CN217818353U - Shooting simulation training system - Google Patents

Abstract

The utility model discloses a shooting simulation training system, which comprises a laser simulation gun, a laser induction target and a display control terminal; the input end of the laser induction target corresponds to the laser simulation gun, the laser simulation gun is controlled by a shooter, the output end of the laser induction target is electrically connected with the display control terminal, and the display control terminal is provided with shooting analysis software; the simulation gun single chip microcomputer is electrically connected with the lithium battery through the power management circuit and is electrically connected with the trigger switch; the simulation gun single chip microcomputer is provided with a voice module, an infrared receiving assembly and a wireless communication module, the simulation gun single chip microcomputer is electrically connected with the laser transmitter through a switch circuit, and the simulation gun single chip microcomputer is electrically connected with the rotor magnetic rod and the sensor through the isolation circuit, the driving circuit, the solenoid combination, the rotor magnetic rod and the sensor in sequence to form a loop; the utility model has the advantages that: the laser simulation gun replaces a real rifle and a real pistol, the aiming track and the impact point are displayed on the screen, the training cost is reduced, and the safety and the intuition of the training are improved.

Description

Shooting simulation training system

Technical Field

The utility model relates to a shooting simulated training system, specifically speaking are shooting simulated training system belongs to the military equipment field.

Background

In local war and anti-terrorism operation under new situation, the individual combat capability is one of the key factors for determining the victory or defeat of the battlefield, the core for improving the individual combat capability lies in daily military training, and the light weapon shooting is the foundation in military training foundation of troops and is the essential skill of the whole soldier. Among the present light arms shooting training, the shooter is according to the rifle, aim, the percussion action, only observe difficult discovery problem through the naked eye, if the actual deviation of aiming with the shooter, the offset of aiming point for the target, aim the orbit with real-time curve's form, can show on the computer screen, and can aim the overall process of action through the playback, seek the problem that exists in the training of aiming, then to the whole rifle of shooter, aim, the judgement of percussion action, and there is corresponding improvement suggestion that proposes, then it is convenient, directly perceived a lot of, can effectively improve individual soldier's shooting score, and can improve the shooting training security, practice thrift the training cost, reduce gun wearing and tearing, produce higher military economic benefits and using value.

Disclosure of Invention

An object of the utility model is to design a shooting simulation training system, replace true rifle and pistol with laser simulation rifle utensil, reduced the training cost, improved the security of training.

The technical scheme of the utility model is that:

the shooting simulation training system comprises a laser simulation gun, a laser induction target and a display control terminal;

the input end of the laser induction target corresponds to the laser simulation gun, the laser simulation gun is controlled by a shooter, and the output end of the laser induction target is electrically connected with the display control terminal;

the simulation gun single chip microcomputer is electrically connected with the lithium battery through a power management circuit, and the simulation gun single chip microcomputer is electrically connected with the trigger switch; the simulation rifle singlechip is equipped with voice module, infrared receiving component, wireless communication module, the simulation rifle singlechip is connected with laser emitter electricity through switch circuit, the simulation rifle singlechip loops through isolating circuit, drive circuit, solenoid combination, active cell bar magnet, sensor electricity and connects to form the return circuit.

When the laser simulation gun is used, the laser simulation gun is used for aiming at the laser induction target, invisible laser emitted by the laser simulation gun is received and processed by the laser induction target, a laser drop point, namely an aiming position signal is transmitted to the display control terminal through wireless signal transmission, the display control terminal displays an aiming track and an impact point of the laser simulation gun during emission, training scores of a shooter are judged and stored through shooting analysis software, and a targeted training suggestion is given according to the operating condition of the shooter.

The laser simulation gun takes 95 and 95-1 type automatic rifles and 92 type fighting handguns which are currently installed by military police as models, and the appearance is as follows: 1, the simulation training equipment is made by the proportion of the simulated gun body shell and each internal circuit component.

The lithium battery is an energy core of the whole system and provides a power supply for the system;

the power management circuit protects the charging and discharging of the lithium battery and prevents the battery from being damaged by overcharge and overdischarge or large current.

