CN215114188U - 95 formula automatic laser simulation training rifle - Google Patents

Abstract

The utility model discloses a 95-type automatic laser simulation training gun, which comprises a shell mechanism, wherein a laser emission mechanism is installed at the front end of the shell mechanism, a simulation vibration mechanism is arranged at the upper part in the shell mechanism, and a battery cartridge clip mechanism is movably connected below the rear end of the shell mechanism; the battery pack clamping device is characterized by further comprising a control mechanism, wherein the control mechanism is in control connection with the laser emission mechanism, the simulation vibration mechanism and the battery pack clamping mechanism. The utility model provides the high training precision guarantees the training effect, has vibrations feedback function, improves the reality degree, improves the convenience, improves the training effect, and long service life is the important equipment of police service personnel, national defense education simulation shooting training.

Description

95 formula automatic laser simulation training rifle

Technical Field

The utility model relates to a laser simulation training rifle especially relates to an automatic laser simulation training rifle of 95 formulas.

Background

The 95-type assault rifle is a small-caliber automatic rifle self-developed by China, is a standard weapon of a liberation army at present, and is designed and shaped in 1995; the new type of assault rifle is named as 95 type 5.8mm caliber assault rifle, in 1997, the new type of assault rifle is used as a matched weapon of special soldier troops for the first time to expose, and the basic equipment troops become a new generation of standard assault rifle in China. At present, most of devices for police service personnel and national defense education simulation shooting training are laser simulation training guns, but the shooting precision of the guns is poor, the simulation degree is low, the training effect of the training personnel is quite unobvious, and the training efficiency is influenced because the training effect is not basically played in the future operation of the training personnel.

SUMMERY OF THE UTILITY MODEL

The utility model provides an improve the training precision, guarantee the training effect, have vibrations feedback function, improve the reality degree, improve the convenience, improve the training effect, long service life's 95 formula automatic laser simulation training rifle.

In order to solve the technical problem, the technical scheme of the utility model is that: a95-type automatic laser simulation training gun comprises a shell mechanism, wherein a laser emission mechanism is mounted at the front end of the shell mechanism, a simulation vibration mechanism is arranged at the upper part in the shell mechanism, and a battery cartridge clip mechanism is movably connected below the rear end of the shell mechanism; the battery pack clamping device is characterized by further comprising a control mechanism, wherein the control mechanism is in control connection with the laser emission mechanism, the simulation vibration mechanism and the battery pack clamping mechanism.

As a preferred technical scheme, the simulation vibration mechanism comprises a coil module, a back-end portion is arranged at the tail end of the coil module, a magnet module is sleeved in the coil module in a sliding mode, and an output signal controlled by the control mechanism controls the conduction of the coil module, so that the magnet module slides in the coil module and impacts the back-end portion.

As a preferred technical scheme, the simulation vibration mechanism comprises a coil pipe arranged in a shell mechanism, the coil module is sleeved outside the coil pipe, the tail end of the coil pipe is provided with the rear stop part, and the front end of the coil pipe is provided with a coil pipe front plug; a magnet tube is slidably sleeved in the coil tube, the magnet module is arranged in the magnet tube, and magnet tube plugs are arranged at two ends of the magnet tube; the coil module is characterized in that a spring rod is arranged above the coil module, a return spring is sleeved outside the spring rod, the front portion of the spring rod is provided with a connecting rod on the magnet tube plug, a connecting rod stroke groove is formed in the front portion tube wall of the coil tube, the connecting rod upwards penetrates through the connecting rod stroke groove to be connected with a handle which is sleeved on the spring rod, the handle extends out of the upper portion of the shell mechanism, and the return spring is located at the rear end of the handle.

As a preferred technical scheme, the coil module comprises a stator core fixedly sleeved outside the coil tube, the stator core is provided with a coil slot, and a coil winding is arranged in the coil slot; the magnet module comprises a plurality of pairs of permanent magnets with N poles and S poles alternately arranged.

As a preferable technical solution, the coil slot is opened on the outer periphery of the stator core; the coil winding comprises a plurality of stator coils, the stator coils are direct-current three-phase stator coils, Hall detection sensors are arranged on stator cores between the stator coils, and detection signals of the Hall detection sensors are connected to signal input ends of the control mechanism.

According to the preferable technical scheme, the laser emitting mechanism comprises a laser fixing piece arranged at the front end of the shell mechanism, and a laser is installed in the laser fixing piece.

