KR20190142917A - Battle Engagement Simulation Equipment using Simulation Gun - Google Patents

Abstract

The present invention relates to a technique for simulating a battle using a simulated gun. In more detail, the present invention transmits whether the gun is fired and the firing direction by using an infrared ray transmitting device mounted on the simulated gun of one team and an infrared ray receiving device mounted on a human body of another team. In addition, according to the present invention a hit is determined from whether or not a target receives an infrared ray.

Description

Battle Engagement Simulation Equipment using Simulation Gun}

The present invention relates to a technique for simulating engagement using a simulated firearm, and more specifically, firearm firing using an infrared transmission equipment mounted on a mock firearm of one team and an infrared receiver mounted on the body of another team. The present invention relates to warfare simulation equipment using a simulated firearm, which transmits whether or not a firing direction and determines whether or not a target is hit by receiving an infrared ray of a target.

In general, mock engagement training is conducted using infrared rays in war games, survival games, military training, and the like. Such engagement training is conducted by simulating the same battlefield effects and weapon performance as actual combat.

In order to simulate the actual battle, a transmission module that transmits infrared light instead of a bullet is mounted on a firearm, and is detected using an infrared reception module that is worn on a target body. Representative firearms used in these simulation engagements include pistols and rifles that simulate actual firearms, such as rifles.

Since the conventional mock engagement equipment is manufactured by integrating an infrared transmission module with a mock firearm, it is not compatible with the majority of electric guns or gas guns used in survival games, and thus there is a problem in that the use range is limited in addition to the dedicated equipment for mock engagement. . Recently, an infrared transmission module has been disclosed for use in an electric gun or a gas gun. However, due to the lack of a technology for accurately detecting the trigger of an electric gun or a gas gun and transmitting an infrared ray, the infrared transmission cannot be performed even if the trigger is triggered. A falling problem was added.

In addition, the existing simulated combat equipment only detects whether the target is hit by infrared reception, but there is a lack of means to limit the hit of the target. Therefore, even if the target is considered injured or killed, other targets may be hit. This too has the problem of simulating the reality of engagement.

The present invention has been made to solve the above problems, an object of the present invention is to configure the infrared transmission module to be mounted or detached to the existing simulated firearms can be applied to various simulated firearms such as electric guns or gas guns It is to provide warfare simulation equipment using firearms.

In addition, the infrared transmission module provides an engagement simulation apparatus using a simulation gun and an engagement simulation method using the same that improve the accuracy of the infrared transmission when triggered by transmitting infrared rays through the trigger sound when the simulated firearm is triggered.

In addition, the present invention provides a warfare simulation equipment using a simulated firearm applied to the infrared receiving module to be worn on the vest or combat cap that can be worn on the battle suit.

In addition, if the target is considered to have been hit by infrared rays, even if the target detects the sound of the guns possessed by the target, the simulation of warfare using a simulated firearm, which limits the transmission of infrared rays to limit the user's blow that is considered injured or killed. In providing equipment.

Engagement simulation equipment using a simulated firearm of the present invention, the transmission module 100 is mounted to the firearms and transmits infrared rays by triggering the firearms; And a first receiving module 200 provided at a target to display as being hit when receiving the infrared rays, wherein the transmitting module 100 is configured to be attached to or detached from a rail R formed in the firearm. do.

In addition, the warfare simulation equipment 1000 may include a second receiving module 300 attached to a hat or a combat cap worn on the head of a target to display a hit when receiving the infrared rays.

At this time, the transmission module 100, an infrared ray transmitting unit 110 for transmitting infrared rays in a direction aimed at firearms; A transmission control unit 120 which receives the trigger signal of the firearm and transmits infrared rays by controlling the infrared transmission unit 110; And a trigger receiver 130 for detecting a firearm trigger and transmitting a trigger signal to the transmission controller 120, wherein the trigger receiver 130 is a microphone for detecting a trigger sound of the firearm.

In addition, the transmitting module 100 includes a first wireless communication unit 150, and the first receiving module 200 includes a second wireless communication unit 250, and through the first receiving module 200. If it is determined that the hit signal is transmitted to the transmission control unit 120 of the transmission module 100 through the first and second wireless communication unit 250, the transmission control unit 120 receives the hit signal In one case, even when the trigger signal is received from the trigger receiver 130 by switching to the trigger disable mode, the infrared transmitter 110 does not transmit the infrared transmission command.

