KR20090070757A - Air base air defence firing control system - Google Patents

Abstract

An antiaircraft fire control system of an air base is provided to identify an external flying object by receiving track information of the flying object from a radar in real time and inform the administrator of the information. An antiaircraft fire control system of an air base comprises a radar signal transmitter(111) which transforms track information of a flying object delivered from a radar into optical signal and outputs it when the flying object approaches the air base, a radar tracing processor(121) which receives the optical signal from the radar signal transmitter to read out the track information of the flying object and sets firing specification for shooting the flying object when the flying object is suspicious, and a firing information terminal(131) which informs the administrator of the firing specification of the radar tracing process to shoot the flying object.

Description

Air Base Air Defense Firing Control System

The present invention relates to an anti-aircraft anti-aircraft control device, and more particularly, to an anti-aircraft anti-aircraft control device for protecting the aircraft site in which the plane is stored.

Airplanes are stored at the flight base. Airplanes include passenger planes for transporting people and military planes operated for military purposes. Since these planes are very expensive to purchase, they must be operated for a long time with thorough maintenance and safe protection. In particular, it is absolutely necessary to protect the plane from external attack where there is a danger of war or coping with the enemy like Korea.

If there is a threat to the flying base, a large anti-aircraft bomber is installed around the plane, and whether the external flying object is to damage the plane when an external object, especially an external flying object, approaches the plane. If it is determined that the damage will be determined, by applying a large anti-aircraft strike to the flying object to prevent the flying object from invading the flying base, thereby protecting the airplane stored in the flying base from the external attack.

However, when a flying star approaches a flying base, if it identifies with the eyes of the human being and then determines whether the flying object is dangerous and attacks, the response speed is slowed and the flying base is damaged by the flying object. Very likely to wear. Therefore, when an external suspicious flying object approaches a flying base, it is immediately determined whether the flying object is in danger, and when it is determined that the flying object is suspicious, an operator uses the airplane anti-aircraft control device to fly the flight. If there is a device that can provide shooting specifications to inject an anti-aircraft gun, the operator will be able to safely protect the plane by defeating the gastronomic flying object without error.

It is an object of the present invention to provide a flying base anti-aircraft control device to secure the protection of all the facilities within the plane by blocking the access to the plane of the plane where the airplane is housed outside the farewell flying object.

The present invention to achieve the above object,

An apparatus for protecting an airplane with a radar, the apparatus comprising: a radar signal connected to the radar and receiving track information of the flying object from the radar when an external flying object approaches the airplane, converting it into an optical signal and outputting the radar signal telautograph; A radar tracking processor that receives the optical signal transmitted from the radar signal transmitter, reads the track information of the flying object, and sets and outputs a shooting target for applying a large-air strike to the flying object when the flying object is determined to be an enemy aircraft; And a shooting information terminal for informing the operator operating the base of the shooting specifications transmitted from the radar tracking processor and causing the operator to apply a large-air strike to the flying object. to provide.

Preferably, the radar tracking processor includes a light receiving unit for receiving an optical signal transmitted from the radar signal transmitter, converts it into an electrical signal and outputs it; And reading the track information tracked by the radar by receiving the output signal of the light receiving unit, and setting a shooting specification for applying a fire to the flying object when the flying object is determined to be an enemy aircraft, and transmitting the radar tracking to the shooting information terminal. A specification processing part is provided.

Preferably, the shooting information terminal is provided with a monitor to display the shooting specifications on the monitor for the operator to see, and communicates with the radar tracking specification processor wired and wireless.

The plane anti-aircraft attack control device of the present invention receives the track information of the flying object from a radar in real time when an external flying object approaches the flying base to grasp the identity of the outer flying object, and the flying object reaches the flying base. Determine whether or not to cause damage to the operator and at the same time extract the shooting specifications for the anti-aircraft fire apparatus that fires the suspicious flying object to inform the operator. Accordingly, the operator can adjust the shooting device according to the shooting specification to apply an accurate anti-aircraft gun to the suspicious flying object, thereby preventing the flying object from approaching the plane.

Thus, all facilities within the flight base are securely protected from external suspicious flying objects.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Like reference numerals in the drawings denote like elements.

