CN112781439A

CN112781439A - 92-type automatic laser simulation training gun

Info

Publication number: CN112781439A
Application number: CN202110152731.8A
Authority: CN
Inventors: 易长新
Original assignee: Beijing Yijiu Simulation Technology Co ltd
Current assignee: Beijing Yijiu Simulation Technology Co ltd
Priority date: 2021-02-03
Filing date: 2021-02-03
Publication date: 2021-05-11

Abstract

The invention discloses a 92-type automatic laser simulation training gun, which comprises an outer shell, wherein a support frame is fixedly arranged on the outer shell, a simulation vibration mechanism is arranged at the upper part of the support frame, a pipe fitting is fixedly connected to the front side of the support frame, a laser is arranged in the pipe fitting, the simulation vibration mechanism is connected with an upper sliding sleeve, the upper sliding sleeve is slidably covered at the upper part of the outer shell, and a battery cartridge clip mechanism is movably connected below the rear end of the outer shell; the simulation vibration device further comprises a control mechanism, and the control mechanism is in control connection with the laser, the simulation vibration mechanism and the battery cartridge clip mechanism. The invention improves the training precision, ensures the training effect, has the vibration feedback function, improves the reality degree, improves the convenience, improves the training effect, has long service life, and is important equipment for police officers and national defense education simulation shooting training.

Description

92-type automatic laser simulation training gun

Technical Field

The invention relates to a laser simulation training gun, in particular to a 92-type automatic laser simulation training gun.

Background

At present, 92 formula pistol has become the mastery equipment of the army of the three army of China, and the equipment to police service personnel, national defense education simulation shooting training is mostly the laser simulation training rifle of this gun of simulation, but this laser simulation training rifle, and the shooting precision is relatively poor, and the fidelity is lower for training personnel's training effect is very unobvious, in the operation to training personnel in the future, does not play the effect of training basically, influences training efficiency.

Disclosure of Invention

The 92-type automatic laser simulation training gun provided by the invention has the advantages of improving the training precision, ensuring the training effect, having the vibration feedback function, improving the reality degree, improving the convenience, improving the training effect and being long in service life.

In order to solve the technical problems, the technical scheme of the invention is as follows: a92-type automatic laser simulation training gun comprises an outer shell, wherein a support frame is fixedly arranged on the outer shell, a simulation vibration mechanism is arranged at the upper part of the support frame, a pipe fitting is fixedly connected to the front side of the support frame, a laser is arranged in the pipe fitting, the simulation vibration mechanism is connected with an upper sliding sleeve, the upper sliding sleeve is slidably covered at the upper part of the outer shell, and a battery cartridge clip mechanism is movably connected below the rear end of the outer shell; the simulation vibration device further comprises a control mechanism, and the control mechanism is in control connection with the laser, the simulation vibration mechanism and the battery cartridge clip mechanism.

As preferred technical scheme, emulation vibrations mechanism includes the coil module, sliding sleeve is equipped with the magnet module in the coil module, the front end cavity of magnet module sets up and is equipped with the pull rod, the front end of magnet pipe is equipped with preceding end cap, the tail end of pull rod with preceding end cap card shelves, the front end of pull rod extends preceding end cap with the pipe connection, the rear end of magnet pipe with go up slip cover fixed connection, the output signal control of control mechanism control switching on of coil module for the magnet module is in slide in the coil module to slide the sliding sleeve motion in the drive, the magnet module move backward extremely the tail end of pull rod with preceding end cap shelves are stopped.

As a preferred technical scheme, the simulation vibration mechanism further comprises a coil pipe, and the coil module is fixedly sleeved outside the coil pipe; the magnet module is also sleeved with a magnet tube, and the rear part of the magnet tube is provided with a rear plug.

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.

As the preferred technical scheme, be equipped with the spring beam on the shell body, the spring beam overcoat is equipped with the answer spring, go up the front end sliding sleeve of sliding sleeve and establish the spring beam the front portion of pipe fitting, the front end of support frame be equipped with go up the front end complex boss of sliding sleeve.

As the preferred technical scheme, the battery cartridge clip mechanism comprises a battery bin which is movably connected with the outer shell in a clamped mode, a lithium battery is installed in the battery bin, a battery protection plate is arranged above the lithium battery and 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.

