KR101931516B1 - Multifunctional Complex Fraud unit Type to the Floating Sea for Deception of Guided projectile - Google Patents

Abstract

[0001] The present invention relates to a defense apparatus and an apparatus for effectively preventing an attack of various induction projectile bodies. More particularly, the present invention relates to a defense apparatus and a propulsion locking valve (12) A deodorizing device 20 having a plurality of spots 22 arranged on an outer circumferential surface of the mist blaster 21 and having a mist blaster 21 on an upper surface thereof, 10 and the propulsion lock valve 12 is connected to a propulsion supply bomb 101 provided on one side of the rear side of the launching platform 100 having the rope holder 110 on one side thereof. Type multifunctional compound deactivating device for deception of an inductive projectile is provided so that the above-described functions can be performed.
Therefore, it is effective to use the missile deception system in various ways, but it is easy to carry because the size of the apparatus is small and the success rate of floating of the deceased is increased.

Description

Technical Field [0001] The present invention relates to a multifunctional complex floating unit type for floating body,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0002] The present invention relates to a defensive apparatus and an apparatus thereof capable of effectively defending an attack of various induction projectile bodies, and more particularly, to a multi-function defacement apparatus capable of deceiving targets of various induction projectile bodies into a single body.

Guided missiles launched by voluntarily guided to the target point were developed in the latter half of the 20th century but are now one of the fastest military weapons that have been commercialized since they are used by various countries around the world.

The guided missile recognizes the infrared rays emitted from the enemy ship, the facility, and the engineer, and explodes along the perceived direction. Therefore, it is very accurate and highly destructive.

However, since it is very limited to prevent the explosive power from being exploited by ordinary armor or armament, it is necessary to use a method of deceiving the missile and flying to the point to prevent the guided missile from self-exploding.

Therefore, the term "expiration" has been developed and used in several armed forces. When a naval or air-to-ground missile is to be deceived by a trap, etc., defenses are carried out through a deception facility capable of obtaining a temporary effect such as a chef, There was a problem.

In the meantime, such a deceptive device should be floated on the sea through deceit projectiles, but it is necessary to fire in a trap such as a drop-type IR radiation source disclosed in Japanese Laid-Open Patent Publication No. 2011-220609 and to defend an infrared-based guided missile for a predetermined time .

The technical point of the above-mentioned technique is described as providing a release system that can prolong the operating time of an IR radiation source to defend a missile flying by itself, such as in a trap.

After reaching the target point by an emergency object in a trap or the like, the tip member and the rocket member are separated and the parachute is deployed. A frame connected to the parachute, and a frame having a plurality of IR radiation sources housed in the frame and having an ignition device for igniting the IR radiation source and a fixing device for connecting the frame sequentially.

The above-mentioned technology can effectively defend an infrared-based guided missile for a limited time, but recently there has been no deception facility capable of preparing and defending an infrared missile among the circumstances of the applicant's authority (Republic of Korea) And there is a possibility that the deaf body to float on the surface of the water does not normally float due to the parachute, or there is a possibility of departing to another place.

In addition to the infrared-based guided missiles such as the missile disturbance device disclosed in Japanese Patent Laid-Open Publication No. H05-18699, there is also a technology capable of defending various guided missiles.

The above-described technology provides a missile interrupter capable of countering both a two-dimensional infrared image sensor tracking type missile, a non-image type infrared ray sensor tracking type missile, a laser tracking type missile, and a laser induced type missile ≪ / RTI >

More specifically, it is described that it includes a missile position detecting means for detecting the position of an infrared ray tracking missile of a counterpart, a laser beam light source means for irradiating a laser beam, and a laser beam directing means for directing an electric laser beam to an electric infrared ray tracking missile have.

However, various types of guided missile defense apparatuses can not be launched because the size of the apparatus is large due to the amount of power consumed, and there is a problem that a large launching unit must be provided even if the missile is fired.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide a hybrid type deaf-mousing device capable of increasing the marine floating success rate of a portable device using various types of missile deception systems, It is for this purpose.

In order to solve the above-described problems, the present invention provides an air conditioner for an air conditioner, which receives less resistance of air through a projectile (201) exposed on an upper surface of the projectile (10) through a projectile (10) The launch vehicle 10 is fired from the launching platform 100 in the state of FIG.

