KR101371389B1 - Bright Flash Device driven by Explosives of Directional type - Google Patents

Abstract

The present invention relates to a directional explosion type high-flash generator that can explode a high-explosive powder without burning a fuel to obtain a high flash, as well as to emit a high flash toward a specific direction.
A cylindrical high flash tube 10 filled with an inert gas therein; A high explosive powder 11 installed inside one end of the high flash tube 10; A main housing (12) coupled to one end of the high flash tube (10) and provided with a detonation tube (13) and a connection tube (14) for detonating the high explosive powder (11); A transparent window 15 which seals the other end of the high flash tube 10 and is formed of a light transmitting material so that high flash generated by the explosion of the high explosive powder 11 can be emitted to the outside; A transparent window housing 16 coupled to the other end of the high glare tube 10 to support the transparent window 15; And a transparent window fixing bolt 17 for fixing the transparent window 15 to the transparent window housing 16.
When the inert gas is ionized by the shock wave energy due to the explosive explosive explosive, the plasma reaction occurs. Simultaneously releasing flashes can cause physical damage to enemy electronic devices such as night vision and sensors, giving them an edge in night combat.

Description

Bright Flash Device driven by Explosives of Directional type}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an explosive high-glare generator for exploding high explosives without burning fuel, and particularly to a directional explosive high-glare generator for emitting high glare in a specific direction. .

In general, flash coal refers to an ammunition that burns a fuel such as a flashing agent to generate heat and a light source to secure a vision or to paralyze an enemy's view. Examples of the flash coal include flares and stun grenades.

Flare is a device that emits light as it falls by firing at high altitude and slowly falling by using mortar to secure vision during night battle. Stun Grenade instantly paralyzes the enemy's view by emitting bright light at the same time as explosion. It is a device that can be used.

However, the conventional scintillation coals generate a heat and a light source by burning a fuel such as a scintillator, thereby limiting the intensity of the scintillation and being insufficient as a response system for various optical equipments used in modern warfare.

In particular, the conventional flash coal is merely a device for generating light, which may affect some soldiers to some extent, but has a disadvantage in that it does not exert great influence in modern warfare.

The present invention has been made in order to solve the above-mentioned conventional problems, by emitting ionized inert gas using the shock wave energy generated when the explosives explode, the strong flashes generated in the shock wave surface when a plasma reaction occurs in a specific direction The purpose is to provide a directional explosion type high flash generator that can increase the damage to the enemy.

In addition, the present invention provides a directional explosion-type high-flash generator that can cause damage to the night vision and electronic equipment as well as paralyzing the enemy's field of vision by emitting high glare from the visible region to the infrared region and the ultraviolet region. The purpose is to provide.

The present invention for achieving the above object is a cylindrical high-glare tube filled with an inert gas therein; A high explosive gun installed inside one end of the high flash tube; A main housing coupled to one end of the high flash tube and provided with a detonating tube and a connecting tube for detonating the high explosive; A transparent window that seals the other end of the high flash tube and is formed of a light transmissive material so that high flash generated by the explosion of the high explosive is emitted to the outside; A transparent window housing coupled to the other end of the high flash tube to support the transparent window; And a transparent window fixing bolt for fixing the transparent window to the transparent window housing.

In addition, according to the directional explosion type high flash generator of the present invention, the transparent window is characterized in that formed of a quartz material so that the glare of the ultraviolet region can be transmitted.

Further, according to the directional explosion type high flash generator of the present invention, the inert gas filled in the high scintillation tube is any one of argon, neon, helium, the high scintillation tube for the injection and discharge of inert gas Inlet port and outlet port is characterized in that each formed.

In addition, according to the directional explosion type high-flash generator of the present invention, the high explosive powder is characterized in that the portion in contact with the connecting tube is formed in a sealed cylindrical shape so that the shock wave proceeds in the form of a one-dimensional plane wave during the explosion.