In addition, the warfare simulation equipment 1000 further includes a responsive transmission module 400 in the form of a remote controller to release the wireless communication when the transmission module is in the incapable mode.

In addition, the first receiving module 200, the body 201 made of a garment that can be worn by the user; A first infrared receiver 210 for receiving infrared rays transmitted from the infrared transmitter 110; A first reception controller 220 for determining a hit and transmitting a hit signal when the first infrared receiver 210 detects infrared rays; And a first hit display unit 230 which receives the hit signal from the first reception controller 220 and displays the hit signal by light, sound, or vibration. It includes.

In addition, the second receiving module 300 includes a body 301 attached to a hat or a battle cap worn on a user's head; A second infrared receiver 310 which receives infrared rays transmitted from the infrared transmitter 110; A second reception controller 320 for determining a headshot and transmitting a headshot signal when the second infrared receiver 310 detects infrared light; And a second hit display 330 which receives the headshot signal from the second reception controller 320 and displays the headshot signal as light, sound or vibration. It includes.

In addition, the transmission module 100, the infrared ray transmitting unit 110 for transmitting infrared rays in the direction aimed at firearms; A transmission control unit 120 which receives the trigger signal of the firearm and transmits infrared rays by controlling the infrared transmission unit 110; It is installed on the trigger side of the firearm in the form of a trigger, and includes a triggering unit 191 for transmitting a trigger signal of the firearm to the transmission control unit 120 through a wired line 192, and the triggering unit 191 triggers a user. It is a switch which operates by pressure.

In addition, the body 201 of the first receiving module 200, characterized in that made of a vest form that can be additionally worn on the garment or combat clothing.

In addition, the first receiving module 200 includes a first infrared receiver 210 and a first hit display unit 230 distributed in a plurality on the body 201, and the first receiving controller 220. A second power supply unit 240 for supplying power is further included. The first reception control unit 230 and the second wireless communication unit 250 are integrally packaged, and the second power supply unit 240 is a separate package. The first reception control unit 230 and the second wireless communication unit 250 package are disposed on the body 201 symmetrically with the second power supply 240 package.

Engagement simulation equipment using the simulated firearm of the present invention according to the above configuration can be applied to a simulated firearm commonly used, so that the cost of purchasing a firearm including a separate dedicated infrared transmission module can be reduced. There is.

Since the infrared sound is transmitted by detecting the trigger sound of the simulated firearm, the infrared transmission accuracy according to the trigger is improved, thereby improving the reality of the warfare simulation.

Infrared receiver module is applied to not only the upper body of the target but also the battle cap to increase the accuracy of hitting the target, and aiming at the target's head has the effect of accurately detecting the headshot.

In addition, in the case of the hit target, by limiting the infrared transmission according to the trigger, it is possible to further improve the reality of the warfare simulation so that hitting the target, which is considered to be injured or killed.

1 is a block diagram of engagement equipment using a simulated firearm according to an embodiment of the present invention.
2 is a perspective view of a transmission module according to an embodiment of the present invention
3 is a perspective view showing an example of mounting a simulated rifle of a transmission module according to an embodiment of the present invention
4 is a perspective view of a transmission module according to another embodiment of the present invention
5 is a perspective view showing a model rifle mounting example of a transmission module according to another embodiment of the present invention
6 is a perspective view showing an example of mounting a simulated pistol of a transmission module according to an embodiment of the present invention
7 is a perspective view of a first receiving module according to an embodiment of the present invention;
8 is a rear perspective view showing an example of wearing the first receiving module according to an embodiment of the present invention;
9 is an enlarged view of a first receiving module according to an embodiment of the present invention;
10 is a perspective view illustrating an example of attaching a battle cap of a second receiving module according to an embodiment of the present invention;
11 is a perspective view of a responsive transmission module according to an embodiment of the present invention;

Hereinafter, an embodiment of the present invention as described above will be described in detail with reference to the accompanying drawings.

FIG. 1 is a block diagram of the engagement simulation equipment 1000 using the simulation gun SG according to an embodiment of the present invention.

As shown, the warfare simulation equipment 1000 is largely mounted on the simulated firearm SG to transmit the infrared rays by the trigger, and when the infrared rays are worn on the target to receive the transmitted infrared rays, indicating that they are hit. The first receiving module 200, the second receiving module 300 to be displayed as a headshot when the infrared ray is attached to the combat cap of the target and received, and if the target is hit and unable to trigger artificially to release it It comprises a responsive transmission module 400 for.