As the preferred technical scheme, battery cartridge clip mechanism include with the battery compartment of shell mechanism activity joint, the lithium cell is installed to the battery compartment, the top of lithium cell is equipped with the battery protection shield, the battery protection shield is connected with insertion piece seat connecting plate, insertion piece seat connecting plate is connected with supply socket, the last cang gai that is equipped with of supply socket.

As a preferred technical scheme, the control mechanism comprises a control circuit board, an output signal of the control circuit board is in control connection with the laser, an output signal of the control circuit board is also in control connection with a driving circuit board, and the driving circuit board is connected with the coil winding; the front end of shell mechanism is equipped with the switch keypad, the output signal of switch keypad is connected to control circuit board's signal input part, shell mechanism's rear end below is equipped with the inserted sheet connecting plate, be equipped with the power inserted sheet on the inserted sheet connecting plate, the power inserted sheet with control circuit board drive circuit board connects, the power inserted sheet with supply socket activity is pegged graft.

As preferred technical scheme, shell mechanism is including the preceding inferior valve that is located the lower part, preceding inferior valve is equipped with the trigger, preceding inferior valve rear portion is connected with the back inferior valve, the epitheca before the top sliding connection of preceding inferior valve, the rear portion of preceding epitheca is connected with the back epitheca, the tail end of back epitheca is equipped with the rear end cap, preceding inferior valve the back inferior valve preceding epitheca with be equipped with the curb plate between the back epitheca, be equipped with speed shooting conversion knob on the back inferior valve, the signal output part of speed shooting conversion knob is connected to control mechanism's signal input part.

As a preferred technical scheme, the control circuit board is connected with a loudspeaker; a front sighting device is arranged in front of the front upper shell, a dovetail groove frame is arranged on the front upper shell, and a sighting hole is formed in the dovetail groove frame; and the front lower shell is provided with a column cap.

By adopting the technical scheme, during training, the battery cartridge clip mechanism is movably assembled and disassembled with the shell mechanism, and the battery cartridge clip mechanism is arranged below the rear end of the shell mechanism, so that the action of installing the cartridge clip of the 95-type assault rifle is simulated, and the whole machine is enabled to enter a working state. During shooting, the control mechanism controls the laser emission mechanism to emit laser, and a 95-type assault rifle is simulated to emit bullets, so that the shooting result can be accurately counted; the control mechanism controls the motion of the simulation vibration mechanism to impact backwards so as to give vibration feedback to a user, so that the feedback effect generated by recoil is simulated, and the shooting reality degree is improved. The utility model provides the high training precision guarantees the training effect, has vibrations feedback function, improves the reality degree, improves the convenience, improves the training effect, and long service life is the important equipment of police service personnel, national defense education simulation shooting training.

Drawings

The drawings are only intended to illustrate and explain the present invention and do not limit the scope of the invention. Wherein:

fig. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a partial enlarged view of portion A of FIG. 1;

FIG. 3 is a partial enlarged view of portion B of FIG. 1;

FIG. 4 is a perspective view of FIG. 1;

fig. 5 is a major exploded view of an embodiment of the invention;

fig. 6 is a schematic structural diagram of the chamber returning state of the embodiment of the present invention;

FIG. 7 is an enlarged partial view of portion AA of FIG. 6;

fig. 8 is a partially enlarged view of the BB section of fig. 6;

FIG. 9 is a perspective view of FIG. 6;

fig. 10 is a schematic structural diagram of a coil module and a magnet module according to an embodiment of the present invention;

fig. 11 is a schematic structural diagram of a control part according to an embodiment of the present invention.

In the figure: 11-anterior inferior shell; 12-a trigger; 13-posterior inferior shell; 14-front upper shell; 15-rear upper shell; 16-side plate; 17-quick and slow shooting conversion knob; 18-dovetail slot frame; 19-a target; 21-laser fixing part; 22-a laser; 31-a coil form; 32-a coil module; 321-a stator core; 322-coil slot; 323-coil windings; 324-hall detection sensor; 33-a back end; 34-a magnet tube; 35-a magnet module; 36-coil tube front plug; 37-a magnet tube plug; 41-spring rod; 42-a return spring; 43-connecting rod; 44-a handle; 51-a battery compartment; 52-a lithium battery; 53-battery protection plate; 54-insert seat connection plate; 55-power socket; 56-bin cover; 61-control circuit board; 62-a drive circuit board; 63-switch key board; 64-an insert connecting plate; 65-power plug-in sheet; 66-a loudspeaker; 67-column cap; 68-anterior sight.