The simulation gun singlechip is a control center of the laser simulation gun and controls the working process of the whole laser simulation gun. When laser beams need to be emitted, the analog gun singlechip controls the switch circuit to be switched on and off according to a certain time sequence, and the laser emitter emits invisible infrared laser, so that the infrared laser beams carrying coded information are formed.

The isolation circuit is used for preventing the simulation gun singlechip from being damaged when the system works at a high current; the driving circuit amplifies the power of the signal of the isolation circuit, so as to drive the solenoid combination to generate a changing magnetic field. When in analog launching, the analog gun singlechip senses a level change signal transmitted by the trigger switch, generates a control signal, and the control signal is transmitted to the solenoid assembly through the isolating circuit and the driving circuit to generate a changing magnetic field. After the gun is launched, the simulation gun singlechip controls the rotor magnetic rod to move forwards and restore to the position before the gun is launched, and the automatic resetting of the bolt is realized.

The sensor is used for sensing the motion direction and the real-time position of the rotor magnetic rod and transmitting the motion direction and the real-time position to the simulation gun single chip microcomputer, and the simulation gun single chip microcomputer controls the current direction of the solenoid according to the real-time position of the rotor magnetic rod, so that the magnetic field direction is changed, and the rotor magnetic rod moves forwards or backwards as required.

The voice module can output sound under the program control action of the simulation gun singlechip, and gives corresponding voice prompts for operating simulation gun actions, subject setting and the like.

The infrared receiving assembly is used for receiving signals of an external infrared remote controller, converting infrared light signals into electronic pulse signals and transmitting the electronic pulse signals to the simulation gun single chip microcomputer, and accordingly parameter setting of the simulation gun is achieved, such as gun number and bullet quantity.

The wireless communication module is a channel for communicating the laser simulation gun with the display control terminal, and completes information transmission with the outside under the control of the simulation gun singlechip.

The laser induction target comprises a target body, a target rod and a base; the target body is rotatably arranged on the target rod; the target rod is rotatably arranged on the base;

the front part of the target body is provided with a target plate; a rear cover plate is arranged at the rear part of the target body; a power supply set is arranged on the back of the target body; the power supply group consists of a storage battery and a battery fixing seat; the storage battery is arranged on the battery fixing seat and used for supplying power to the laser electronic target; the battery fixing seat is arranged at the lower end of the back of the target body; the bottom of the target body is provided with a target body inserting column; the target body insert column is used for being inserted and fixed into an insert column fixing structure of the target rod; positioning pins are arranged on two sides of the target body inserting column, the positioning pins are cylindrical bars, steel ball fixing seats are arranged on the upper portions of the positioning pins, and the steel ball fixing seats are circular inner notches and used for fixing steel balls on adjusting bolts;

furthermore, a circuit board is also arranged in the target body; the circuit board is provided with an induction target single chip microcomputer, a laser induction array and a wireless communication module; the induction target single chip microcomputer is used for controlling the laser induction target; the laser sensing array is arranged on the front surface of the circuit board; the laser induction array is formed by arranging and welding a plurality of laser receiving tubes on a circuit board according to a certain sequence and is electrically connected with the simulation gun singlechip; the wireless communication module is welded on the back of the circuit board and is electrically connected with the induction target single chip microcomputer.

When the laser simulation gun is used, infrared laser emitted by the laser simulation gun penetrates through a target plate and then irradiates a laser receiving tube corresponding to the target plate, an output signal of the laser receiving tube changes instantly, the output signal is transmitted to the induction target single chip microcomputer, the induction target single chip microcomputer sends position information of the laser receiving tube to the display control terminal through the wireless module, and aiming point position signals are continuously transmitted at the speed of 10 frames per second.