Hereinafter, the respective configurations will be described in more detail. The transmission module 100 includes an infrared transmitter 110, a transmission controller 120, a trigger receiver 130, a first power supply 140, and a first wireless communication unit 150. It is configured to include). First, the transmission module 100 may be mounted on the simulated firearm (SG). The infrared transmitting unit 110 is configured to transmit infrared rays to the target to which the simulated firearm SG targets when triggering the simulated firearm SG, that is, triggering the simulated firearm SG. The infrared ray transmitter 110 may be a conventional infrared ray transmitter module. The transmission control unit 120 is controlled by receiving power from the first power supply unit 140, and when receiving a trigger signal from the trigger reception unit 130, the transmission control unit 120 controls the infrared transmission unit 110 to transmit infrared rays. At this time, the transmission control unit 120 is configured as a default value to transmit infrared light from the infrared transmission unit 110 for about 0.5 seconds when a single trigger, which is configured to be added or subtracted according to the difficulty. In other words, if the difficulty is difficult, the infrared transmission time can be reduced to reduce the hit probability. If the difficulty is easy, the infrared transmission time can be increased to increase the hit probability. In addition, it is configured to continuously transmit the infrared ray during continuous firing, that is, during the continuous burst to reduce the fatigue caused by the repeated transmission of the infrared transmitter 110 to improve the durability. As an example. If the trigger signal is continuously received within about 0.2 seconds, the infrared ray can be continuously transmitted.If the trigger signal is continuously received for the compensation of delay time, the infrared transmission time is not accumulated and the continuous trigger signal ends. It is configured to block infrared transmission after transmitting infrared rays only for the transmission time set at the time. This is to prevent the infrared rays from being transmitted for an excessively long time since the trigger time is short when 10 shots are continuously fired, but the infrared transmission time is accumulated compared to the total number of triggers. As a specific example, if you set up to send 0.5 seconds of infrared rays in one shot, it takes 2 seconds of triggering time in 10 shots every 0.2 seconds.However, when calculating the infrared transmission time compared to the number of triggers, you should send infrared rays for 5 seconds in total. However, in the present invention, since only 0.5 seconds are transmitted after the last trigger, the infrared transmission time may be 2.5 seconds. This compensates for the delay time. Thus, more realistic engagement simulations can be made possible.

In addition, the transmission controller 120 may be connected to the first wireless communication unit 150 to operate in connection with the first and second reception modules 200 and 300. For example, when it is determined that the user is hit by another user by triggering from the first and second receiving modules 200 and 300 and receives a hit signal, the trigger signal is switched to the non-triggering mode and the trigger signal is received from the trigger receiving unit 130. Even when receiving, it may be configured not to give an infrared transmission command to the infrared transmitter 110. The trigger receiving unit 130 is configured to determine whether the simulated firearm SG is triggered and transmit a trigger signal to the transmission control unit 120. Specifically, it is configured to detect the trigger sound generated when the simulated firearm (SG) triggers and determine whether to trigger the simulated firearm (SG). Therefore, the trigger receiving unit 130 may be, for example, a microphone. The first power supply unit 140 is a means for supplying power to the transmission control unit 120 may be made of a small battery to increase the portability of the transmission module 100 and to be easily replaced. The first wireless communication unit 150 is configured to transmit a signal between the transmitting module 100 and the first receiving module 200 or to receive the responsive signal from the responsive transmitting module 400. For example, the blue wireless communication unit 150 may be applied to the first wireless communication unit 150.