Detailed Description

The invention is further explained below with reference to the drawings and examples. In the following detailed description, certain exemplary embodiments of the present invention have been described by way of illustration only. Needless to say, a person skilled in the art will recognize that the described embodiments can be modified in various different ways without departing from the spirit and scope of the invention. Accordingly, the drawings and description are illustrative in nature and not intended to limit the scope of the claims.

In addition, the technical features related to the embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

As shown in fig. 1, 2, 3, 4, 5 and 11, a 95-type automatic laser simulation training gun comprises a shell mechanism, wherein a laser emission mechanism is installed at the front end of the shell mechanism, a simulation vibration mechanism is arranged at the upper part in the shell mechanism, and a battery cartridge clip mechanism is movably connected below the rear end of the shell mechanism; the battery pack clamping device further comprises a control mechanism, and the control mechanism is connected with the laser emission mechanism, the simulation vibration mechanism and the battery pack clamping mechanism in a control mode.

During training, the battery cartridge clip mechanism is movably assembled and disassembled with the shell mechanism, and the battery cartridge clip mechanism is arranged below the rear end of the shell mechanism, so that the action of installing the cartridge clip of the 95-type assault rifle is simulated, and the whole machine is enabled to enter a working state. During shooting, the control mechanism controls the laser emission mechanism to emit laser, and a 95-type assault rifle is simulated to emit bullets, so that the shooting result can be accurately counted; the control mechanism controls the motion of the simulation vibration mechanism to impact backwards so as to give vibration feedback to a user, so that the feedback effect generated by recoil is simulated, and the shooting reality degree is improved.

As shown in fig. 10, the artificial vibration mechanism includes a coil pipe 31 disposed in the housing mechanism, a coil module 32 is sleeved outside the coil pipe 31, a rear stop portion 33 is disposed at the tail end of the coil pipe 31, and a coil pipe front plug 36 is disposed at the front end of the coil pipe 31; a magnet tube 34 is slidably sleeved in the coil tube 31, a magnet module 35 is arranged in the magnet tube 34, and magnet tube plugs 37 are arranged at two ends of the magnet tube 34; a spring rod 41 is arranged above the coil module 32, a return spring 42 is sleeved outside the spring rod 41, a connecting rod 43 is mounted on the front magnet tube plug 37, a connecting rod stroke slot is formed in the front tube wall of the coil tube 31, the connecting rod 43 upwards penetrates through the connecting rod stroke slot to be connected with a handle 44 which is sleeved on the spring rod 41, the handle 44 extends out of the upper portion of the shell mechanism, and the return spring 42 is located at the rear end of the handle 44.

The coil module 32 includes a stator core 321 fixedly sleeved outside the coil tube 31, the stator core 321 is provided with a coil slot 322, and the coil slot 322 is provided with a coil winding 323; the magnet module 35 includes a plurality of pairs of permanent magnets having N poles and S poles alternately arranged.

The coil slot 322 is opened on the outer periphery of the stator core 321; the coil winding 323 comprises a plurality of stator coils, the stator coils are direct-current three-phase stator coils, a hall detection sensor 324 is arranged on the stator core 321 between the stator coils, and a detection signal of the hall detection sensor 324 is connected to a signal input end of the control mechanism.

The simulation vibration mechanism of the present embodiment operates based on the principle of a cylindrical permanent magnet linear generator, an air gap is left between the coil tube 31 and the magnet tube 34, and the magnet module 35 reciprocates along the axial direction of the coil tube 31. The control mechanism controls the battery clip mechanism to supply power to the coil winding 323, so that the magnet module 35 can move back and forth in the magnet tube 34.

As shown in fig. 6, the stator coils are dc three-phase stator coils, each three coils are connected in a delta connection manner, and are divided into U, V, W phases. When the magnetic pole moves by the distance of one coil slot 322, the hall sensor 324 is used to detect the moving position of the magnet module 35 and transmit the signal to the signal input end of the control mechanism, and the control mechanism controls the phase sequence of the stator coil to be switched once to control the magnetic field to drive the magnet module 35 to move.

Initially, the return spring 42 pushes the connecting rod 43 and the handle 44 to the front initial position, so that the connecting rod 43 is located at the front initial position.

