KR101702188B1 - A Combat Vehicle for panel module having a laser signal interference function - Google Patents

Abstract

The present invention relates to a panel module for a combat vehicle, and more particularly, to a panel module for a combat vehicle, which includes a total reflection member for changing the direction of a laser beam incident inside a panel, And more particularly, to a panel module for a combat vehicle having a laser signal interfering function for preventing or minimizing damage from bombardment or bombardment by obstructing reception of position and distance information. The configuration includes a panel in which a plurality of projected light incidence planes are formed for entering a laser beam emitted from a laser range finder (laser range finder) or a laser target indicator (target designator or laser designator) of an enemy group at various angles, And a total reflection member formed of an optical fiber which is installed on the incident surface and which totally deflects the laser beam of the enemy laser light meter or the laser target indicator and reduces the amount of the reflected laser beam reflected in the incident direction, Wherein a total reflection member formed of the optical fiber is formed such that both end faces of the core face the incident face when installed inside the panel, do.

Description

[0001] The present invention relates to a panel module for a combat vehicle having a laser signal interfering function,

[0001] The present invention relates to a panel module for a combat vehicle, and more particularly, to a panel module for a combat vehicle having a total reflection member for changing the direction of a laser beam inside a panel to allow a laser beam to enter and output (emit) And more particularly, to a panel module for a combat vehicle having a laser signal interfering function for preventing or minimizing damage from bombardment or bombardment by obstructing reception of distance information.

In general, combat vehicles such as K1A1, K2 tanks and armored vehicles are fitted with armor plates made of special steel to defend the important parts.

However, the conventional panel for a fighting vehicle is a laser range finder (laser range finder) which measures a distance using a laser located at a remote location, and detects a laser beam reflected and reflected back toward a target The target designator is a device that uses a laser to aim a target and a guided weapon fired from air or ground to direct the laser to strike the target precisely) Since it easily reflects the launched laser beam, there is a problem that it is difficult to easily escape from the bombardment or bombardment by allowing accurate distance measurement and position measurement from the enemy forces.

In addition, the conventional panel has a flat shape, and the incident laser beam can not be repetitively regressed, and the laser beam can be struck by the enemy weapon system.

Registration number 10-1378516

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a laser range finder of an enemy group or a laser range finder that changes the direction of a laser beam emitted from a target designator, The present invention provides a panel module for a combat vehicle that has a laser signal interfering function to disturb a reflected signal of a laser beam to lower a batting probability from enemy weapons to prevent or minimize damage to friendly combat vehicles and human life.

According to an aspect of the present invention, there is provided an optical pickup device including a laser range finder (laser range finder), a target designator (laser designator), and a laser designator And the laser beam of the enemy laser distance measuring unit or the laser target indicator installed in the inside of the panel and incident on the incident surface is totally reflected to reduce the amount of reflected laser beam reflected in the incident direction, The total reflection member formed of the optical fiber is installed on the inner side of the panel so that both end faces of the core are located on the incident side of the panel, As shown in FIG.

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The total reflection member formed of the optical fiber is disposed so as to symmetrically or asymmetrically symmetrically with respect to the opposite end faces thereof.

As described above, the present invention can be applied to a laser range finder (laser range finder) of an enemy group or a laser range finder of an enemy group or a laser range finder Thereby to improve the combat power of the combat vehicle by moving away from the danger of bombardment or bombardment.

In addition, since the present invention can be mounted on an armor plate of an existing combat vehicle such as a K1A1, K2 tram, or an armored vehicle without changing its shape, it is easy to operate, and costs and maintenance costs are reduced.

 In particular, the present invention can be applied not only to combat vehicles constituting ground weapons systems but also to traps, airplanes, and bases, and is used for distance measurement based on a laser beam, target shooting, bombardment of targeted weapons (bomb, laser guided bomb, Or the risk of bombardment can be achieved.

FIG. 1 is a schematic view illustrating a state in which a non-reflective layer and a panel in which a total reflection member for a combat vehicle is installed according to a preferred embodiment of the present invention.
Fig. 2 is a view showing the coupling state of Fig. 1. Fig.
FIG. 3 is a view showing a panel module in which several panels according to the present invention are combined.
4 is a sectional view of a main portion of a panel according to the present invention.
FIG. 5 is a schematic view illustrating a use state in which a combat vehicle equipped with the panel module according to the present invention enters a laser beam emitted from an enemy laser range finder or a target designator.
FIG. 6 is a diagram showing in more detail the state in which the laser beam is incident and output (emitted) to the panel of FIG.
7 is an enlarged view of a state in which a laser beam is incident and output (emitted) when the height of a panel according to the present invention is different.