The first receiving module 200 includes a first infrared receiver 210, a first reception controller 220, a first hit display unit 230, a second power supply unit 240, and a second wireless communication unit 250. It is composed. First, the first receiving module 200 may be worn by the user in the form of a vest so as to be additionally worn on the combat clothing worn by the user. The first infrared receiver 210 is configured to detect when the infrared rays transmitted by the trigger of another user reach the user wearing the first receiving module 200. The first infrared ray receiver 210 may be a conventional infrared ray sensor. The first reception controller 220 is controlled by receiving power from the second power supply 240, and when the infrared rays are detected by the first infrared receiver 210, the first reception controller 220 controls the hit display 230 to display light, sound, or vibration. It is configured to. In addition, the first reception controller 220 may be connected to the second wireless communication unit 250 to operate in connection with the transmission module and the second reception module 100 or 300. For example, the transmission module 100 may transmit a hit signal due to the infrared detection of the first infrared receiver 210, or may receive a hit signal from the second receiver module 300 and transmit the received signal to the transmission module 100. The first hit display unit 230 may be configured to receive a hit signal from the first reception control unit 220 and display the hit signal by light, sound or vibration to notify the target and the user who has triggered the target. Therefore, the first hit display 230 may be any one of LED, speaker or vibration means. The second power supply unit 240 is a means for supplying power to the first reception control unit 220 may be made of a small battery to increase the portability of the first receiving module 200 and to be easily replaced. The second wireless communication unit 150 is configured for signal transmission between the transmitting module 100 and the first receiving module 200 or the first receiving module 200 and the second receiving module 300. For example, the blue wireless communication unit may be applied to the second wireless communication unit 250.

The second receiving module 300 includes a second infrared receiver 310, a second reception controller 320, a second hit display 330, a third power supply 340, and a third wireless communication unit 350. It is composed. First, the second receiving module 300 may be attached to the battle cap in the form of a band so that the user can attach to the battle cap worn by the user. The second infrared receiver 310 is configured to detect when the infrared rays transmitted by the trigger of another user reach the head of the user to which the second receiving module 300 is attached. The second infrared ray receiver 310 may be a conventional infrared ray sensor. The second reception controller 320 is controlled by receiving power from the third power supply unit 340, and when the infrared rays are detected by the second infrared receiver 310, the second reception controller 320 controls the hit display unit 330 to display light, sound, or vibration. It is configured to. In addition, the second reception controller 320 may be connected to the third wireless communication unit 350 to operate in conjunction with the second reception module 200. For example, the headshot signal due to the infrared detection of the second infrared receiver 310 may be transmitted to the first receiving module 200. The second hit display unit 330 may be configured to receive a hit signal from the second reception controller 320 and display it as light, sound, or vibration to notify the target and the user who triggered the target, whether or not the headshot is taken. Therefore, the second hit display 230 may be any one of LED, speaker or vibration means. The third power supply unit 340 is a means for supplying power to the second reception control unit 320 may be made of a small battery to increase the portability of the second receiving module 300 and to be easily replaced. The third wireless communication unit 350 is configured for signal transmission between the second receiving module 300 and the first receiving module 200. For example, the blue wireless communication unit may be applied to the third wireless communication unit 350. Through the second receiving module 300 mounted on the user's combat cap as described above, it is possible to determine whether to hit the target when shooting a target, as well as the headshot of the target, and the first receiving module 200 and the second receiving module 300 are wireless. As it is separated and configured through communication, there is an advantage of minimizing the impact when the user moves or triggers due to wired connection.

The responsive transmission module 400 is configured to artificially release the user when he or she is hit by another user and is in a no trigger mode. The responsive transmission module 400 may be configured to release the non-triggering mode by transmitting a responsive signal to the transmission control unit 120 of the transmission module 100. Accordingly, the responsive transmission module 400 may be a remote controller for transmitting a specific signal to the first wireless communication unit 150.

Hereinafter, with reference to the drawings will be described a specific embodiment of the warfare simulation equipment 1000 of the present invention configured as described above.

2 is a perspective view of a transmission module 100 according to an embodiment of the present invention. As shown in the figure, the transmission module 100 is formed on a rectangular pillar-shaped enclosure, and a rail groove 101 is formed at a side thereof so that the transmission module 100 can be mounted on a rail R of the simulated firearm SG (see FIG. 3). Can be. An infrared transmitter 110 and a trigger receiver 130 may be formed on the front side of the transmission module 100, and the first power unit 140 may be formed to allow the battery to be inserted therein. In particular, the zero point adjusting unit 160 is provided on the transmission module 100 to enable zero point adjustment of infrared rays, and the zero point adjusting unit 160 includes a first dial 161 for vertical adjustment of infrared rays and a left and right adjustable agent. It may be composed of two dials 162.

3 is a perspective view showing an example of mounting a simulated firearm (SG) of the transmission module 100 according to an embodiment of the present invention. As shown, the transmission module 100 is configured to be mounted on a rail (R) formed at the front upper side or the lower side of the rifle as an example of a simulated firearm (SG). There is an advantage.