As shown in fig. 6, 7, 8 and 9, when the magnet module 35 moves from the front to the back, taking 61 mm as an example of the whole movement stroke of the magnet module 35, the phase sequence needs to be switched between 12 and 13 times in the whole movement stroke, and about 45 milliseconds is needed from front to back, so that the magnet module 35 can instantly move from the front to the back and strike the back stop 33, and give a vibration feedback to the user, so as to simulate the feedback effect generated by recoil and improve the shooting reality.

When the magnet module 35 is reset after striking the rear stop portion 33, the hall sensor 324 detects the moving position of the magnet module 35 and transmits a signal to the signal input end of the control mechanism, and the control mechanism controls the stator coil to supply power in a reverse direction, switches the conduction state of the coil winding 323, and changes the magnetic field, so that the magnet module 35 instantly moves from the rear to the front. At this point, an excitation process is completed, i.e., the magnet module 35 performs a striking and resetting from front to back, which takes about 80-90 ms.

In the process that the magnet module 35 is driven to move, the connecting rod 43 and the handle 44 are driven to move simultaneously, the handle 44 is a visual part, the action of striking the handle 44 of the rifle in a 95 mode can be completely simulated, and the feedback is visually provided for a user.

This embodiment can simulate two modes of a 95-type assault rifle: single shot mode, continuous shot mode. In the single shot mode, the control mechanism for pulling the trigger 12 controls the magnet module 35 to impact and reset once from front to back, and only when the trigger 12 is pulled again, the magnet module can act once again. In the repeating mode, when the trigger 12 is pulled to control the magnet module 35 to realize one time of impact and reset from front to back, the hall detection sensor 324 is used for detecting the movement position of the magnet module 35, and the control mechanism then controls the magnet module 35 to realize one more time of impact and reset from front to back until the trigger 12 is released to stop the action.

The coil tube front plug 36 has the function of limiting and fixing, the rear baffle part 33 has the function of stroke motion limiting, the connecting rod stroke groove has the function of motion guiding, and in order to guarantee the normal motion feedback of the magnet module 35, the length of the connecting rod stroke groove is slightly longer than the distance of the whole motion stroke of the magnet module 35. The coil pipe 31 and the spring rod 41 have a movement guiding function, and the magnet module 35 and the handle 44 can be better moved. The magnet module 35 and the coil module 32 have a weight-balancing function, and the same weight as that of the 95-type assault rifle can be achieved by adjusting the weight. In addition, the parameters of the magnet module 35 and the coil module 32 can be adjusted to achieve the magnitude of the backward impact force.

The laser emission mechanism comprises a laser fixing piece 21 arranged at the front end of a shell mechanism, and a laser 22 is installed in the laser fixing piece 21. When the trigger 12 is pulled, the control mechanism controls the laser 22 to emit a corresponding laser light to simulate a shot.

The battery cartridge clip mechanism comprises a battery bin 51 movably connected with the shell mechanism in a clamped mode, a lithium battery 52 is installed on the battery bin 51, a battery protection plate 53 is arranged above the lithium battery 52, the battery protection plate 53 is connected with a plug sheet seat connecting plate 54, the plug sheet seat connecting plate 54 is connected with a power socket 55, and a bin cover 56 is arranged on the power socket 55. The battery cartridge clip mechanism can be movably connected with the shell mechanism, and a groove or a boss which is matched with the battery bin 51 is arranged between the battery bin and the shell mechanism, so that the battery cartridge clip mechanism is convenient to connect. The battery cartridge clip mechanism enables the whole machine to enter a working state after being installed, the reliability of work can be guaranteed, and in addition, the action of installing the battery cartridge clip mechanism can simulate the action of installing the cartridge clip of a 95-type assault rifle, so that the shooting is more real.

The control mechanism comprises a control circuit board 61, the output signal of the control circuit board 61 is in control connection with the laser 22, the output signal of the control circuit board 61 is also in control connection with a driving circuit board 62, and the driving circuit board 62 is connected with a coil winding 323; the front end of shell mechanism is equipped with switch button board 63, and the output signal of switch button board 63 is connected to control circuit board 61's signal input part, and the rear end below of shell mechanism is equipped with inserted sheet connecting plate 64, is equipped with power inserted sheet 65 on the inserted sheet connecting plate 64, and power inserted sheet 65 is connected with control circuit board 61, dirver circuit board 62, and power inserted sheet 65 pegs graft with supply socket 55 activity.