The top of the target rod is provided with an inwards concave inserting column fixing structure; the inserting column fixing structure is a penetrating type cylindrical structure and is used for installing and fixing a target inserting column; the front side and the rear side of the middle part of the inner wall of the inserted column fixing structure are respectively provided with a transverse slideway, namely a front slideway and a rear slideway; the front slideway and the rear slideway are both semicircular grooves with the same structure; the front slideway and the rear slideway are separated; the front slideway and the rear slideway are respectively used for installing positioning pins at the left side and the right side of the inserted column; mounting holes, namely a left mounting hole and a right mounting hole, are symmetrically formed in the left side and the right side of the target rod fixing structure and are used for inserting positioning pins on the left side and the right side of the inserting column; the rear part of the front slideway is connected with the bottom of the left mounting hole; the bottom of the rear sliding channel is connected with the bottom of the right mounting hole; the front end of the left mounting hole is provided with a left screw hole; the rear end of the right mounting hole is provided with a right screw hole; the left screw hole and the right screw hole are used for installing an adjusting bolt; the adjusting bolt is used for fixing the positioning pin; the adjusting bolt consists of an adjusting screw, a spring and a positioning steel ball; the adjusting screw is used for adjusting the spring; the top of the adjusting screw is provided with a cross grain which is convenient to adjust through a screwdriver; the spring is installed at the bottom of the adjusting screw rod, and a positioning steel ball is installed at the bottom of the spring and used for fixing a steel ball fixing seat; the spring can adjust the position of the positioning steel ball through elasticity, so that the positioning steel ball can slide into the steel ball fixing seat conveniently, and the fixing effect is achieved.

The bottom of the target rod is provided with a target rod inserting column, and the target rod inserting column is consistent with the target body inserting column in structure and is used for being inserted and fixed in the base inserting column fixing structure;

the middle part of the base is provided with a target rod fixing structure, and the structure of the target rod fixing structure is consistent with that of the inserted column fixing structure and is used for inserting and fixing the inserted column of the target body;

the display control terminal mainly comprises a plastic box body, a fixing support, a touch display screen, a tablet computer, an alloy panel, a power amplifier circuit, a left loudspeaker, a right loudspeaker, a lithium battery pack, a wireless communication module and the like. The touch display screen is arranged on the upper cover of the plastic box body through a fixing support and fastening screws, and is connected with a tablet computer in the box body through a cable; the tablet computer, the power amplifier circuit and the wireless communication module are arranged at the bottom position in the plastic box body, and the lithium battery pack is arranged at the position of the inner side wall of the plastic box body. The left loudspeaker and the right loudspeaker are arranged below the alloy panel; the alloy panel is provided with sound holes, so that sound can be clearly transmitted.

The touch display screen is connected with the tablet personal computer in the box body through a cable; the tablet computer is electrically connected with the power amplifier circuit through a wire, and the loudspeaker is connected with the power amplifier circuit through a wire; the wireless module is electrically connected with the tablet computer; the battery is connected with the mainboard through a wire to supply power for the system.

The display control terminal has the functions of impact point display, voice broadcasting score, aiming point track display and playback, score automatic evaluation and the like.

After receiving the aiming point position signals sent by the laser induction target, the display control terminal displays the corresponding positions on the screen in real time, and the 10 position signals are received every second, so that the 10 points are connected to form an aiming trajectory. When the impact point information of the final trigger is received, a bullet hole image is drawn at the position corresponding to the screen so as to simulate a real bullet hole generated by a bullet penetrating through the target body. The system software displays the aiming track result, the impact point result, the score evaluation result and the like on a terminal screen in a classified mode through classified calculation, data comparison and intelligent analysis, simultaneously broadcasts and reports in a voice mode, and gives a comprehensive evaluation conclusion.

The laser emitter adopts an infrared band laser emitting device, and meets the requirements of simulating impact point precision and similarity in the shooting process;

the battery adopts a lithium battery, so that the battery is more environment-friendly and durable; the type selection of the battery is determined according to the shooting training time, and the performance parameters of the battery are determined according to the working parameters of the motor and the working power of other electric components.

The laser receiver is used for monitoring the coordinates of the laser impact points in real time and feeding back signals to the display control terminal according to requirements, so that the sensitivity, stability, adaptability and reliability of the device are emphasized in sensor selection.