4 is a perspective view of a transmission module 100 according to another embodiment of the present invention. As shown in the drawing, the transmitting module 100 may include a trigger-type triggering unit 190 instead of the trigger-type receiving unit 130 of the microphone type described above. The transmission module 100 is configured to be applicable to the model firearms that can not implement the triggered sound. Accordingly, the trigger receiving unit 190 transmits the triggering unit 191, which is installed on the trigger side of the model firearm, the Velcro band 195 for fixing the triggering unit 191, and the triggering unit 191. It may be configured to include a wired line 192 and a jack 193 for transmitting to the transmission control unit 120 of the). Therefore, when the user presses the triggering switch 191a of the triggering unit 191, the triggering signal is directly transmitted to the transmission control unit 120 of the transmission module 100 through the wired line 192 and the jack 193. There is an advantage that can be applied to model firearms that do not occur.

5 is a perspective view of a model rifle (MG) mounting example of the transmission module 100 according to another embodiment of the present invention. As shown, the transmission module 100 may be mounted on the rail R formed in front of the model rifle as an example of the model firearm, and the trigger 190 may be mounted on the trigger side of the model firearm MG. As the trigger signal of the foot 190 is configured to transmit the trigger signal to the transmission module 100 through the wired line 192, a model in which the rail R is formed may be applied to any gun, and in particular, it may not generate a trigger sound. There is an advantage that can be applied to firearms.

FIG. 6 is a perspective view illustrating an example of mounting a simulated pistol SP of the transmission module 100 according to an exemplary embodiment. As shown, the transmission module 100 of the present invention has an advantage that can be applied to a pistol as it is configured to be mounted through a separate bracket (B) as well as a rifle and a simulated pistol (SP) formed with a rail.

7 is a perspective view of the first receiving module 200 according to an embodiment of the present invention. As shown in the figure, since the first receiving module 200 may be additionally worn in a combat suit including a body 201 having a vest shape, the first receiving module 200 may be easily worn while the user wears clothes.

8 is a rear perspective view illustrating a wearing example of the first receiving module 200 according to an embodiment of the present invention, and FIG. 9 is an enlarged view of the first receiving module 200 according to an embodiment of the present invention. The figure is shown. As shown, the first receiving module 200 includes a body 201 worn in a vest form on the upper body of the user B, a first infrared receiver 210 distributed in a plurality on the body 201, and a first The hit display unit 230 is included. The first infrared ray receiving unit 210 may be formed of an infrared ray receiving sensor, and the first hit display unit 230 may be formed of an LED lit in red. In addition, the first reception control unit 230 and the second wireless communication unit 250 may be integrally packaged, and the second power supply unit 240 may be configured as a separate package. In this case, in consideration of weight distribution, the first reception control unit 230 and the second wireless communication unit 250 package may be symmetrically disposed with the second power supply 240 package.

10 is a perspective view illustrating an example of attaching a battle cap H of the second receiving module 300 according to an embodiment of the present invention. As shown, the second receiving module 300 includes a body 301 attached to the battle cap H in the form of a band, a second infrared receiver 310 distributed on the body 301, and a second hit display unit. 330. The second infrared receiver 310 is formed of an infrared ray receiving sensor, and the second hit display 330 may be formed of an LED that is lit in red. In addition, as the second receiving module 300 is provided at the user's head, the second receiving control unit 330, the second wireless communication unit 350, and the third power supply unit 340 may be integrally packaged for miniaturization and light weight. have.

11 is a perspective view of a responsive transmission module 400 according to an embodiment of the present invention. As shown, the responsive transmission module 400 is configured in the form of a small remote control, and the responsive signal is transmitted to the transmission control unit 120 of the transmission module 100 through the responsive button 410 of the responsive transmission module 400 to trigger. It is configured to release the disabled mode.

The technical spirit should not be interpreted as being limited to the above embodiments of the present invention. Various modifications may be made at the level of those skilled in the art without departing from the spirit of the invention as claimed in the claims. Therefore, such improvements and modifications fall within the protection scope of the present invention as long as it will be apparent to those skilled in the art.