Figure 1 shows a plane and a related configuration is installed plane large construction control device according to the invention. Referring to FIG. 1, the aircraft large-scale aircraft control device of the present invention includes a radar signal transmitter 111, a radar tracking processor 121, and a shooting information terminal 131. The radar tracking processor 121 is installed at a specific place in the flight base 103, for example, the situation room 105, and the radar signal transmitter 111 and the shooting information terminal 131 are installed inside the flight base.

The radar signal transmitter 111 is connected to a radar (RADAR) 107 installed inside the plane 103, for example, an airport surveillance radar. The radar signal transmitter 111 may track information of the external flying object 141 from the radar 107, that is, route information of the external flying object 141 when the external flying object 141 approaches the plane 103. Receives the signal in real time and amplifies it and transmits it to the radar tracking processor 121. Since the radar signal transmitter 111 is electrically connected to the radar 107 through a wire, it is preferable that the radar signal transmitter 111 is installed adjacent to the radar 107 or installed close to the radar 107.

The radar tracking processor 121 receives a signal transmitted from the radar signal transmitter 111 and reads the track information included in the signal to identify whether the external flying object 141 is a suspicious flying object or a safe flying object, and the external If it is determined that the flying object 141 is suspicious, the operator who operates the airplane 103 is notified to take measures to block the flying object 141 from accessing the airplane 103. That is, when the radar tracking processor 121 determines that the flying object 141 is suspicious, it transmits a warning signal to the flying object 141 to allow the flying object 141 to approach the flying base 103. The operator who operates the plane 103 by extracting the shooting material necessary for shooting the external flying object 141 with the shooting information terminal 131 and using the anti-aircraft gun 151 to fly the object 141. ) To attack or to shoot away from the plane (103). The shooting specification includes all information related to the external flying object 141, for example, the flying speed of the external flying object 141, the flying height of the external flying object 141, the position of the external flying object 141, and the like.

The radar tracking processor 121 is electrically connected to the radar signal transmitter 111 through a wire L1, and at this time, the wire L1 is preferably formed of a fiber optic cable. That is, the radar tracking processor 121 and the radar signal transmitter 111 perform optical communication. As such, since the radar tracking processor 121 and the radar signal transmitter 111 perform optical communication, an electrical loss does not occur in the signal transmitted from the radar signal transmitter 111 to the radar tracking processor 121 and the transmission is performed. It is also very fast. Therefore, the radar signal transmitter 111 transmits the accurate information to the radar tracking processor 121 without any error of the track information.

The shooting information terminal 131 receives a shooting specification capable of shooting the external flying object 141 from the radar tracking processor 121 and displays it on a monitor provided in the shooting information terminal 131 to display the operator. Inform The shooting information terminal 131 may be connected to the radar tracking processor 121 by wire or wirelessly. In consideration of the operator's mobility, the shooting information terminal 131 is preferably configured to communicate wirelessly with the radar tracking processor 121.

The operator waits around the anti-aircraft gun 151 capable of firing the flying object 141 with the shooting information terminal 131. Therefore, when the shooting information terminal 131 receives the notification that the suspicious flying object 141 is approaching the flight base 103 and the shooting specifications are displayed on the monitor of the shooting information terminal 131, the shooting specifications are displayed. By adjusting the shooting device 151 to fit into the flying object 141, it prevents the suspicious flying object 141 from entering the flight base 103 or to run away from the flight base 103. . The shooting device 151 includes all weapons capable of shooting down the flying object 141 such as anti-aircraft guns and air defense guns.

As described above, the airplane land Greatsight Attack Control Device according to the present invention receives the track information of the external flying object 141 from the radar 107 when the external flying object 141 approaches the flying base 103, the external flying object. Determine the identity of 141, and determines whether the external flying object 141 will damage the flight base 103 to inform the operator. When the operator receives a notification that the flying object 141 is awarded from the plane anti-aircraft attack control device and a shooting specification, the operator applies the target by using the anti-aircraft gun 151 to the flying object 141 to cause the external flying object 141 to fly to the flying base ( Block access to 103).

Thus, all facilities within flight base 103 are securely protected from external suspicious flying objects 141.

FIG. 2 is a block diagram of the flight base protection device 201 shown in FIG. 1.

Referring to FIG. 2, the radar signal transmitter 111 includes a signal distribution amplifier 113 and an optical transmitter 115.