As a preferred technical solution, the control mechanism includes 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 board is connected with the coil winding; the trigger of shell body corresponds the position and is equipped with the switch keypad, the output signal of switch keypad is connected to control circuit board's signal input part, the rear end of shell body is equipped with the power inserted sheet, the power inserted sheet with control circuit board drive circuit board connects, the power inserted sheet with supply socket activity is pegged graft.

As a preferred technical scheme, the pipe fitting comprises a front pipe fitting and a rear pipe fitting which are connected in a front-rear mode; the control circuit board is connected with a loudspeaker.

According to the preferable technical scheme, a hammer is connected to the tail portion of the outer shell through a pin shaft and abuts against the tail end of the upper sliding sleeve, and a torsion spring is arranged between the hammer and the outer shell.

By adopting the technical scheme, during training, the battery cartridge clip mechanism is movably assembled and disassembled with the outer shell, and the battery cartridge clip mechanism is arranged below the rear end of the outer shell, so that the action of installing the cartridge clip of the 92-type pistol is simulated, and the whole machine enters a working state. When shooting, the control mechanism controls the laser to emit laser, and simulates a 92-type pistol to emit bullets, so that accurate statistics of shooting results is facilitated; 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 invention improves the training precision, ensures the training effect, has the vibration feedback function, improves the reality degree, improves the convenience, improves the training effect, has long service life, and is important equipment for police officers and national defense education simulation shooting training.

Drawings

The drawings are only for purposes of illustrating and explaining the present invention and are not to be construed as limiting the scope of the present invention. Wherein:

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

FIG. 2 is a perspective view of FIG. 1;

FIG. 3 is a principal exploded view of an embodiment of the invention;

FIG. 4 is a schematic structural diagram of a back-bore condition of an embodiment of the present invention;

FIG. 5 is a perspective view of FIG. 4;

FIG. 6 is a schematic structural diagram of a coil module and a magnet module according to an embodiment of the invention;

fig. 7 is a schematic structural diagram of a control part according to an embodiment of the present invention.

In the figure: 11-an outer shell; 12-a support frame; 13-upper sliding sleeve; 14-hammer; 15-torsion spring; 16-a trigger; 21-a pipe fitting; 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; 34-a magnet tube; 35-a magnet module; 36-front plug; 37-rear plug; 38-a tie rod; 41-spring rod; 42-a return spring; 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-Power blade.

Detailed Description

The invention is further illustrated below with reference to the figures and examples. In the following detailed description, certain exemplary embodiments of the present invention are described by way of illustration only. Needless to say, a person skilled in the art realizes that the described embodiments can be modified in various different ways without departing from the spirit and scope of the present 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 involved in 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, 6 and 7, a 92-type automatic laser simulation training gun comprises an outer shell 11, wherein a support frame 12 is fixedly arranged on the outer shell 11, a simulation vibration mechanism is arranged at the upper part of the support frame 12, a pipe fitting 21 is fixedly connected to the front side of the support frame 12, a laser 22 is arranged in the pipe fitting 21, the simulation vibration mechanism is connected with an upper sliding sleeve 13, the upper sliding sleeve 13 is slidably covered at the upper part of the outer shell 11, and a battery cartridge clip mechanism is movably connected below the rear end of the outer shell 11; the device also comprises a control mechanism which is connected with a laser 22, a simulation vibration mechanism and a battery cartridge clip mechanism in a control mode.

During training, the battery cartridge clip mechanism is movably assembled and disassembled with the outer shell 11, and the battery cartridge clip mechanism is arranged below the rear end of the outer shell 11, so that the action of installing a cartridge clip of a 92-type pistol is simulated, and the whole machine is enabled to enter a working state. When shooting, the control mechanism controls the laser 22 to emit laser, and simulates a 92-type pistol 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 simulation vibration mechanism comprises a coil module 32, a magnet module 35 is sleeved in the coil module 32 in a sliding mode, a pull rod 33 is arranged at the hollow portion of the front end of the magnet module 35, a front plug 36 is arranged at the front end of a magnet tube 34, the tail end of the pull rod 33 is clamped with the front plug 36, the front end of the pull rod 33 extends out of the front plug 36 to be connected with the tube 21, the rear end of the magnet tube 34 is fixedly connected with an upper sliding sleeve 13, output signals controlled by a control mechanism control the conduction of the coil module 32, the magnet module 35 slides in the coil module 32 and drives the upper sliding sleeve 13 to move, and the magnet module 35 moves backwards until the tail end of the pull rod 33 is clamped with the front plug 36.