The utility model has the advantages that: the simulated training device used for the high simulation of the light weapon shooting has the outstanding characteristics of advanced design concept, quick system expansion, convenient operation and use, stable technical performance, less training consumption, small field dependence, high group training interest, safety, reliability and the like. The shooting basic training system takes the basic skill for solving the precision shooting of the light arms as a starting point, takes the improvement of the safety and the training effect of the shooting training as a basic purpose, displays the aiming shooting process inconvenient to observe and quantify on an electronic screen in a real-time track curve mode, is intuitive, convenient, capable of being stored and played back, highlights the requirements of simulation, informatization and actual combat training, can complete the shooting basic training in small-sized indoor and outdoor fields and under the condition of real-time gun ball practice, and provides powerful support for training army falling practice according to principles.

The present invention will be further described with reference to the accompanying drawings and examples.

Drawings

FIG. 1 is a schematic diagram of a shooting simulation training system according to an embodiment of the present invention;

FIG. 2 is a block diagram of the circuitry of the internal components of the simulation gun;

fig. 3 is a schematic structural view of a laser induction target according to an embodiment of the present invention;

fig. 4 is a schematic back structural view of a laser induction target according to an embodiment of the present invention;

fig. 5 is a schematic structural view of a target body of a laser induction target according to an embodiment of the present invention;

fig. 6 is a schematic structural view of a target rod of a laser induction target according to an embodiment of the present invention;

fig. 7 is a schematic view of a base structure of a laser induction target according to an embodiment of the present invention;

fig. 8 is a schematic diagram illustrating a connection of circuit components of a display control terminal according to an embodiment of the present invention;

fig. 9 is an exploded schematic view of a display control terminal according to an embodiment of the present invention;

FIG. 10 is a schematic diagram of the connection of the control terminal circuitry;

in the figure: 1-plastic box body, 2-alloy panel, 3-touch display screen, 4-fixed support, 5-fastening screw, 6-box body upper cover, 7-lithium battery pack, 8-left loudspeaker, 9-right loudspeaker, 10-tablet computer, 11-power amplifier circuit, 12-wireless communication module, 13-laser induction target, 14-target body, 141-target body inserting column, 142-positioning pin, 15-target rod, 151-inserting column fixed structure, 152-front slideway, 153-rear slideway, 154-adjusting screw rod, 155-spring, 156-positioning steel ball, 157 mounting hole, 158-target rod inserting column, 16-base and 161-target rod fixed structure.

Detailed Description

The following description of the preferred embodiments of the present invention is provided for the purpose of illustration and description, and is not intended to limit the invention.

Example 1

As shown in fig. 1-10, a shooting simulation training system is composed of a laser simulation gun, a laser sensing target, a display control terminal and shooting analysis software;

the input end of the laser induction target corresponds to the laser simulation gun, the laser simulation gun is controlled by a shooter, the output end of the laser induction target is electrically connected with a display control terminal, and the display control terminal is provided with shooting analysis software;

the simulation gun single chip microcomputer is electrically connected with the lithium battery through a power management circuit, and the simulation gun single chip microcomputer is electrically connected with the trigger switch; the simulation rifle singlechip is equipped with voice module, infrared receiving component, wireless communication module, the simulation rifle singlechip is connected with laser emitter electricity through switch circuit, the simulation rifle singlechip loops through isolating circuit, drive circuit, solenoid combination, active cell bar magnet, sensor electricity and connects to form the return circuit.

When the laser simulation gun is used, the laser simulation gun is used for aiming at the laser induction target, invisible laser emitted by the laser simulation gun is received and processed by the laser induction target, a laser drop point, namely an aiming position signal is transmitted to the display control terminal through wireless signal transmission, the display control terminal displays an aiming track and an impact point of the laser simulation gun during emission, training scores of a shooter are judged and stored through shooting analysis software, and a targeted training suggestion is given according to the operating condition of the shooter.

