CN213090589U

CN213090589U - Individual laser simulation antagonistic system

Info

Publication number: CN213090589U
Application number: CN202021988273.9U
Authority: CN
Inventors: 李斌阳; 黄彩云; 黄小龙; 郑情元; 郭新吾
Original assignee: Fujian Quancheng Special Equipment Technology Co ltd
Current assignee: Fujian Quancheng Special Equipment Technology Co ltd
Priority date: 2020-09-12
Filing date: 2020-09-12
Publication date: 2021-04-30
Anticipated expiration: 2030-09-12

Abstract

The utility model provides an individual soldier laser simulation antagonistic system, which comprises a combat uniform, a laser emission gun, a helmet and a control terminal, wherein the front side and the rear side of the combat uniform are provided with a plurality of laser receivers, each laser receiver is provided with an indicator light, and the waist part of the combat uniform is provided with a first wireless communication module and a microprocessor; the laser receiver and the indicator light are respectively electrically connected and in signal connection with the microprocessor, and the microprocessor is connected with the control terminal through the first wireless communication module; and after receiving the indication signal, the microprocessor controls an indication lamp of a certain laser receiver to be on so that the laser receiver is used as a target. The utility model discloses a by a certain laser receiver on the control terminal control combat uniform as the hit target, have the randomness in the training, can realize the training of individual soldier's reaction rate and the accuracy of shooting.

Description

Individual laser simulation antagonistic system

Technical Field

The utility model relates to a laser simulation confrontation technical field, specifically speaking relates to an individual soldier's laser simulation is to system of confronting.

Background

Laser simulation confrontation training is gradually popularized in conventional confrontation training at present, casualties caused by accidents in live ammunition confronting can be effectively reduced by using simulation confrontation, data acquisition is simple and easy by adopting simulation confrontation, manual checking is not needed, and accuracy is good. In a general laser simulated countermeasure system, only the laser emitted by the laser emitting device hits the laser receiving device to be connected, so that the hit probability of each training becomes higher, and the accuracy of further training shooting is limited.

SUMMERY OF THE UTILITY MODEL

In order to solve the defects of the prior art, the utility model aims to provide an individual soldier laser simulation is to resisting system to overcome the defect among the prior art.

In order to achieve the purpose, the utility model provides an individual soldier laser simulation antithetical system, which comprises a combat uniform, a laser emission gun, a helmet and a control terminal, wherein the front side and the rear side of the combat uniform are provided with a plurality of laser receivers, each laser receiver is provided with an indicator light, and the waist part of the combat uniform is provided with a first wireless communication module and a microprocessor; the laser receiver and the indicator light are respectively electrically connected and in signal connection with the microprocessor, and the microprocessor is connected with the control terminal through the first wireless communication module; the control terminal sends an indication signal to the first wireless communication module, and the microprocessor controls an indication lamp of a certain laser receiver to be on after receiving the indication signal so that the laser receiver is used as a target; the laser emitting gun is provided with a laser emitter and a second wireless communication module, and the laser emitter is connected with the control terminal through the second wireless communication module; the control terminal sends a setting signal to the second wireless communication module, and the laser transmitter receives the setting signal to obtain the laser transmitting times; the helmet is provided with a smoke device and a third wireless communication module, and the smoke device is connected with the first wireless communication module through the third wireless communication module; the first wireless communication module sends a hit signal to the third wireless communication module, and the smoke device receives the hit signal to release smoke.

By the technical scheme, the control terminal is used for controlling a certain laser receiver on the combat uniform to serve as a target, randomness is achieved in training, training of response speed and shooting accuracy of an individual soldier can be achieved, the indication lamp corresponding to the laser receiver serving as the target is arranged to be turned on and serves as a target point for prompting the individual soldier, training of speed of target searching of the individual soldier and defense of self combat in the target searching process can be achieved, and a smoke device releases smoke to directly give signals after the target is hit.

As a further explanation of the individual laser simulation countermeasure system of the present invention, preferably, a positioning module is further disposed at the waist position of the combat uniform, and the positioning module is electrically connected and signal-connected with the microprocessor; the positioning module collects individual soldier position information and transmits the individual soldier position information to the control terminal through the first wireless communication module.

Through the technical scheme, the positioning module is adopted to track the position information of the individual soldier, so that the control terminal can know the condition of the individual soldier conveniently.

As a further explanation of the individual laser simulation countermeasure system of the present invention, preferably, a vibration device is further disposed at the waist position of the combat uniform, and the vibration device is electrically connected and signal-connected with the microprocessor; the control terminal calculates the distance between any two individual soldiers according to the position information of each individual soldier, and when the distance between the two individual soldiers is smaller than or equal to a set value, the control terminal sends a prompt signal to the first wireless communication module, and the microprocessor controls the vibration device to vibrate after receiving the prompt signal.

Through the technical scheme, the vibrating device is adopted to prompt the individual soldiers, the distance between the two individual soldiers is controlled by the control terminal during prompting, randomness is provided for the trained individual soldiers, and training of the response speed and the on-site processing capacity of the individual soldiers can be achieved.