At this time, a mist blaster 21 is provided on the upper surface of the deed device 20 to be launched, and a plurality of spots 22 are arranged on the outer circumferential surface of the mist blaster 21.

The warhead 201 is exposed when the warhead 201 is engaged with the projectile 10, and the defacement device 20 is disposed on the lower surface of the deionized device 20, So as to enter the upper inner surface of the dexter body.

The apparatus thus constructed can deceive various kinds of induction projectiles based on a medium infrared ray or an infrared ray. Based on the preferred embodiment of the present invention, the present invention will be described in more detail below. to be.

As described above, according to the present invention, the missile deception system of various types is used, but the size of the apparatus is small and it is easy to carry, and the marine floating success rate of the deceased is increased.

FIG. 1 is a perspective view showing a state in which the deodorizing device 20 according to the present invention is coupled with the projectile 10 in a preferred embodiment of the present invention. FIG.
FIG. 2 is an exploded perspective view showing a state in which the defacement apparatus 20 according to the present invention is separated from the projectile 10 in a preferred embodiment of the present invention. FIG.
FIG. 3 is an exemplary view showing a state in which the projectile 10 according to the present invention is mounted on the launch pad 100, in a preferred embodiment of the present invention. FIG.
Fig. 4 is a view showing a state immediately after the launch vehicle 10 according to the present invention is launched from the launching base 100, in a preferred embodiment of the present invention; Fig.
FIG. 5 is a simplified wiring diagram showing an internal view of the deodorizer 20 according to the preferred embodiment of the present invention. FIG.
Fig. 6 is an embodiment showing a deformation device 20 according to the present invention in a preferred embodiment of the present invention, floating in actual sea; Fig.

Hereinafter, the present invention will be described more specifically based on the drawings and embodiments.

The present invention is characterized in that, as shown in FIG. 4, in a state of receiving less resistance of air through a projectile (201) exposed on an upper surface of the projectile (10) through a projectile (10) So that the projectile 10 is fired from the launch pad 100.

6, a mist blaster 21 is provided on an upper surface of the deodorizer 20 to be launched, and a plurality of spots 22 are arranged on an outer circumferential surface of the mist blaster 21.

The warhead 201 is exposed on the lower surface of the deck device 20 when the deck device 20 is engaged with the projectile 10, The defacement apparatus 20 is to be inserted into the upper inner surface of the projectile 10.

The apparatus as described above can deceive various inductive projectiles based on a medium infrared ray, an infrared ray, etc., and can be described in more detail based on a preferred embodiment of the present circular apparatus.

The apparatus configured as described above may be implemented so that the pressure required for propelling is injected into the propelling storage chamber 11 provided on the inner bottom surface of the projectile 10 in order to successfully engage the enemy induction projectiles as shown in FIG. And the injection pressure is prevented from being injected through the propulsion lock valve 12 provided on the outer surface of the projectile 10.

As described above, the propulsion pressure that is locked through the throttle lock valve 12 is emitted through the launch pad 100, thereby releasing the locking state of the throttle lock valve 12 so that the projectile 10 is fired.

At this time, the camera 105 provided at one side of the front of the launching platform 100 and the communication unit 106 provided at one side of the upper side of the launching platform 100 may be used to check the launching point at the control room of the ship or airplane, The pressure required for propelling is injected into the propellant storage chamber 11 through a propellant supply cylinder 101 provided on one side of the rear surface of the propellant storage compartment 100.

It is preferable for the pressure to be used to be a commonly used air pressure such as CO2 or nitrogen for safe implementation of the apparatus.

When the projectile 10 shown in FIG. 1 is fired through the launch pad 100, the projectile 10 can be separated from the defacement apparatus 20 as shown in FIG. 2 while the projectile 10 is flying.

The vise 28 provided on the upper surface of the mist blaster 21 is held by the unevenness 18 provided in the upper portion of the propelling storage chamber 11 and is then discharged to the upper portion of the deionizer 20 When the pin 206 inserted into the upper portion of the lever pin holder 205 provided at one side is detached, it can be controlled through the control device 250 provided inside the lower portion of the deck device 20.

The control device 250 is activated through a power source 251 which is spaced apart from the side adjacent to the labyrinth pin holder 205 after the pin 206 is separated and is connected to the lower surface of the control device 250 And operates in a limited manner through the residual amount of the battery 290 provided.

Therefore, the control device 250 maintains the engaged state with the projectile 10 for 2 seconds to 5 seconds after the control device 250 is operated, and the vise 28 is released under the control of the control device 250, .

