that the metal jets are sequentially passed through the first electrode plate and the second electrode plate, And a capacitor for generating the pulse current to be applied to the metal jet when the first and second electrode plates are short-circuited by the metal jet.

The electric glove may further include a third electrode plate spaced apart from the second electrode plate. The wire is fixed to the second and third electrode plates at both ends, Current can be applied.

The plurality of wires may be arranged to form an array between the second and third electrode plates.

The wires may have an arrangement of regions intersecting with each other.

The wire may have a region bent in one direction to achieve the above arrangement.

According to another embodiment of the present invention, the wire may have at least one notch portion whose diameter is reduced.

The notches may be formed of a plurality of notches and may be arranged to face each other about the longitudinal axis of the wire.

In order to solve the above problems, the present invention proposes a protection system including an electric glove. The protection system according to claim 1, wherein the protection system includes a moving means that is movably formed, and an electric glove that is installed in any one of the regions of the moving means.

The electric glove of the present invention is provided with a wire explosion portion which causes an exlusion by the metal jet passing through the electrode portion, and is characterized in that, at the tip portion of the metal jet which is not disturbed sufficiently while passing through the electrode portion, It is possible to effectively reduce the penetration force of the metal jet tip by applying heat or the like.

In addition, the electric glove of the present invention includes a third electrode plate disposed to be spaced apart from the second electrode plate, so that a plurality of wire arrays can be variously implemented so that energy due to explosion is effectively applied to the metal jets.

In addition, the wire of the electric glove of the present invention is provided with a notch portion to induce a rapid explosion of the wire when a short circuit of the first and second electrode plates occurs, thereby advantageously disturbing the tip of the metal jet more effectively .

1 is a conceptual view showing an electric glove according to an embodiment of the present invention;
FIGS. 2A to 2C are conceptual views illustrating a process in which a metal jet is disturbed by the electric glove shown in FIG.
FIG. 3A is a conceptual view showing the principle of causing the wire shown in FIGS. 2A to 2C to explode; FIG.
FIG. 3B is a conceptual view illustrating a process in which a metal jet is disturbed at a portion A shown in FIG. 2C. FIG.
4 is a conceptual view showing examples of arrangement of the wires shown in FIG.
5 is a conceptual view showing an example of the wire shape shown in Fig.

Hereinafter, an electric glove of the present invention and an electric glove having the same will be described in detail with reference to the accompanying drawings. In the present specification, the same or similar reference numerals are given to different embodiments in the same or similar configurations. As used herein, the singular forms "a", "an" and "the" include plural referents unless the context clearly dictates otherwise.

FIG. 1 is a conceptual view showing an electric glove 100 according to an embodiment of the present invention, and FIGS. 2A to 2C show a process of disturbing the metal jet 10 by the electric glove 100 shown in FIG. 3A is a conceptual view showing the principle that the wire 122 shown in FIGS. 2A to 2C causes an explosion, and FIG. 3B is a view showing a process in which the metal jet 10 is disturbed at the portion A shown in FIG. 2C It is a conceptual diagram.

Referring to FIGS. 1 to 3B, the electric glove 100 includes an electrode unit 110 and a wire explosion unit 120.

The electrode unit 110 is configured to disturb the metal jet 10 by generating a pulse current when the metal jet 10 is deformed by the electromagnetic force, that is, when the metal jet 10 passes. For example, the electrode unit 110 may include a first electrode plate 112, a second electrode plate 114, and a capacitor 116, as shown.

The first and second electrode plates 112 and 114 are disposed on the movement path of the metal jet 10 so that the metal jets 10 of the shaping charcoal are successively passed through the metal jet 10, The insulated state is maintained.

The capacitor 116 is electrically connected to the first and second electrode plates 112 and 114, respectively. For example, as shown, the (-) output of the capacitor 116 may be coupled to the first electrode plate 112 and the (+) output may be coupled to the second electrode plate 114. Here, as shown in FIG. 2B, the capacitor 116 contacts the second electrode plate 114 after the metal jet 10 passes through the first electrode plate 112 to short circuit the circuit So that a pulse current to be applied to the metal jet 10 is generated. The pulsed current thus generated reduces the penetration capability of the metal jet 10 by applying a deformation to the metal jet 10 by an electromagnetic force. Also, the capacitor 116 may be connected to the charging unit 118 to maintain a charged state by receiving a current.

The wire detonator 120 has at least one wire 122 electrically connected to the electrode unit 120 and is disposed on the path of the metal jet 10 passing through the electrode unit 120. [ Herein, the wire 122 is a wire having a pulse current which is generated when the metal jet 10 passes through the electrode part 120 in order to attenuate the penetrating ability remaining in the metal jet 10 passing through the electrode part 120 And the energy generated by the explosion is applied to the metal jet 10 to further disturb the metal jet 10 that has passed through the electrode unit 110.

More specifically, the wire 122 may be made of a conductive material. For example, the wire 122 may be configured to include at least one of carbon nanotubes (carbone nanotube) and copper. As shown in FIG. 3A, when the pulse current flows, the wire 122 generates heat at a high temperature and causes a wire explosion. Here, the tip of the metal jet 10 is deformed or severed by the debris of the wire 122 generated by the explosion and the energy due to the explosion, and the penetration ability is largely lost. The energy due to the explosion may include pressure, shock waves, heat, light, sound, and the like. 3B, an additional disturbance is applied to the front end of the metal jet 10 passing through the second electrode plate 114 without being disturbed by the pulse current, so that the metal jet 10 penetrates You can greatly reduce your ability.

Meanwhile, the electric glove 100 of the present invention may further include a third electrode plate 130.