1000: Engagement Simulation System
100: transmission module
110: infrared transmitter 120: transmission control unit
130: trigger receiving unit 140: first power supply unit
150: first wireless communication unit
200: first receiving module
210: first infrared receiver 220: first receiver controller
230: first hit display unit 240: second power supply unit
250: second wireless communication unit
300: second receiving module
310: second infrared receiver 320: second receiver controller
330: second hit display 340: third power supply
350: third wireless communication unit
400: responsive transmission module
SG: Mock Gun R: Rail
MG: Model Firearms SP: Mock Pistols
B: bracket

Claims (10)

A transmission module (100) mounted to the firearm and transmitting infrared rays by triggering the firearm; And
A first receiving module 200 provided at a target to display as being hit when receiving the infrared rays,
The transmission module (100) is a warfare simulation equipment using a simulated firearm, which is configured to be attached to or detached from a rail (R) formed in the firearm.
The method of claim 1,
The engagement simulation equipment 1000,
Warfare simulation equipment using a simulated firearm comprising a second receiving module (300) attached to a hat or a combat cap worn on the head of a target to display the hit if received the infrared.
The method of claim 2,
The transmission module 100,
An infrared ray transmitter 110 for transmitting infrared rays in the direction in which the gun is aimed;
A transmission control unit 120 which receives the trigger signal of the firearm and transmits infrared rays by controlling the infrared transmission unit 110;
And a trigger receiver 130 for detecting a firearm trigger and transmitting a trigger signal to the transmission control unit 120.
The trigger receiving unit 130 is a microphone that detects the trigger sound of the firearms, engagement simulation equipment using a simulated firearm.
The method of claim 3, wherein
The transmitting module 100 includes a first wireless communication unit 150, the first receiving module 200 includes a second wireless communication unit 250,
When it is determined that the hit through the first receiving module 200, the hit signal is transmitted to the transmission control unit 120 of the transmitting module 100 through the first and second wireless communication unit 250,
The transmission control unit 120 does not transmit an infrared transmission command to the infrared transmitter 110 even when the trigger signal is received from the trigger receiver 130 by switching to the trigger disabled mode when the hit signal is received. Copying equipment.
The method of claim 4, wherein
The engagement simulation equipment 1000,
If the transmission module is in the triggered disabled mode further comprises a responsive transmission module 400 in the form of a remote control to release it by wireless communication, engagement simulation equipment using a simulated firearm.
The method of claim 3, wherein
The first receiving module 200,
Body 201 made of a garment that can be worn by the user;
A first infrared receiver 210 for receiving infrared rays transmitted from the infrared transmitter 110;
A first reception controller 220 for determining a hit and transmitting a hit signal when the first infrared receiver 210 detects infrared rays; And
A first hit display unit 230 receiving the hit signal from the first reception controller 220 and displaying the hit signal by light, sound or vibration;
Engaging simulation equipment using a simulated firearm, including.
The method of claim 6,
The second receiving module 300,
A body 301 attached to a hat or battle cap worn on a user's head;
A second infrared receiver 310 which receives infrared rays transmitted from the infrared transmitter 110;
A second reception controller 320 for determining a headshot and transmitting a headshot signal when the second infrared receiver 310 detects infrared light; And
A second hit display unit 330 which receives the headshot signal from the second reception controller 320 and displays the headshot signal as light, sound or vibration;
Engaging simulation equipment using a simulated firearm, including.
The method of claim 2,
The transmission module 100,
An infrared ray transmitter 110 for transmitting infrared rays in the direction in which the gun is aimed;
A transmission control unit 120 for receiving the trigger signal of the firearm and controlling the infrared transmission unit 110 to transmit infrared rays;
It is installed on the trigger side of the firearm in the form of a trigger and includes a triggering unit 191 for transmitting a trigger signal of the firearm to the transmission control unit 120 through a wired line 192,
The triggering unit 191 is characterized in that the switch operated by the user's triggering pressure, engagement simulation equipment using a simulated firearm.
The method of claim 6,
The body 201 of the first receiving module 200,
Engagement simulation equipment using a simulated firearm, characterized in that in the form of a vest that can be additionally worn on clothing or combat clothing.
The method of claim 6,
The first receiving module 200,
A first infrared receiver 210 and a first hit display unit 230 distributed in a plurality on the body 201,
Further comprising a second power supply 240 for supplying power to the first reception control unit 220,
The first reception control unit 230 and the second wireless communication unit 250 are integrally packaged, and the second power supply unit 240 is configured as a separate package,
The first reception control unit (230) and the second wireless communication unit (250) package is disposed on the body 201 symmetrically with the second power supply unit 240, engagement simulation equipment using a simulated firearm.

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