The simulation vibration mechanism further comprises a coil pipe 31, and a coil module 32 is fixedly sleeved outside the coil pipe 31; the magnet module 35 is further sleeved with a magnet tube 34, and a rear plug 37 is arranged at the rear part of the magnet tube 34.

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 outer shell 11 is provided with a spring rod 41, a return spring 42 is sleeved outside the spring rod 41, the front end of the upper sliding sleeve 13 is slidably sleeved on the spring rod 41 and the front part of the pipe fitting 21, and the front end of the support frame 12 is provided with a boss matched with the front end of the upper sliding sleeve 13.

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.

The position of coil pipe 31 and coil module 32, pipe fitting 21 can be fixed to support frame 12, and the muzzle of 92 formula pistols can be simulated to pipe fitting 21, and the position is unanimous with real rifle, can guarantee the validity of shooting training.

Initially, the return spring 42 is acting to push the upper sliding sleeve 13 to be located at the frontmost end, and the rear end of the magnet tube 34 is fixedly connected with the upper sliding sleeve 13, so that the magnet tube 34 is also located at the frontmost initial position.

As shown in fig. 4 and 5, when the magnet module 35 moves from the front to the rear, taking the entire movement stroke of the magnet module 35 as 40 mm as an example, the phase sequence needs to be switched 8 to 9 times in the entire movement stroke, and about 25 ms is needed from the front to the rear, the magnet module 35 can instantly move from the front to the rear, and when the magnet module moves to the tail end of the pull rod 33 and the front plug 36 to block, because the tail end of the pull rod 33 and the front plug 36 are suddenly blocked, the magnet module 35 instantly stops moving and generates vibration, at this time, the front end of the support frame 12 can also collide with the boss, so as to give vibration feedback to the user, so as to simulate the feedback effect generated by recoil, and improve the reality of shooting.

When the magnet module 35 reaches the end of the rear pull rod 33 and the front plug 36 is locked, and then is reset, the hall sensor 324 is used for detecting the movement position of the magnet module 35 and transmitting the signal to the signal input end of the control mechanism, and the control mechanism controls the power supply of the stator coil in the reverse direction, switches the conduction state of the coil winding 323, and changes the magnetic field, so that the magnet module 35 moves from the rear to the front instantly. 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 40-50 milliseconds. The process of moving the primary magnet module 35 from the front to the rear and resetting is completed by pulling the trigger 16 once.

The magnet module 35 drives the upper sliding sleeve 13 to move simultaneously in the process of being driven to move, so that the action of the visible part of the 92-type pistol can be completely simulated, and the visual feedback is visually provided for a user.

The magnet module 35 and the coil module 32 also function as a weight, and the weight is adjusted to achieve the same weight as that of the 92-type pistol. In addition, the vibration feedback can be realized by adjusting the parameters of the magnet module 35 and the coil module 32.

The battery cartridge clip mechanism comprises a battery bin 51 movably connected with the outer shell 11 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 outer shell 11, and a groove or a boss which is matched with each other is arranged between the battery bin 51 and the outer shell 11, so that the connection is convenient. 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 a cartridge clip of a 92-type pistol, 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 board is connected with a coil winding 323; the corresponding position of trigger 16 of shell body 11 is equipped with switch button board 63, and the output signal of switch button board 63 is connected to the signal input part of control circuit board 61, and the rear end of shell body 11 is equipped with power plug-in sheet 64, and power plug-in sheet 64 is connected with control circuit board 61, drive circuit board 62, and power plug-in sheet 64 and supply socket 55 activity are pegged graft.

When the battery cartridge clip mechanism is installed, the power supply insertion sheet 64 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.

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.