As right the further explanation of individual soldier's laser simulation countermeasure system, preferably, the laser signal of laser emitter transmission has the code, and each laser receiver decodes and transmits to microprocessor receiving laser signal.

Through above-mentioned technical scheme, laser emitter launches the laser signal who has the code, conveniently discerns the individual soldier who uses this laser emitter.

As right the further explanation of individual soldier's laser simulation is to resisting the system, preferably, each laser receiver has an identification code, and microprocessor judges whether hit and produce the hit signal according to laser receiver's identification code.

Through the technical scheme, each laser receiver is provided with the identification code, so that the microprocessor can conveniently identify whether the hit laser receiver is a hit target set by the control terminal.

As right the further explanation of individual soldier's laser simulation countermeasure system, preferably, the pilot lamp is controlled by microprocessor, and microprocessor produces and controls the pilot lamp and extinguish after the signal of hitting.

As right the further explanation of individual soldier's laser simulation countermeasure system, preferably, orientation module is controlled by microprocessor, and microprocessor produces and controls orientation module and closes after the hit signal.

The utility model has the advantages as follows: the utility model discloses a be regarded as the target of hitting by a certain laser receiver on the control terminal control combat uniform, randomness has in the training, can realize the training of individual soldier's reaction rate and the accuracy of shooting, the pilot lamp that corresponds as the laser receiver who hits the target through the setting is bright, as the target point of suggestion individual soldier, can realize the speed of individual soldier search target and the training of the defense of self operation at the search target in-process, and give the signal that can be direct by smog device release smog after hitting the target.

Drawings

Fig. 1 is the structure schematic diagram of the individual laser simulation countermeasure system of the utility model.

Fig. 2 is a schematic diagram of the distribution of the laser receivers of the combat uniform of the present invention.

Fig. 3 is a schematic view of the position of the smoke device of the helmet of the present invention.

Detailed Description

In order to further understand the structure, characteristics and other objects of the present invention, the following detailed description is given with reference to the accompanying preferred embodiments, which are only used to illustrate the technical solution of the present invention and are not intended to limit the present invention.

An individual laser simulation antagonistic system comprises a combat uniform 1, a laser emission gun 2, a helmet 3 and a control terminal 4.

As shown in fig. 1 and 2, a plurality of laser receivers 11 are disposed on the front side and the rear side of the combat uniform 1, fig. 2 shows only one distribution of the plurality of laser receivers 11 on the combat uniform 1, not as the whole structure of the combat uniform 1, each laser receiver 11 is provided with an indicator light 16, and the waist portion of the combat uniform 1 is provided with a first wireless communication module 14 and a microprocessor 15; the laser receiver 11 and the indicator light 16 are respectively electrically connected and in signal connection with the microprocessor 15, and the microprocessor 15 is connected with the control terminal 4 through the first wireless communication module 14; the control terminal 4 sends an indication signal to the first wireless communication module 14, and the microprocessor 15 controls an indicator light 16 of a certain laser receiver 11 to be on after receiving the indication signal, so that the laser receiver 11 is used as a target; the control terminal is adopted to control a certain laser receiver on the combat uniform to serve as a target, randomness is achieved in training, training of response speed and shooting accuracy of an individual soldier can be achieved, training of speed of target searching of the individual soldier and defense of self combat in the target searching process can be achieved by setting an indicator lamp corresponding to the laser receiver serving as the target to be on and serving as a target point for prompting the individual soldier, and signals can be directly given by smoke released by a smoke device after the target is hit.

As shown in fig. 1, a laser emitter 21 and a second wireless communication module 22 are arranged on the laser emission gun 2, and the laser emitter 21 is connected with the control terminal 4 through the second wireless communication module 22; the control terminal 4 sends a setting signal to the second wireless communication module 22, and the laser transmitter 21 receives the setting signal to obtain the number of times of transmitting laser; the control terminal is adopted to control the laser emitting times of the laser emitter, so that the training process is more flexible.

As shown in fig. 1 and 3, the helmet 3 is provided with the smoke device 31 and the third wireless communication module 32, fig. 3 only shows one installation position of the smoke device 31 and the third wireless communication module 32 on the helmet 3, and the smoke device 31 and the third wireless communication module 32 are connected with the first wireless communication module 14 through the third wireless communication module 32; the first wireless communication module 14 sends a hit signal to the third wireless communication module 32, the smoke device 31 receives the hit signal to release smoke, and the smoke released by the smoke device can directly give a signal after hitting a target, so that a trainer can know whether the trainer is hit or not.

As shown in fig. 1 and fig. 2, the waist position of the combat uniform 1 is further provided with a positioning module 13, and the positioning module 13 is electrically and signal-connected with a microprocessor 15; the positioning module 13 collects the individual position information and transmits the individual position information to the control terminal 4 through the first wireless communication module 14, and the positioning module is adopted to track the individual position information, so that the control terminal can know the individual condition conveniently.