When the battery cartridge clip mechanism is installed, the power supply inserting sheet 65 is movably inserted into the power supply socket 55, and then power can be supplied. The lithium battery 52 of the battery clip mechanism provides working power for the driving circuit board 62 and the control circuit board 61, the control circuit board 61 sends out control signals to control the laser 22 and the driving circuit board 62, and the driving circuit board 62 provides voltage for the coil winding 323. The detection signal of the hall detection sensor 324 is input to the control circuit board 61, the moving position of the magnet module 35 can be detected, the control circuit board 61 sends out a command according to the collected position signal, the driving circuit board 62 switches the conducting state of the coil winding 323 according to the command of the control circuit board 61, and the magnetic field is switched, so that the magnet module 35 is pulled at a high speed to impact backwards and reset.

Control chip model of the control circuit board 61: STM8S105, driver chip model of driver circuit board 62: the FD6288Q may also select chips of other types according to actual requirements, and since the peripheral circuit of a specific chip is connected according to the chip specification, it is not within the protection scope of the present embodiment and is not described herein again.

Control circuit board 61 is connected with loudspeaker 66, and control circuit board 61 can control loudspeaker 66 and make a sound, and sound when the 95 formula assault rifle of simulation shoots also can report other information, when the start, can report information such as electron gun identification number.

The control circuit board 61 is also connected with a wireless and/or wired communication module, and can be in communication connection with a target scoring terminal, so that shooting scores, electronic gun identification numbers and other information can be recorded conveniently.

Shell mechanism is including the preceding inferior valve 11 that is located the lower part, preceding inferior valve 11 is equipped with trigger 12, 11 rear portions of preceding inferior valve are connected with back inferior valve 13, epitheca 14 before the top sliding connection of preceding inferior valve 11, the rear portion of preceding epitheca 14 is connected with back epitheca 15, the tail end of back epitheca 15 is equipped with the rear end cap, preceding inferior valve 11, back inferior valve 13, be equipped with curb plate 16 between preceding epitheca 14 and the back epitheca 15, be equipped with speed shooting conversion knob 17 on the back inferior valve 13, the signal output part of speed shooting conversion knob 17 is connected to control mechanism's signal input part.

The trigger 12 is positioned corresponding to the switch key sheet 63, and when the trigger 12 is pulled, the switch key sheet 63 is pressed, and a simulated shooting is performed. The fast and slow shooting conversion knob 17 is used for setting a single-shot mode and a continuous-shot mode, and an output signal of the fast and slow shooting conversion knob 17 is connected to the control circuit board 61.

The front sight 68 is arranged in front of the front upper shell 14, the dovetail groove frame 18 is arranged on the front upper shell 14, and the dovetail groove frame 18 is provided with the target hole 19. The structure simulates 95-type assault rifles, and is favorable for aiming and shooting. A cap 67 is mounted to the front lower shell 11 to further simulate the appearance of a 95-style assault rifle.

During shooting training, the battery cartridge clip mechanism is movably assembled and disassembled with the shell mechanism, and the battery cartridge clip mechanism is arranged below the rear end of the shell mechanism, so that the action of installing the cartridge clip of the 95-type assault rifle is simulated, and the whole machine is enabled to enter a working state. During shooting, the control mechanism controls the laser emission mechanism to emit laser, and a 95-type assault rifle is simulated to emit bullets, so that the shooting result can be accurately counted; the control mechanism controls the motion of the simulation vibration mechanism to impact backwards so as to give vibration feedback to a user, so that the feedback effect generated by recoil is simulated, and the shooting reality degree is improved.

The embodiment simulates the 95-type assault rifle from multiple aspects, such as operation action, vibration feedback, sound and the like, improves the training precision, guarantees the training effect, has the vibration feedback function, improves the reality degree, improves the convenience, improves the training effect, and is important equipment for simulating shooting training for police officers and national defense education.

The basic principles, main features and advantages of the present invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. The utility model provides a 95 formula automatic laser simulation training rifle which characterized in that: the device comprises a shell mechanism, wherein a laser emission mechanism is installed at the front end of the shell mechanism, a simulated vibration mechanism is arranged at the upper part in the shell mechanism, and a battery cartridge clip mechanism is movably connected below the rear end of the shell mechanism; the battery pack clamping device is characterized by further comprising a control mechanism, wherein the control mechanism is in control connection with the laser emission mechanism, the simulation vibration mechanism and the battery pack clamping mechanism.