Pipe fitting 21 is including preceding pipe fitting 21 and back pipe fitting 21 of front and back connection, and pipe fitting 21 can simulate the muzzle of 92 formula pistol, and the position is unanimous with real rifle, and laser instrument 22 is located preceding pipe fitting 21 for the transmission of laser is unanimous with 92 formula pistol's bullet is sent during the simulation training, can guarantee the validity of shooting training. Control circuit board 61 is connected with loudspeaker, and control circuit board 61 can control loudspeaker and make sound, and sound when simulation 92 formula pistol shooting also can report other information, like when the start, can report information such as electron gun identification number.

The tail part of the outer shell 11 is connected with a hammer 14 through a pin shaft, the hammer 14 abuts against the tail end of the upper sliding sleeve 13, and a torsion spring 15 is arranged between the hammer 14 and the outer shell 11. When the upper sliding sleeve 13 moves backwards, the hammer 14 is pressed to overturn, and when the upper sliding sleeve 13 returns forwards, the hammer 14 returns to the initial position and abuts against the hammer 14 under the action of the restoring force of the torsion spring 15. The above process simulates the action of a 92-pistol, making training more realistic and effective.

This embodiment improves the training precision, guarantees the training effect, has vibrations feedback function, improves the truth, 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.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a 92 formula automatic laser simulation training rifle which characterized in that: the device comprises an outer shell, wherein a support frame is fixedly arranged on the outer shell, a simulation vibration mechanism is arranged on the upper portion of the support frame, a pipe fitting is fixedly connected to the front side of the support frame, a laser is arranged in the pipe fitting, the simulation vibration mechanism is connected with an upper sliding sleeve, the upper sliding sleeve is slidably covered on the upper portion of the outer shell, and a battery cartridge clip mechanism is movably connected below the rear end of the outer shell; the simulation vibration device further comprises a control mechanism, and the control mechanism is in control connection with the laser, the simulation vibration mechanism and the battery cartridge clip mechanism.

2. The 92-type automatic laser simulation training gun of claim 1, wherein: the emulation vibrations mechanism includes the coil module, sliding sleeve is equipped with the magnet module in the coil module, the front end cavity of magnet module sets up and is equipped with the pull rod, the front end of magnet pipe is equipped with preceding end cap, the tail end of pull rod with preceding end cap card shelves, the front end of pull rod extends preceding end cap with the pipe connection, the rear end of magnet pipe with go up slide sleeve fixed connection, the output signal control of control mechanism control switching on of coil module for the magnet module is in slide in the coil module to the sliding sleeve motion is gone up in the drive, the magnet module moves backward extremely the tail end of pull rod with preceding end cap card shelves is up.

3. The 92-type automatic laser simulation training gun of claim 2, wherein: the simulation vibration mechanism further comprises a coil pipe, and the coil module is fixedly sleeved outside the coil pipe; the magnet module is also sleeved with a magnet tube, and the rear part of the magnet tube is provided with a rear plug.

4. The 92-type automatic laser simulation training gun according to 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 92-type automatic laser simulation training gun according to 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 92-type automatic laser simulation training gun according to claim 5, wherein: the shell body is provided with a spring rod, a return spring is sleeved outside the spring rod, the front end of the upper sliding sleeve is sleeved with the spring rod and the front part of the pipe fitting in a sliding mode, and the front end of the supporting frame is provided with a boss matched with the front end of the upper sliding sleeve.

7. The 92-type automatic laser simulation training gun according to claim 6, wherein: the battery cartridge clip mechanism comprises a battery bin which is movably connected with the outer shell in a clamped mode, 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 92-type automatic laser simulation training gun according to 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 board is connected with the coil winding; the trigger of shell body corresponds the position and is equipped with the switch keypad, the output signal of switch keypad is connected to control circuit board's signal input part, the rear end of shell body is equipped with the power inserted sheet, 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 automatic laser simulation training gun of claim 92, wherein: the pipe fitting comprises a front pipe fitting and a rear pipe fitting which are connected in a front-back mode; the control circuit board is connected with a loudspeaker.

10. The automatic laser simulation training gun of claim 92, wherein: the tail part of the shell body is connected with a hammer through a pin shaft, the hammer abuts against the tail end of the upper sliding sleeve, and a torsion spring is arranged between the hammer and the shell body.