The laser simulation gun is based on 95 and 95-1 type automatic rifles and 92 type battle handguns which are currently installed by military police, and the appearance is as follows 1:1, the simulation training equipment is manufactured according to the proportion of 1 and consists of a simulation gun body shell and internal circuit components.

The circuit block diagram of the internal components of the simulation gun is shown in the following figure 2: the solenoid assembly is magnetically coupled with the rotor magnetic rod, the rotor magnetic rod is magnetically coupled with the sensor, and the solenoid assembly is electrically connected with the rotor magnetic rod, the rotor magnetic rod and the sensor.

The working principle and process of the laser simulation gun are as follows:

the lithium battery is an energy core of the whole system and provides a power supply for the system;

the power management circuit protects the charging and discharging of the lithium battery and prevents the battery from being damaged by overcharge and overdischarge or large current.

The single chip microcomputer of the simulation gun is a control center of the laser simulation gun and controls the working process of the whole laser simulation gun. When laser beams need to be emitted, the analog gun singlechip controls the switch circuit to be switched on and off according to a certain time sequence, and the laser emitter emits invisible infrared laser, so that the infrared laser beams carrying coded information are formed.

The isolating circuit is used for preventing the analog gun singlechip from being damaged when the system works under the condition of high current, and the driving circuit is used for amplifying the power of the signal of the isolating circuit, so that the solenoid combination is pushed to generate a changing magnetic field. During analog launching, the analog gun singlechip senses a level change signal transmitted by a trigger switch, generates a control signal and is combined with the solenoid through the isolating circuit and the driving circuit to generate a changing magnetic field, and controls the rotor magnetic rod to instantaneously move backwards in an accelerated manner according to the action principle of homopolar repulsion and heteropolar attraction of magnetic poles to impact the analog gun shell, so that the launching recoil force is generated. After the gun is launched, the simulation gun singlechip controls the rotor magnetic rod to move forwards and restore to the position before the gun is launched, and the automatic resetting of the bolt is realized. The sensor is used for sensing the motion direction and the real-time position of the rotor magnetic rod and transmitting the motion direction and the real-time position to the simulation gun single chip microcomputer, and the simulation gun single chip microcomputer controls the current direction of the solenoid according to the real-time position of the rotor magnetic rod, so that the magnetic field direction is changed, and the rotor magnetic rod moves forwards or backwards as required.

The voice module can output sound under the program control action of the simulation gun singlechip, and gives corresponding voice prompts for operating simulation gun actions, subject setting and the like.

The infrared receiving assembly is used for receiving signals of an external infrared remote controller, converting infrared light signals into electronic pulse signals and transmitting the electronic pulse signals to the simulation gun single chip microcomputer, and accordingly parameter setting of the simulation gun is achieved, such as gun number and bullet quantity.

The wireless communication module is a channel for communicating the laser simulation gun with the display control terminal, and completes information transmission with the outside under the control of the simulation gun singlechip.

As shown in fig. 3-7, the laser induction target 13 includes a target body 14, a target rod 15 and a base 16; the target body 14 is rotatably arranged on a target rod 15; the target rod 15 is rotatably mounted on a base 16;

the front part of the target body 14 is a target plate; the rear part of the target body is provided with a rear cover plate; a power supply set is arranged on the back of the target body; the power supply group consists of a storage battery 143 and a battery fixing seat 144; the storage battery 143 is mounted on the battery fixing seat 144 and used for supplying power to the laser induction target; the battery holder 144 is mounted on the lower end of the back of the target 14; the bottom of the target body 14 is provided with a target body inserting column 141; the target body insert 141 is used for inserting into an insert fixing structure fixed to the target rod; positioning pins 142 are arranged on two sides of the target body inserting column 141, the positioning pins 142 are cylindrical bars, steel ball fixing seats are arranged on the upper portions of the positioning pins 142, and the steel ball fixing seats are circular inner notches and used for fixing steel balls on adjusting bolts;

further, a circuit board is also installed inside the target body 14; the circuit board is provided with an induction target single chip microcomputer, a laser induction array and a wireless communication module; the induction target single chip microcomputer is used for controlling the laser induction target; the laser sensing array is arranged on the front surface of the circuit board; the laser induction array is formed by arranging and welding a plurality of laser receiving tubes on a circuit board according to a certain sequence and is electrically connected with the simulation gun singlechip; the wireless communication module is welded on the back of the circuit board and is electrically connected with the induction target single chip microcomputer.