2. The 95-mode automatic laser simulation training gun of claim 1, wherein: the simulation vibration mechanism comprises a coil module, the tail end of the coil module is provided with a back-end portion, a magnet module is sleeved in the coil module in a sliding mode, the coil module is controlled by an output signal controlled by the control mechanism to be conducted, so that the magnet module is in sliding in the coil module and is impacted by the back-end portion.

3. The 95-mode automatic laser simulation training gun of claim 2, wherein: the simulation vibration mechanism comprises a coil pipe arranged in a shell mechanism, the coil module is sleeved outside the coil pipe, the tail end of the coil pipe is provided with the rear baffle part, and the front end of the coil pipe is provided with a coil pipe front plug; a magnet tube is slidably sleeved in the coil tube, the magnet module is arranged in the magnet tube, and magnet tube plugs are arranged at two ends of the magnet tube; the coil module is characterized in that a spring rod is arranged above the coil module, a return spring is sleeved outside the spring rod, the front portion of the spring rod is provided with a connecting rod on the magnet tube plug, a connecting rod stroke groove is formed in the front portion tube wall of the coil tube, the connecting rod upwards penetrates through the connecting rod stroke groove to be connected with a handle which is sleeved on the spring rod, the handle extends out of the upper portion of the shell mechanism, and the return spring is located at the rear end of the handle.

4. The 95-mode automatic laser simulation training gun of claim 3, wherein: the coil module comprises a stator core fixedly sleeved outside the coil tube, a coil slot is formed in the stator core, and a coil winding is arranged in the coil slot; the magnet module comprises a plurality of pairs of permanent magnets with N poles and S poles alternately arranged.

5. The 95-mode automatic laser simulation training gun of claim 4, wherein: the coil slot is formed in the outer periphery of the stator core; the coil winding comprises a plurality of stator coils, the stator coils are direct-current three-phase stator coils, Hall detection sensors are arranged on stator cores between the stator coils, and detection signals of the Hall detection sensors are connected to signal input ends of the control mechanism.

6. The 95-mode automatic laser simulation training gun of claim 5, wherein: the laser emission mechanism comprises a laser fixing piece arranged at the front end of the shell mechanism, and a laser is installed in the laser fixing piece.

7. The 95-mode automatic laser simulation training gun of claim 6, wherein: the battery cartridge clip mechanism comprises a battery bin movably clamped with the shell mechanism, a lithium battery is installed in the battery bin, a battery protection plate is arranged above the lithium battery, the battery protection plate is connected with an insert seat connecting plate, the insert seat connecting plate is connected with a power socket, and a bin cover is arranged on the power socket.

8. The 95-mode automatic laser simulation training gun of claim 7, wherein: the control mechanism comprises a control circuit board, an output signal of the control circuit board is in control connection with the laser, an output signal of the control circuit board is also in control connection with a driving circuit board, and the driving circuit board is connected with the coil winding; the front end of shell mechanism is equipped with the switch keypad, the output signal of switch keypad is connected to control circuit board's signal input part, shell mechanism's rear end below is equipped with the inserted sheet connecting plate, be equipped with the power inserted sheet on the inserted sheet connecting plate, the power inserted sheet with control circuit board drive circuit board connects, the power inserted sheet with supply socket activity is pegged graft.

9. The 95-mode automatic laser simulation training gun of claim 8, wherein: the shell mechanism is including the preceding inferior valve that is located the lower part, preceding inferior valve is equipped with the trigger, preceding inferior valve rear portion is connected with the back inferior valve, the epitheca before the top sliding connection of preceding inferior valve, the rear portion of preceding epitheca is connected with the back epitheca, the tail end of back epitheca is equipped with the rear end cap, preceding inferior valve the back inferior valve preceding epitheca with be equipped with the curb plate between the back epitheca, be equipped with fast and slow shooting conversion knob on the back inferior valve, the signal output part of fast and slow shooting conversion knob is connected to control mechanism's signal input part.

10. The 95-mode automatic laser simulation training gun of claim 9, wherein: the control circuit board is connected with a loudspeaker; a front sighting device is arranged in front of the front upper shell, a dovetail groove frame is arranged on the front upper shell, and a sighting hole is formed in the dovetail groove frame; and the front lower shell is provided with a column cap.

Images