KR20100087444A - Field training system based on electric land mine - Google Patents

Abstract

PURPOSE: A combat training system based on an electric landmine, for managing and collecting electric landmines is provided to detect a damaged site and situation of troops at a training control center of remote site. CONSTITUTION: A combat training system based on an electric landmine comprises an electronic landmine, a trainer unit, and a training control center server. The electronic landmine comprises a radio transmitter for short distance and a pressure sensor. The pressure sensor produces electronic landmine blast information. The radio transmitter for short distance sets up transmission distance of a bombed area for each capacity of the landmine based on the electronic landmine blast information. The trainer unit comprises a wireless radio unit(21) and a remote radio transceiver(22). The remote radio transceiver transmits bombing information per each trainer unit to a training control center server of the remote site.

Description

Field training system based on electric land mine

The present invention relates to a military scientific combat training system based on various personalized electronic equipment, and in particular, embeds an electronic mine in the combat training ground and wirelessly transmits the damage situation information of allies or opposing forces according to the operation of the electronic mine to the training control center. The present invention relates to an electronic mine-based scientific combat training system that enables the control center to accurately grasp the combat loss loss situation information of allies or opposing forces while improving the realism of military training.

Recently, the military established KCTC (Korea Combat Training Center) in a specific area to improve the efficiency of combat training and improve combat power, and here, the Military Combat Training Program using MILES (Multiple Integrated Laser Training System) The training is similar to actual practice.

Miles, which is applied to the scientific battle training program, allows trainers of allies and opposing forces to wear trainer units that respond to laser beams individually, and laser beam firing equipment is installed on the rifles, which are personalized weapons. In this situation, the training unit is equipped with advanced information and communication functions so that situational information including individual soldiers' combat power is transmitted in real time to the remote control center server in the situation room. Management supervision and evaluation can be made.

By the way, there is an engagement process in the minefield during combat training according to the above-mentioned scientific battle training program, but until now, there is no actual mine equipment linked to the scientific battle training program, so it is replaced by virtual training using mock mines separately.

However, in the actual battle, it is essential to engage in the minefield or to pass through the minefield, so preparation for the actual training is urgently needed at this point.

The purpose of the present invention is to embed the electronic mines in the combat training field and to damage the friendly situation or the opposing forces caused by the operation of the electronic mines transmitted to the training control center wirelessly by improving the realism of military training while losing the combat power of the friendly or opposing forces It is to provide an electronic mine-based scientific combat training system that can accurately grasp the situation information from the control center.

Electronic mine-based scientific combat training system of the present invention for achieving the above object is generated in the trainer unit and the trainer unit to generate exposure situation information when the electronic mines and the explosion signal according to the fuse operation of the electronic mines are received. It is composed of training control center server that collects situational information of training ground mines and disables the training unit by receiving the exposure situation information wirelessly. The electronic mines are set to operating conditions of personal or anti-tank, and the pressure is constant. It includes a pressure sensor for generating electronic mine blasting information when applied through the horn and a short range wireless transmitting device designed to transmit a range of the exposure range range for each mine performance based on the electronic mine blasting information generated by the pressure sensor. , The trainer unit is a short-range wireless transmission device of the electronic mines And that is configured to be trained by the free cut exposure information received by the radio receiver apparatus and a radio receiving apparatus for receiving an exposure signal to the remote radio transceiver for transmitting to the remote location of the train control center server characterized.

The electronic mine-based scientific combat training system of the present invention can determine in real time the damage and situation of allies or opposing forces in the training control situation room, as well as the mine exposure training parties in engagement training or minefield passage training in the minefield. At the training ground, you can get the same effect as the actual battle and the unique effect of accurately understanding the change in combat power.

In addition, the present invention brings a convenient effect of the collection and management of electronic mines when the GPS module is installed for each electronic mine.

Hereinafter, the present invention will be described with reference to the accompanying drawings.

1 is an overall block diagram of the electronic mine-based scientific combat training system of the present invention, the system of the present invention largely generates the exposure situation information when the explosion signal according to the fuse operation of the electronic mine 10 and the electronic mines It is shown that the training control unit server 20 and the training control center server 30 to collect the training situation information by the wireless reception of the exposure situation information generated by the training unit to disable the training unit.

2 is an internal configuration diagram of an electronic land mine device applied to the system of the present invention.

As referred to herein, the electronic mines 10 applied to the system of the present invention are set to the operating conditions of the interpersonal pressure sensor 12 to generate the electronic mine blasting information when a constant pressure is applied through the pressure cone 11 and the Based on the electronic mine blasting information generated by the pressure sensor, it is composed of a short-range wireless transmission device 13 designed for the transmission distance of the range of the exposure area range for each mine performance.

In particular, the electronic mine 10 may be further equipped with a GPS module 14 for generating the location information for retrieval and positioning.

3 is a cross-sectional view of an exemplary personal electronic mine 10 applied to the system of the present invention.

As shown here, the personal electronic mine 10 is a mandatory component, and a pressure horn 11 provided at the upper portion of the electronic mine so that a person can step on it and the pressure applied to the pressure horn generate a mechanical signal into an electrical signal. The pressure sensor 12 to convert the electrical signal generated by the pressure sensor 12 and has a wireless transmission device 13 for radiating radio waves to the periphery at a predetermined exposure range level, additionally the mantissa ring 14 And first and second safety pins 15 and 16 may be provided.