When the laser simulation gun is used, infrared laser emitted by the laser simulation gun penetrates through a target plate and then irradiates a laser receiving tube corresponding to the target plate, an output signal of the laser receiving tube changes instantly, the output signal is transmitted to an induction target single chip, the induction target single chip sends position information of the laser receiving tube to a display control terminal through a wireless module, and aiming point position signals are continuously transmitted at the speed of 10 frames per second.

The top of the target rod 15 is provided with an inwards concave inserted column fixing structure 151; the inserted column fixing structure 151 is a penetrating cylindrical structure and is used for installing and fixing the target inserted column 141; the front side and the rear side of the middle part of the inner wall of the inserted column fixing structure 151 are respectively provided with a transverse slideway, namely a front slideway 152 and a rear slideway 153; the front slideway 152 and the rear slideway 153 are both semicircular grooves with the same structure; the front slide way 152 is separated from the rear slide way 153; the front slide way 152 and the rear slide way 153 are respectively used for installing the positioning pins 142 on the left side and the right side of the target body inserting column 141; the left and right sides of the target rod fixing structure 151 are symmetrically provided with mounting holes 157 for the insertion of the positioning pins 142 at the left and right sides of the target body insert post 141; the rear part of the front slideway 152 is connected with the bottom of the left mounting hole; the bottom of the rear slide 153 is connected with the bottom of the right mounting hole; the front end of the side left mounting hole is provided with a screw hole; the rear end of the right side mounting hole is provided with a screw hole; the screw hole is used for installing an adjusting bolt; the adjusting bolt is used for fixing the positioning pin; the adjusting bolt consists of an adjusting screw 154, a spring 155 and a positioning steel ball 156; the adjusting screw 154 is used for adjusting the spring 155; the top of the adjusting screw 154 is provided with a cross pattern which is convenient to adjust by a screwdriver; the spring 155 is arranged at the bottom of the adjusting screw rod, a positioning steel ball 156 is arranged at the bottom of the spring 155, and the positioning steel ball 156 is used for fixing a steel ball fixing seat; the spring 155 is used for adjusting the position of the positioning steel ball 156 through elasticity, so that the positioning steel ball can slide into the steel ball fixing seat conveniently, and the fixing effect is achieved.

The bottom of the target rod 15 is provided with a target rod inserting column 158, and the target rod inserting column 158 and the target body inserting column 141 have the same structure and are used for being inserted and fixed in a base target rod fixing structure 161;

the middle part of the base 16 is provided with a target rod fixing structure 161, and the structure of the target rod fixing structure is consistent with that of the inserted column fixing structure and is used for inserting and fixing the inserted column of the target body;

the display control terminal is a computer running an android system and comprises a plastic box body 1, a fixed support 4, a touch display screen 3, a tablet computer 10, an alloy panel 2, a power amplifier circuit 11, a left loudspeaker 8, a right loudspeaker 9, a lithium battery pack 7, a wireless communication module 12 and the like.

As shown in fig. 5, the touch display screen 3 is mounted on the upper cover 6 of the plastic case 1 by the fixing bracket 4 through the fastening screw 5, and is connected with the tablet computer 10 inside the case through a cable; the tablet computer 10, the power amplifier circuit 11 and the wireless communication module 12 are arranged at the bottom position in the plastic box body 1, and the lithium battery pack 7 is arranged at the inner side wall position of the plastic box body 1. The left loudspeaker 8 and the right loudspeaker 9 are arranged below the alloy panel 2; the alloy panel 2 is provided with sound holes, so that sound can be clearly transmitted.