In addition, according to the directional explosion type high-flash generator of the present invention, by controlling the diameter of the high-explosive powder to control the intensity of the high-glare, it is characterized in that by controlling the length of the high-explosive powder to control the flash duration.

In the directional explosion type high flash generator of the present invention, the inert gas is ionized by the shock wave energy generated by the explosion of the explosive powder to cause the plasma reaction to generate a strong flash on the shock wave surface, thereby generating a high directional flash. Has the effect of paralyzing the enemy's vision.

In addition, according to the directional explosion type high glare generating device of the present invention, by using a transparent window made of quartz material to emit a strong flash of visible light band, infrared band and ultraviolet band, night vision equipment with human damage It also has the effect of causing physical damage to enemy electronic equipment such as sensors. As a result, in the future battlefields characterized by intelligence and electronic warfare, it is possible to defeat the sight of various optical and visual equipment, night vision equipment, and soldiers, as well as to reduce the enemy's ability to acquire battlefield information, thereby gaining an edge in night combat. I can make it point.

In addition, according to the directional explosion type high-flash generator of the present invention, the diameter of the high scintillator tube can be properly adjusted to be used as a portable device, and it is easy to mount on the warhead due to the small volume.

Further, according to the directional explosion type high flash generator of the present invention, the inert gas of the gas tank carried separately is injected into the high flash tube through the inlet port of the high flash tube or the inert gas inside the high flash tube through the outlet port. Since it can be discharged, there is an effect that the high glare is not emitted even if the explosives are exploded due to carelessness in the state that the inert gas is not injected.

In addition, according to the directional explosion type high-flash generator of the present invention, since it can be easily launched or dropped simply by replacing the warhead of the bomb fired or dropped by various firing systems, there is an easy operation.

1 is a block diagram of a directional explosion type high flash generator according to the present invention.
2 is a reference diagram showing a state in which the directional explosion type high-flash generator of the present invention is accommodated in the warhead.

Hereinafter, the directional explosion type high flash generator according to the present invention with reference to the accompanying drawings.

The directional explosion type high flash generator according to the present invention, as shown in Figure 1, the cylindrical high flash tube 10 is filled with an inert gas therein; A high explosive powder 11 installed inside one end of the high flash tube 10; A main housing (12) coupled to one end of the high flash tube (10) and provided with a detonation tube (13) and a connection tube (14) for detonating the high explosive powder (11); A transparent window 15 which seals the other end of the high flash tube 10 and is formed of a light transmitting material so that high flash generated by the explosion of the high explosive powder 11 can be emitted to the outside; A transparent window housing 16 coupled to the other end of the high glare tube 10 to support the transparent window 15; And a transparent window fixing bolt 17 for fixing the transparent window 15 to the transparent window housing 16.

In addition, according to the directional explosion type high flash generator of the present invention, the transparent window 15 is characterized in that formed of a quartz material so that the glare of the ultraviolet region can be transmitted.

In addition, according to the directional explosion type high flash generating device of the present invention, the inert gas filled in the high flash tube 10 is any one of argon (Ar), neon (Ne), helium (He), The high flash tube 10 is characterized in that the inlet port (10a) and the outlet port (10b) for the injection and discharge of the inert gas is formed, respectively.

In addition, according to the directional explosion type high-flash generator of the present invention, the high explosive powder 11 has a cylindrical shape in which the contact portion 14 is in contact with the sealed tube 14 so that the shock wave proceeds in the form of a one-dimensional plane wave during explosion. Characterized in that formed.

In addition, according to the directional explosion type high-flash generator of the present invention, by controlling the diameter of the high-explosive powder 11 to control the intensity of the high-glare, by controlling the length of the high-explosive powder 11 to control the flash duration Characterized in that.

The directional explosion type high flash generator of the present invention configured as described above simultaneously emits glare in the infrared region and the ultraviolet region as well as the visible region to paralyze the enemy's eyesight, and also causes malfunction and malfunction of various electronic equipment.