The third electrode plate 130 may be disposed at a distance from the second electrode plate 114 toward the moving direction of the metal jet 10. [ Here, the wire 122 is fixed to the second electrode plate 114 and the third electrode plate 130 at both ends, and may be configured to receive the pulse current by the short circuit by the metal jet 10 .

The plurality of wires 122 may be arranged to form an array between the second electrode plate 114 and the third electrode plate 130 as shown in FIG. According to the above structure, the plurality of wires 122 can be stably fixed between the second and third electrode plates 114 and 130, and when the first and second electrode plates 112 and 114 are short- The metal jet 10 may be disturbed by the current.

Examples of the arrangement of the wires 122 and examples of the shapes of the wires 122 provided in the present invention will be described with reference to Figs. 4 and 5. Fig.

FIG. 4 is a conceptual diagram showing examples of the arrangement of the wires 122 shown in FIG. 1, and FIG. 5 is a conceptual diagram showing an example of the shape of the wires 122 shown in FIG.

4 and 5, an electric glove 100 (see FIG. 2) according to the present invention is formed in such a manner that the energy due to the explosion of the wire 122 is effectively applied to the metal jet 10, A plurality of arrays of wires 10 can be arranged in various manners among the plurality of wires.

For example, the wire 122 may be arranged such that both ends of the wire 122 are perpendicular to the second and third electrode plates 114 and 130 as shown in Fig. 4 (a) may be disposed to extend from the second electrode plate 114 to the third electrode plate 130 in an inclined manner, as shown in FIGS. 6 (b) and 6 (c). Accordingly, the wire 122 can be appropriately disposed along the penetration direction of the anticipated metal jet 10, effectively disturbing the metal jet 10. [

In addition, the wire 122 may have an area 122a that intersects with each other between the second and third electrode plates 114 and 130, as shown in Fig. 4 (c). Accordingly, the plurality of wires 122 can be implemented in a net shape, and the penetrating ability of the metal jet 10 passing between the second and third electrode plates 114 and 130 can be significantly reduced.

In addition, the wire 122 may have an arrangement with a region 122b bent in one direction as shown in Figs. 4 (e) and 4 (f). As a result, the length of the wire 122 disposed between the second and third electrode plates 114 and 130 can be longer, so that the region of action of the energy due to the explosion is widened, .

On the other hand, the wire 122 may have at least one notched portion 122c formed such that the diameter of the cross-section of the wire 122 is reduced as shown in Fig. For example, the notches 122c may be provided in a plurality of, as shown, and may be arranged to face each other with respect to the longitudinal axis S of the wires 122. Here, the notch portion 122c is shown to have a triangular shape, but may be formed to have a polygonal or circular cross-section other than a triangular shape.

According to the structure of the notch portion 122c, the energy required for the explosion of the wire 122 is reduced, so that the explosion can be performed more quickly before the metal jet 10 passes through the third electrode plate 130 Therefore, the reliability of the disturbance at the tip of the metal jet 10 can be improved. Further, the scattering of the fragments due to the explosion of the wire 122 can be further chopped, so that the scattering range of the fragments can be increased.

According to the configuration of the present invention described above, since only electrical energy is required to cause wire explosion, it is not necessary to increase the capacitance of the capacitor 116, and the first and second electrode plates 112, And the third electrode plate 130 to which the wire 122 is connected. This is advantageous in that the penetrating ability of the tip of the metal jet 10 can be significantly reduced.

Meanwhile, the present invention proposes a protection system having an electric glove (100). The protection system includes a moving means (not shown) formed to be movable, and an electric glove (100) installed in any one region of the moving means to protect the moving means. Here, the moving means may be any one of a vehicle and a ship.

However, the scope of the present invention is not limited to the configuration and method of the embodiments described above, and all or some of the embodiments may be selectively combined so that various modifications may be made to the embodiments. In addition, the present invention can be applied to all equivalents of inventions, such as inventions that can be modified, added, deleted, or replaced at the level of those skilled in the art, It belongs to the scope is self-evident.

100: electric glove 110: electrode part
112: first electrode plate 114: second electrode plate
120: wire detonator 122: wire
130: Third electrode plate

Claims (9)

An electrode unit for generating a pulse current when passing through the metal jet so as to deform the metal jet of the carbonated amorphous carbon using an electromagnetic force; And
And a wire explosion part having at least one wire electrically connected to the electrode part and disposed on a path of the metal jet passing through the electrode part,
The wire is configured to apply explosion to the metal jet by applying the pulse current to attenuate the penetrating ability remaining in the metal jet passing through the electrode part, Characterized in that it comprises: The method according to claim 1,
The electrode unit includes:
A first electrode plate and a second electrode plate spaced apart from each other so that the metal jets are sequentially passed through; And
And a capacitor that is electrically connected to the first and second electrode plates and generates the pulse current to be applied to the metal jets when the first and second electrode plates are short-circuited by the metal jets Wherein the glove is made of a synthetic resin. 3. The method of claim 2,
And a third electrode plate spaced apart from the second electrode plate,
Wherein the wire is fixed at both ends to the second and third electrode plates, and receives the pulse current by the short-circuit. The method of claim 3,
Wherein the plurality of wires are arranged to form an array between the second and third electrode plates. 5. The method of claim 4,
Wherein the wire comprises an array of intersecting regions. 5. The method of claim 4,
Wherein the wire comprises an array having a region bent in one direction. The method according to claim 1,
Wherein the wire has at least one notch portion formed to have a reduced cross-sectional diameter. 8. The method of claim 7,
Wherein the notches are made of a plurality of notches and are arranged to face each other about a longitudinal axis of the wires. A moving means formed movably; And
Characterized in that it comprises the electric glove according to any one of the claims 1 to 8, provided in one region of the moving means.

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