The signal distribution amplifier 113 amplifies the signal transmitted from the radar 107 by a predetermined level and transmits the signal to the optical transmitter 115. The signal distribution amplifier 113 has an input channel necessary for inputting a signal transmitted from the radar (107 of FIG. 1), and preferably has an output channel necessary for outputting an amplified signal therein. The signal distribution amplifier 113 matches the input / output signals, and the input / output connection form of the signal distribution amplifier 113 is composed of an unbalanced BNC, and the input / output signal includes video and trigger, azimuth signal, and SSR data. It is preferable that it consists of.

The optical transmitter 115 receives an output signal from the signal distribution amplifier 113, converts the output signal into an optical signal, and transmits the converted signal to the radar tracking processor 121. The fiber optic cable connected to the output terminal of the optical transmitter 115 operates in a single mode, and the input signal of the optical transmitter 115 is configured as an unbalanced BNC.

Referring to FIG. 2, the radar tracking processor 121 includes a light receiving unit 123 and a radar tracking specification processor 125.

The optical receiver 123 receives an optical signal transmitted from the radar signal transmitter 111, converts the optical signal into an electrical signal, and transmits the converted optical signal to the radar tracking specification processor 125. The optical fiber connected to the input terminal of the optical receiver 123 operates in the same operation mode as that of the optical fiber connected to the output terminal of the optical transmitter 116 (FIG. 1), for example, in a single mode, and of the optical receiver 123. The input signal is preferably composed of an unbalanced BNC.

The radar tracking specification processor 125 reads the track information tracked by the radar (107 in FIG. 1) by receiving the output signal from the light receiver 123, and approaches the flight base (103 in FIG. 1) as a result of the track information reading. When it is determined that the external flying object (141 of FIG. 1) is suspicious, the shooting information terminal 131 is extracted by extracting a shooting specification capable of shooting the external flying object (141 of FIG. 1) to the flying base (103 of FIG. 1). To send).

Although not shown in FIG. 2, the radar tracking processor 121 may further include a monitor, a keyboard, and a mouse. The monitor displays data related to signal processing of the radar tracking processor 121 on the screen at the request of an operator. The keyboard and mouse are devices used by an operator to input and output and process data necessary for data processing of the radar tracking processor 121.

The shooting information terminal 131 receives a shooting specification for shooting an external flying object (141 of FIG. 1) from the radar tracking processor 121 and displays it on a monitor provided in the shooting information terminal 131. To inform the operator.

Although the present invention has been described with reference to the embodiments illustrated in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

Figure 1 shows a flight base and associated configuration is installed a large airfield attack control device according to the present invention.

FIG. 2 is a block diagram of the plane landing control device shown in FIG. 1.

<Description of the symbols for the main parts of the drawings>

103; Flight base, 105; Situation room

107; Radar 111; Radar signal transmitter

121; Radar tracking processor, 131; Shooting information terminal

141; Flying object, 151; Shooting device

L1; Optical cable, 201; Flight base protection

113; A signal distribution amplifier 115; Optical transmitter

123; Light receiving section 125; Radar Tracking Specification Processing Unit

Claims (3)

In the anti-aircraft control device provided with a radar to protect the flight base, A radar signal transmitter connected to the radar and receiving track information of the flying object from the radar when an external flying object approaches the flying base and converting the converted track into an optical signal; A radar tracking processor that receives the optical signal transmitted from the radar signal transmitter, reads the track information of the flying object, and sets and outputs a shooting specification for shooting the flying object when it is determined that the flying object is suspicious; And And a shooting information terminal for informing the operator who operates the base of the shooting specifications transmitted from the radar tracking processor to cause the operator to shoot the flying object. The method of claim 1, wherein the radar tracking processor An optical receiver which receives an optical signal transmitted from the radar signal transmitter, converts the optical signal into an electrical signal, and outputs the electrical signal; And Read the track information tracked by the radar by receiving the output signal of the optical receiver, and if it is determined that the flying object is suspicious, sets a shooting specification for shooting the flying object and transmits it to the shooting information terminal. An anti-aircraft site large-scale control device comprising a processing unit. According to claim 1, The shooting information terminal is equipped with a monitor to display the shooting specifications on the monitor for the operator to see, and the plane air-air, characterized in that for communicating with the radar tracking specification processor wired and wireless Fire control.

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