4 is a perspective view of a general disc-shaped anti-tank mine 40, in which the handle 44 is provided from the lower side of the main body to the side, and the loading dial 41 and the loading plug 42 are provided on the upper part of the main body. In particular, the side of the anti-tank mine 43 is provided with a separate bubuchurep connection hole.

Figure 5 is a side cross-sectional structural view of the anti-tank electronic mine 10-1 applied to the system of the present invention.

This anti-tank electronic mine 10-1 has the pressure sensor 12-1 and the wireless transmission device 13-1 as an essential component similarly to the above-mentioned personal electronic mine 10.

Particularly, in this case, when the pressure applied to the electronic mines exceeds the threshold pressure supported by the fuse spring 17, the electric mine blasting signal is generated through the fuse 18 to the pressure sensor 12-1. In addition, the electrical mine explosion signal from the pressure sensor 12-1 is configured to be transmitted to the training tank or the trainer unit 20 within the exposure area via the wireless transmission device 13-1.

6 is an internal configuration diagram of a trainer unit applied to the system of the present invention.

This trainer unit is mounted inside a wearable jacket or vest that can be worn by the trainer. The laser generator 24 is mounted on a gun that is a personal weapon and the laser sensitive device 25 is mounted on the surface of the jacket or vest so that it can be exposed to the outside. Install and configure.

When the trainer senses (exposures) the laser beam of the opponent, the laser sensitive device generates a shot signal and inputs it to the unit controller 23, and the opponent generates the opponent by the radar generating device 24. When hitting, the hitting signal is configured to be input again as the hitting information of the other party to the unit controller 23.

In addition, the unit controller 23, when the near-field mine explosion signal propagation generated when the electronic mine exposure is received by the wireless receiving device 21, and transmits it to the remote training control center server 30 through the remote wireless transmission and reception device 22 To configure.

In addition, when the mine explosion signal propagation signal received by the radio receiver 21 includes the location information generated by the GPS module of the electronic mine, the unique information of the trainee unit together with the location information of the exposed electronic mine is exposed. It is configured to be sent to the control center server (30).

Referring to the operation of the system of the present invention configured as described above are as follows.

If a trainee or a train tank operates an electronic mine during Miles-based scientific warfare training at KCTC, the exposure propagation information generated from the electronic mine (10 or 10-1) is displayed in the trainer unit 20 or the training tank unit (not shown). Is received by the wireless reception device 21 of

At this time, if the GPS module is installed in the electronic mine, the location information of the electronic mine is received in the trainer unit together with the explosion signal information.If another trainer unit or a train tank unit is located within the exposure area, the exposure signal information is simultaneously displayed. Will be accepted.

When the exposure signal information is input to the radio receiver 21 of the trainee unit 20 due to the explosion of the electronic mine, the unit controller 23 of the trainee unit is trained remotely through the remote radio transmitter / receiver 22. Real-time transmission to the control center server 30.

If necessary, the training control center sends a remote radio control signal for disabling the exposed trainee unit 20 to the corresponding trainee unit 20 to disable the trainee unit from exercising any combat ability. have.

The electronic mine-based scientific combat training system sends out real-time damage situation information of allies or opposing forces to the training control center in real time, so that it is possible to immediately identify the change in combat power of allies or opposing forces during training, enabling efficient strategy establishment and training. Participants can also increase combat power by improving the presence of combat training.

1 is an overall block diagram of a system of the present invention.

2 is an internal configuration diagram of an electronic land mine device applied to the system of the present invention.

Figure 3 is a side cross-sectional view of a personal electronic mines applied to the system of the present invention.

4 is an external perspective view of a general anti-tank mine.

5 is a side cross-sectional structural view of an anti-tank electronic mine mine applied to the system of the present invention.

6 is an internal configuration diagram of a trainer unit applied to the system of the present invention.

* Description of the symbols for the main parts of the drawings *

10: electronic mines 11: exposure area

12: pressure sensor 13: wireless transmission device

14: GPS module 20: training unit

21: wireless receiving device 22: remote wireless transmitting and receiving device

23: unit controller 24: laser generator

25: laser sensitive device

Claims (2)

Trainee unit 20 to generate the exposure situation information when the electronic mine 10 and the explosion signal according to the fuse operation of the electronic mine and the exposure situation information generated in the training unit by wireless reception site It consists of a training control center server 30 to collect the situation information and neutralize the training unit, the electronic mines 10 is set to the maneuver or anti-tank operating conditions when a certain pressure is applied through the pressure horn (11) A pressure sensor 12 for generating electronic mine blasting information and a short range wireless transmitting device 13 designed to transmit a range of the exposure area range level for each mine performance based on the electronic mine blasting information generated by the pressure sensor. In addition, the training unit 20 is a wireless receiving device 21 for receiving the exposure signal generated in the short-range wireless transmission device of the electronic mine 10 and the wireless receiving device E mine combat training system based on scientific comprising a remote radio transceiver unit 22 for transmitting the received training free cut by exposure information to the training control center server 30 at the remote site. The electronic mines-based scientific training system of claim 1, wherein the electronic mines (10) include a GPS module for generating the location information for retrieval and location.

Images