The connection of each electrical component in the display control terminal is as shown in fig. 4, and the touch display screen is connected with a tablet computer in the box body through a cable; the tablet computer is electrically connected with the power amplifier circuit through a wire, and the loudspeaker is connected with the power amplifier circuit through a wire; the wireless module is electrically connected with the tablet computer; the battery is connected with the mainboard through a wire to supply power for the system.

The display control terminal has the functions of impact point display, voice broadcast score, aiming point track display and playback, score automatic evaluation and the like, and the functions are realized by a special software-shooting analysis system which runs on an android system.

The shooting analysis system is a software system (name: a shooting simulation training system V1.0, registration number: 2020SR 0708976) which is high in practicability, simple to operate and stable in operation, is tightly attached to characteristic rules of shooting training of armies, aims at quickly improving basic skills of shooting according to guns, aiming, firing and the like by aiming at the characteristics, and comprises an automatic target reporting module, a process analysis module, a statistic evaluation module, a voice broadcasting module, a playback module and the like.

The automatic target scoring module: judging the hitting position of the bullet, displaying the bullet hole on the target figure, and displaying the accurate ring number on the score column;

the process analysis module: analyzing the aiming track curve of the shooter, judging the stability and deviation of the shooter according to the gun, aiming and shooting, and making a targeted training suggestion;

the statistic evaluation module: counting aiming curves, hit ring numbers, scores and the like of each bullet shot by a shooter, and clearly displaying the results in a table form;

the voice broadcast module: according to the number of shooters hitting the rings, the shooter scores are broadcasted, and the audio frequency of the computer board is output to a power amplifier and a loudspeaker for sound prompt;

the playback module: and storing the process elements aimed by the shooter. After the shooting is finished, the shooter can observe the shooting and aiming process of the shooter through point playback so as to find problems and pertinently improve training.

The working principle and the process of the display control terminal are as follows:

after receiving the aiming point position signals sent by the laser induction target, the display control terminal displays the corresponding positions on the screen in real time, and the 10 position signals are received every second, so that the 10 points are connected to form an aiming trajectory. When the impact point information of the final firing is received, a bullet hole image is drawn at the corresponding position of the screen so as to simulate a real bullet hole generated by a bullet penetrating through the target body. The system software displays the aiming track result, the impact point result, the score evaluation result and the like on a terminal screen in a classified mode through classified calculation, data comparison and intelligent analysis, simultaneously broadcasts and reports in a voice mode, and gives a comprehensive evaluation conclusion.

The laser emitter adopts an infrared band laser emitting device, and meets the requirements of simulating impact point precision and similarity in the shooting process;

the battery is a lithium battery, so that the battery is more environment-friendly and durable; the type selection of the battery is determined according to the shooting training time, and the performance parameters of the battery are determined according to the working parameters of the motor and the working power of other electrical components.

The laser receiver is used for monitoring the coordinates of the laser impact points in real time and feeding back signals to the display control terminal according to requirements, so that the sensitivity, stability, adaptability and reliability of the device are emphasized in sensor selection.

Claims (7)

1. Shooting simulated training system, its characterized in that: the laser simulation system comprises a laser simulation gun, a laser induction target and a display control terminal;

the input end of the laser induction target corresponds to the laser simulation gun, the laser simulation gun is controlled by a shooter, and the output end of the laser induction target is electrically connected with the display control terminal;

the simulation gun single chip microcomputer is electrically connected with the lithium battery through a power management circuit, and the simulation gun single chip microcomputer is electrically connected with the trigger switch; the simulation rifle singlechip is equipped with voice module, infrared receiving component, wireless communication module, the simulation rifle singlechip is connected with laser emitter electricity through switch circuit, the simulation rifle singlechip loops through isolating circuit, drive circuit, solenoid combination, active cell bar magnet, sensor electricity and connects to form the return circuit.