As shown in fig. 1 and 2, the waist position of the combat uniform 1 is also provided with a vibration device 12, and the vibration device 12 is electrically and signally connected with a microprocessor 15; control terminal 4 calculates the distance between two arbitrary individual soldiers according to each individual soldier positional information, and when distance between two individual soldiers is less than or equal to the setting value, control terminal 4 sends the cue signal to first wireless communication module 14, microprocessor 15 receives control vibrating device 12 after the cue signal and produces vibrations, adopt vibrating device to indicate to the individual soldier, distance between two individual soldiers when being indicateed by control terminal control, individual soldier to the training has the randomness, can realize the training of individual soldier's reaction rate and processing capacity on the spot.

In addition, the laser signal that laser emitter 21 sent has the code, and every laser receiver 11 is received laser signal and is decoded and transmitted to microprocessor 15, and laser emitter sends the laser signal that has the code, conveniently to the individual soldier who uses this laser emitter discernment. Each laser receiver 11 has an identification code, the microprocessor 15 determines whether the laser receiver is hit according to the identification code of the laser receiver 11 and generates a hit signal, and each laser receiver has an identification code which facilitates the microprocessor to identify whether the hit laser receiver is a hit target set by the control terminal. The indicator lamp 16 is controlled by the microprocessor 15, and the microprocessor 15 generates a hit signal and then controls the indicator lamp 16 to be turned off. The positioning module 13 is controlled by the microprocessor 15, and the microprocessor 15 generates a hit signal and then controls the positioning module 13 to be closed, so that the position information of the hit training individual soldier cannot be acquired by the control terminal.

It should be noted that the above mentioned embodiments and embodiments are intended to demonstrate the practical application of the technical solution provided by the present invention, and should not be interpreted as limiting the scope of the present invention. Various modifications, equivalent substitutions and improvements will occur to those skilled in the art and are intended to be within the spirit and scope of the present invention. The protection scope of the present invention is subject to the appended claims.

Claims

1. An individual laser simulation antagonistic system is characterized by comprising a combat uniform (1), a laser emission gun (2), a helmet (3) and a control terminal (4), wherein,

the front side and the rear side of the combat uniform (1) are provided with a plurality of laser receivers (11), each laser receiver (11) is provided with an indicator light (16), and the waist part of the combat uniform (1) is provided with a first wireless communication module (14) and a microprocessor (15); the laser receiver (11) and the indicator light (16) are respectively electrically connected and in signal connection with the microprocessor (15), and the microprocessor (15) is connected with the control terminal (4) through the first wireless communication module (14); the control terminal (4) sends an indication signal to the first wireless communication module (14), and the microprocessor (15) controls an indicator lamp (16) of a certain laser receiver (11) to be on after receiving the indication signal, so that the laser receiver (11) serves as a target;

the laser emitting gun (2) is provided with a laser emitter (21) and a second wireless communication module (22), and the laser emitter (21) is connected with the control terminal (4) through the second wireless communication module (22); the control terminal (4) sends a setting signal to the second wireless communication module (22), and the laser transmitter (21) receives the setting signal to obtain the laser transmitting times;

the helmet (3) is provided with a smoke device (31) and a third wireless communication module (32), and the smoke device (31) is connected with the first wireless communication module (14) through the third wireless communication module (32); the first wireless communication module (14) sends a hit signal to the third wireless communication module (32), and the smoke device (31) receives the hit signal to release smoke.

2. The individual laser simulated confrontation system as claimed in claim 1, characterized in that the waist position of the combat uniform (1) is further provided with a positioning module (13), and the positioning module (13) is electrically and signal-connected with the microprocessor (15); the positioning module (13) collects individual soldier position information and transmits the individual soldier position information to the control terminal (4) through the first wireless communication module (14).

3. The individual laser simulation antagonistic system according to the claim 2, characterized in that the waist position of the combat uniform (1) is further provided with a vibration device (12), the vibration device (12) is electrically and signal connected with the microprocessor (15); the control terminal (4) calculates the distance between any two individual soldiers according to the position information of each individual soldier, when the distance between the two individual soldiers is smaller than or equal to a set value, the control terminal (4) sends a prompt signal to the first wireless communication module (14), and the microprocessor (15) controls the vibration device (12) to vibrate after receiving the prompt signal.

4. Individual soldier laser simulation antagonistic system according to claim 3, characterized in that the laser transmitter (21) transmits a laser signal with a code, and each laser receiver (11) decodes the received laser signal and transmits it to the microprocessor (15).

5. Individual laser simulation countermeasure system according to claim 4, characterized in that each laser receiver (11) has an identification code, and the microprocessor (15) determines whether a hit is made on the basis of the identification code of the laser receiver (11) and generates a hit signal.

6. Individual laser simulation antagonistic system according to claim 5, characterized in that the indicator light (16) is controlled by a microprocessor (15), the microprocessor (15) generating a hit signal controlling the indicator light (16) to go off.

7. The individual laser simulation antagonistic system according to claim 5, characterized in that the positioning module (13) is controlled by a microprocessor (15), the microprocessor (15) controlling the positioning module (13) to switch off after the generation of the hit signal.