Hereinafter, preferred embodiments of a panel module for a combat vehicle having a laser signal interfering function according to the present invention will be described in more detail with reference to the accompanying drawings.

Hereinafter, the same reference numerals will be used to denote the same or similar elements in all of the following drawings, and repetitive descriptions will be omitted. The following terms are defined in consideration of the functions of the present invention. It should be interpreted as meaning.

1 to 7, the present invention is roughly divided into a panel 110, a total reflection member 120, and an anti-reflection layer 130.

The panel 110 is an apparatus for measuring an accurate distance by detecting a laser beam that is reflected and reflected after emitting a laser beam toward a target. The laser range finder is a device for generating a laser beam ), A photodetector for detecting the returned laser beam reflected from the target, and a counter for counting time), a laser target indicator (laser designator) A plurality of projecting light incidence planes 111 are formed to allow a laser beam emitted from an aircraft or an induction weapon launched from the ground to strike a target accurately using a laser) at various angles.

The panel 110 may have a triangular pyramidal shape with three protruding incident surfaces 111 or a quadrangular pyramidal shape with four protruding incident surfaces 111 or a polygonal pyramidal shape such as a pentangular pyramidal shape with five protruding incident faces 111 ≪ / RTI >

A plurality of the panels 110 are connected to form a module. The height of the projecting incident surface 111 of each panel 110 may be the same, but the laser beam may be incident It is preferable that they are formed at mutually different heights.

For example, the height of one of the panels 110 is set to be high, so that the inclination of the projecting incident surface 111 is high and the height of the other panel 110 is low, It is preferable to induce the incidence angles of the laser beams at different angles to disturb the measurement of the distance of the enemy group.

The total reflection member 120 reflects a laser beam of an enemy laser distance meter or laser target indicator which is installed inside the panel 110 and is incident on the incident surface 111, (100% reflection) at the interface when the angle of incidence is greater than the critical angle when traveling to a medium having a low refractive index. In general, when a medium having a high refractive index moves to a medium having a low refractive index, However, if the incident angle is gradually increased, it is reflected in the direction in which the laser beam is incident, guiding the laser beam to be output in the other direction. It reduces the amount of returning laser beam and interferes with accurate measurement of slope distance.

The total reflection member 120 is formed of an optical fiber having a high index of refraction at the center and a low index of refraction at the outer portion so that the laser beam incident on the incident surface 111 of the panel 110 can be totally reflected in other directions. It is preferable to use an optical fiber in which light passing through the center glass is caused to be totally reflected by using glass).

However, the present invention is not limited to this. If necessary, a total reflection prism (a prism having a total reflection prism, which is made of a right prism, a penta prism, a dope prism or the like) The light incident on the perpendicular surface or the oblique surface is incident on the other surface at an angle of 45 ° and is totally reflected at a critical angle (about 42 °) of the glass to change the traveling direction by 90 ° or 180 °, ) Consists of five planes consisting of two reflecting surfaces at 45 ° and two refracting surfaces at 90 °. The direction of light is changed by 90 ° and the deflection angle of incident light and reflected light is 90 ° .) Can be used.

When installed in the panel 110, the total reflection member 120 formed of the optical fiber receives the infrared laser beam or the visible laser beam incident thereon and totally reflects the incident infrared laser beam to output (emit) it is preferable that both end faces of the core are formed to face the incident surface 111.

At this time, one end face of the total reflection member 120 formed of the optical fiber is positioned at any one of a plurality of incident faces 111 of the panel 110, and the other end face faces a plurality of incident faces 111, So that the direction in which the laser beam is incident and the direction in which the laser beam is output are changed.

That is, both end faces of the total reflection member 120 formed of the optical fiber may be arranged symmetrically or asymmetrically with respect to each other, up, down, left, and right.

Accordingly, since the amount of light reflected and returned is reduced while changing the direction of the laser beam and the direction of the output of the enemy laser beam incident on the incidence plane 111 of the panel 110 and the total reflection member 120, accurate distances measurement is disturbed, (Target) position may be mis-selected to improve the survival of friendly combat vehicles.

The intermediate portion of the total reflection member 120 except for both ends is preferably formed in a curved shape so as to output (emit) at an angle completely different from the angle of the incident laser beam.