2. A shooting simulation training system as claimed in claim 1, characterized in that: the laser induction target comprises a target body, a rotary target rod and a base; the target body is rotatably arranged on the target rod; the target rod is rotatably mounted on the base; the front part of the target body is provided with a target plate; the rear part of the target body is provided with a rear cover plate; a power supply set is arranged on the back of the target body; the power supply group consists of a storage battery and a battery fixing seat; the storage battery is arranged on the battery fixing seat and used for supplying power to the laser electronic target; the battery fixing seat is arranged at the lower end of the back of the target body; the bottom of the target body is provided with a target body inserting column; the target body insert column is used for being inserted and fixed into an insert column fixing structure of the target rod; the target body is inserted the post both sides and is equipped with the locating pin, the locating pin is the cylinder strip, locating pin upper portion is equipped with the steel ball fixing base, the steel ball fixing base is circular indent for the steel ball on the fixed adjusting bolt.

3. A shooting simulation training system as claimed in claim 2, characterized in that: a circuit board is also arranged in the target body; the circuit board is provided with an induction target single chip microcomputer, a laser induction array and a wireless communication module; the induction target single chip microcomputer is used for controlling the laser induction target; the laser sensing array is arranged on the front surface of the circuit board; the laser induction array is arranged on the circuit board by a plurality of laser receiving tubes and is electrically connected with the simulation gun singlechip; the wireless communication module is arranged on the back face of the circuit board and is electrically connected with the induction target single chip microcomputer.

4. A shooting simulation training system as claimed in claim 3, wherein: the bottom of the target rod is provided with a target rod inserting column, and the target rod inserting column is consistent with the target body inserting column in structure and is used for being inserted and fixed in the base inserting column fixing structure; the middle part of the base is provided with a target rod fixing structure, and the structure of the target rod fixing structure is consistent with that of the inserted column fixing structure and is used for inserting and fixing the inserted column of the target body.

5. A shooting simulation training system as claimed in claim 4, characterized in that: the top of the target rod is provided with an inwards concave inserted column fixing structure; the inserting column fixing structure is a penetrating type cylindrical structure and is used for installing and fixing a target inserting column; the front side and the rear side of the middle part of the inner wall of the inserted column fixing structure are respectively provided with a transverse slideway, namely a front slideway and a rear slideway; the front slideway and the rear slideway are both semicircular grooves with the same structure; the front slideway and the rear slideway are separated; the front slideway and the rear slideway are respectively used for installing positioning pins at the left side and the right side of the inserted column; mounting holes, namely a left mounting hole and a right mounting hole, are symmetrically formed in the left side and the right side of the target rod fixing structure and are used for inserting positioning pins on the left side and the right side of the inserting column; the rear part of the front slideway is connected with the bottom of the left mounting hole; the bottom of the rear sliding channel is connected with the bottom of the right mounting hole; the front end of the left mounting hole is provided with a left screw hole; the rear end of the right mounting hole is provided with a right screw hole; the left screw hole and the right screw hole are used for mounting an adjusting bolt; the adjusting bolt is used for fixing the positioning pin; the adjusting bolt consists of an adjusting screw, a spring and a positioning steel ball; the adjusting screw is used for adjusting the spring; the top of the adjusting screw is provided with a cross grain which is convenient to adjust through a screwdriver; the spring is arranged at the bottom of the adjusting screw rod, and a positioning steel ball is arranged at the bottom of the spring and used for fixing a steel ball fixing seat; the spring elastically adjusts the position of the positioning steel ball, and the positioning steel ball slides into the steel ball fixing seat.

6. A shooting simulation training system as claimed in claim 1, characterized in that: display control terminal mainly comprises plastics box, fixed bolster, touch display screen, panel computer, alloy panel, power amplifier circuit, left speaker, right speaker, lithium cell group, wireless communication module.

7. A shooting simulation training system as claimed in claim 6, wherein: the touch display screen is arranged on the upper cover of the plastic box body through a fixing support and fastening screws, and is connected with a tablet computer in the box body through a cable; the tablet computer, the power amplifier circuit and the wireless communication module are arranged at the bottom position in the plastic box body, and the lithium battery pack is arranged at the side wall position in the plastic box body; the left loudspeaker and the right loudspeaker are arranged below the alloy panel; the alloy panel is provided with sound holes.

Images