When the detonation tube 13 is exploded in a state of being fired, fired or carried by various means, the explosive powder 11 connected to the detonation tube 13 through the connecting pipe 14 is detonated and exploded.

In this case, the explosion of the high explosive powder 11 proceeds gradually along the longitudinal direction, and the impact energy due to the explosion of the high explosive powder 11 proceeds in the form of a plane wave in the form of the high explosive powder 11. The plane wave type impact energy generated by the explosion of the high explosive powder 11 causes the plasma reaction to occur by ionizing an inert gas inside the high scintillator tube 10. In this process, high-glare light is generated in the shock wave from the infrared region to the ultraviolet region, and the high-glare is emitted in the form of direct sunlight through the transparent window 15 formed of a light transmissive material.

At this time, the high glare in the visible region makes it difficult to use the optical equipment and paralyze the enemy's field of view, the high glare in the infrared region causes damage to the enemy's night vision equipment, the high glare in the ultraviolet region is a variety of Causes physical damage to electronic equipment. In this way, the optical and visual equipment used in the battlefield, night vision equipment, and soldiers' sight can all be neutralized, thus reducing the enemy's ability to acquire battlefield information in future battlefields characterized by information and electronic warfare. It can be applied as a weapon system that can occupy.

In the directional explosion type high flash generator according to the present invention described above, since high flash is generated by a shock wave traveling in a plane wave shape along the longitudinal direction of the high explosive powder 11, the high flash has a constant directivity. Therefore, it is possible to intensively emit high glare with respect to the target point, thereby disabling the enemy's vision and equipment.

In addition, by adjusting the size (diameter) of the high explosive powder 11 can adjust the intensity (brightness) of the high flash according to the explosion of the high explosive powder 11, and by adjusting the length of the high explosive powder 11 You can adjust the duration.

The directional explosive high-flash generator of the present invention as described above can be inserted and used in the warhead 30 of the shell as shown in FIG. 3, and can be operated by various means, so that the application range is very wide. In particular, only the warheads of shells used in various weapon systems such as guided missiles, dropped bombs, direct fire and howitzers, and multiple rocket launchers can be replaced.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, Changes will be possible.

10.High glare
10a ... Inlet port
10b ... outlet port
11 ... explosive gunpowder
12 ... main housing
13 ... Detonator
14 ... connector
15 ... transparent window
16 ... transparent window housing
17.Transparent window fixing bolt
20 warhead

Claims (5)

An inert gas made of one of argon (Ar), neon (Ne), and helium (He) is filled therein, and a cylindrical shape in which an inlet port 10a and an outlet port 10b for injecting and ejecting the inert gas are formed, respectively. A high glare tube 10;
A high explosive powder 11 installed inside one end of the high flash tube 10;
A main housing (12) coupled to one end of the high flash tube (10) and provided with a detonation tube (13) and a connection tube (14) for detonating the high explosive powder (11);
A transparent window 15 which seals the other end of the high flash tube 10 and is formed of a light transmitting material so that high flash generated by the explosion of the high explosive powder 11 can be emitted to the outside;
A transparent window housing 16 coupled to the other end of the high glare tube 10 to support the transparent window 15;
And a transparent window fixing bolt (17) for fixing the transparent window (15) to the transparent window housing (16). The method of claim 1,
The transparent window 15 is a directional explosion type high flash generator, characterized in that formed of a quartz material so that the glare of the ultraviolet region can be transmitted. delete The method of claim 1,
The high explosive powder (11) is a directional explosion type high-flash generator, characterized in that formed in a cylindrical shape in which the contact portion 14 is in contact with the sealed tube so that the shock wave proceeds in the form of a one-dimensional plane wave during the explosion. The method according to any one of claims 1, 2 and 4,
Directional explosion type high-flash generator, characterized in that for controlling the intensity of the high glare by adjusting the diameter of the high explosive (11), and controlling the duration of the flash by adjusting the length of the high explosive (11).

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