It is preferable that the total reflection member 120 formed of the optical fiber is installed in the entirety of the incident surface 111 of the panel 110 in the form of a bundle in which the respective optical fiber strands are in contact with each other.

Accordingly, the quantity of light reflected or returned by the laser range finder of the enemy group or the laser target spot incident on the incident surface 111 can be more effectively reduced.

The non-reflective layer 130 is provided on the entire incident surface 111 and is output (emitted) from a laser distance measuring device or a laser target indicator of an enemy group and reflected by the incident surface 111 of the panel 110 Or the amount of reflection is reduced so that an insufficient laser beam is returned to disturb precise slip distance measurement and at the same time more securely obstructing the target position.

The non-reflective layer 130 may be coated with a non-reflective ink, or may be coated with a non-reflective ink or a synthetic resin material such as a metal such as aluminum or PE (polyethyleneterephthalate), a modified acrylic resin, , A masking synthetic inorganic material, and an anti-reflection film coated with an anti-reflective ink containing carbon black.

In addition, the non-reflective layer 130 prevents foreign matter such as dust from flowing into the end face of the total reflection member 120 formed of an optical fiber bundle, thereby preventing the laser beam from being incident on the total reflection member 120.

Accordingly, the laser beam incident on the panel 110 is incident through one end of the total reflection member 120 formed of an optical fiber without being reflected or minimized in reflection, and then reflected (emitted) to another end while being totally reflected inside Therefore, the reflection amount of the returned laser beam is reduced or eliminated so as to prevent the enemy laser distance measuring device or the laser target indicator from measuring the light receiving sensor, thereby preventing the damage caused by the bombardment or bombardment of the friendly combat vehicle 200 Can be minimized.

The panel module 100 for a combat vehicle according to the present invention can be mounted on an armor plate of an existing combat vehicle 200 such as a K1A1, K2 tram, and an armored vehicle without any change in shape. Therefore, the panel module 100 is easy to operate, Cost is also reduced.

In addition, the panel module 100 according to the present invention can be installed not only in the combat vehicle 200 constituting the ground weapon system but also in a ship, an airplane, a base, and the like.

Thus, it can be much easier to escape from the risk of bombardment or bombardment with weapons, such as guns, laser guided bombs, and anti-tank missiles, which are targeted by distance measurement and target based on laser beams.

The operation state of the present invention having the above-described structure will now be described.

First, during operation of a combat vehicle 200 such as a K1A1, K2 tram, or armored vehicle equipped with the panel module 100 according to the present invention, a target of the enemy laser range finder or laser target, The laser beam is absorbed by the anti-reflection layer 130 and is not reflected or minimized in reflection.

The incidence angles of the laser beams are also scattered and guided by the projecting incident surface 111 of each panel 110 having different heights, thereby disturbing the measurement of the distance of the enemy group.

The laser beam incident on the incident surface 111 of each panel 110 is incident on one end of the total reflection member 120 formed of an optical fiber and is output (emitted) to the other end while being totally reflected by the inside at least once.

At this time, the enemy laser beam incident on the incidence plane 111 of the panel 110 and the total reflection member 120 is changed in the incident direction and the output direction, disturbing the accurate slope measurement, .

Therefore, the laser beam incident on the incident surface 111 of the panel 110 and the total reflection member 120 is changed in the incident direction and the output direction, so that accurate measurement of the distance is disturbed, And the reflection amount of the returning laser beam is reduced or prevented by obstructing the measurement of the light receiving sensor so as to prevent or minimize the damage caused by the bombardment or bombardment of the friendly combat vehicle.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. And will be apparent to those skilled in the art to which the invention pertains.

100: Combat vehicle panel module 110: Panel
111: incident surface 120: total reflection member
130: Non-reflective layer 200: Combat vehicle

Claims (7)

delete delete delete delete delete A panel in which a plurality of projected light incidence planes are formed for entering a laser beam emitted from a laser range finder (laser range finder) or a laser target indicator (target designator or laser designator) of an enemy group at various angles; And a total reflection member formed of an optical fiber that totally deflects the laser beam of the enemy laser beam detector or the laser target indicator incident on the incident surface and reduces the amount of the reflected laser beam reflected in the incident direction to obstruct accurate measurement of the distance And a laser signal interfering function,
Wherein the total reflection member formed of the optical fiber is formed such that both end faces of the core are directed to the incident face when installed inside the panel. The method according to claim 6,
Wherein the total reflection member formed of the optical fiber is disposed so as to be symmetrical or asymmetric with respect to the opposite end faces of the panel.

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