5, since the control device 250 and the battery 290 are arranged on the lower surface of the deodorizer 20 in which the warhead 201 is inserted, When the projectile 10 is separated from the projectile 10, the projectile 201 falls downward and helps to sit on the sea surface.

Such a configuration can cause the deodorizer 20 to operate more smoothly since the warhead 201 can be first dropped to the sea surface so that the deodorizer 20 is upward as shown in FIG.

A through hole 15 is provided at one side of the lower surface of the projectile 10 to release the engagement of the pin 206 with the release of the dexterous object from the launch pad 100. [ And a passage through which the rope 60 fixed to the rope holder 110 provided at one side of the launching platform 100 passes. At the same time as the rope is fired, the rope 60 is fixed by the rope holder 110 The pin 206 is detached from the lever pin holder 205 in the state of FIG.

The dehydrator 20 separated from the projectile 10 by the vise 28 is allowed to always float by the empty shell 201 having an inner surface on the water surface, The electromagnetic shielding film is irradiated by ignition.

Therefore, a torch 29 is provided on the upper adjacent inner surface of the mist blaster 21 so that the electromagnetic wave shielding smoke film can be generated by ignition of the torch 29.

In this case, the electromagnetic shielding film is a smoke cloud containing carbon fiber particles, so that a friendly trap can be shielded by absorbing or dispersing radar electromagnetic waves of a specific frequency generated in an approaching missile searcher.

This shielding system can produce pure visual shielding for 30 to 90 minutes and infrared and millimeter wave radar shielding for 30 minutes each.

At this time, since the mist reservoir 260 is provided on the inner surface of the mist blaster 21, mist can be continuously generated.

A plurality of spots 22 are arranged on a circumferential outer surface of the mist blaster 21. The mist is sprayed by the mist blaster 21 to shield the middle infrared ray and the infrared ray-based inductive projectile So that heat and light can flow at the same time.

The above-mentioned configuration can prevent the alien targets from being destroyed by the induction projectiles of various bases, and it is possible to carry several pieces because it can be miniaturized.

As described above, the content of the present invention is defined to limit the claims.

The scope of the invention, however, is to be accorded the widest scope possible for those skilled in the art to carry out the claims set forth in this invention, .

10: projectile 11: propulsion storage room
12: Propulsion lock valve 15: Through hole
18: unevenness 20: deceptive device
21: mist blaster 22: spot
28: Vice 29: Torch
60: Rope 100: Launcher
101: propulsion supply bomb 105: camera
106: communication unit 110: rope holder
201: warhead 206: pin
205: a lever pin holder 250: a control device
251: Power source 260: Mist reservoir
290: Battery

Claims (4)

In constructing a launch vehicle type multifunctional compound deactivator for deception of an inductive projectile,
A projectile 10 having a propulsion storage chamber 11 on an inner surface and a propulsion lock valve 12 on an outer surface of the propulsion storage chamber 11;
A dehydrator 20 provided with a mist blaster 21 on an upper surface and a plurality of spots 22 arranged on an outer circumferential surface of the mist blaster 21 is provided on the inner surface of the upper portion of the projectile 10 ;
The warhead 201 is provided on the lower surface of the deck apparatus 20 so that when the deck apparatus 20 is engaged with the projectile 10, An upper surface exposed;
Characterized in that the propulsion lock valve (12) is connected to a propelling power supply bomb (101) provided on one side of the rear side of a launching platform (100) having a rope holder (110) Multifunctional compound deck device.
delete The method according to claim 1,
A lever pin holder 205 provided on one side of the upper portion of the deck device 20 and having a pin 206 inserted thereon;
A power supply 251 spaced from one side adjacent to the lever pin holder 205;
A controller 250 provided inside the lower portion of the deed device 20;
A battery 290 is provided on the lower surface of the control device 250;
A through hole 15 provided at one side of the lower surface of the projectile 10;
Characterized in that a rope (60) is further provided on the fin (206) and the rope holder (110).
The method according to claim 1,
A vise 28 provided on the upper surface of the mist blaster 21;
An unevenness 18 provided at an upper portion of the propulsion storage chamber 11;
A torch (29) provided on the upper adjacent inner surface of the mist blaster (21);
Characterized in that a mist storage hole (260) is provided on a spaced inner surface of the mist blaster (21).

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