CN210464194U - Laser pistol for military police training - Google Patents
Laser pistol for military police training Download PDFInfo
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- CN210464194U CN210464194U CN201921014934.5U CN201921014934U CN210464194U CN 210464194 U CN210464194 U CN 210464194U CN 201921014934 U CN201921014934 U CN 201921014934U CN 210464194 U CN210464194 U CN 210464194U
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Abstract
The utility model relates to a laser pistol for military police training, which comprises a pistol body (1) and a cartridge clip (2); wherein the gun body (1) comprises a gun barrel component (1-1), a trigger component (1-2), a moving device (1-3), a triggering device (1-4) and a gun rack component (1-5), the cartridge clip (2) comprises a battery chamber (2-1), an air storage chamber (2-2) and an air valve (2-3), an air outlet (2-2-1) of the air storage chamber (2-2) is connected with an air inlet (1-3-3-1) of the moving device (1-3), the air valve (2-3) is positioned at the air outlet (2-2-1) of the air storage chamber (2-2), the trigger component (1-2) is contacted with the triggering device (1-4), the triggering device (1-4) is contacted with the air valve (2-3), the air storage chamber (2-2) is filled with compressed gas. The utility model discloses need not external air supply or pneumatic control device and can accomplish the recoil simulation.
Description
Technical Field
The utility model relates to a laser pistol is used in military and police's training belongs to army, police's shooting training field.
Background
In order to ensure the shooting capability of military police personnel in military operations and anti-terrorism operations, the military police personnel must be shot and trained regularly, the military police shooting training is mainly divided into ball firing training and simulated shooting training, the ball firing training adopts the gun which is loaded on the ball, a large amount of ammunition needs to be consumed in the training process, the training cost is high, and therefore, with the progress of military police training means, military police departments tend to simulate the shooting training more and more.
At present, a laser gun is generally used for simulated shooting training; the traditional laser gun has no recoil force when being fired, and has larger difference with a real gun, so that the training effect is greatly reduced; therefore, various types of recoil laser guns are proposed recently in the market, but due to the limitation of the shape and the size of the gun, particularly the small space size of the gun, the existing recoil laser gun is usually externally connected with an air source and a pneumatic control device, and the gun is provided with a long air pipe or a long cable when in use, so that the application range and the use effect of the recoil laser gun are limited; secondly, the power supply of the laser and the control device of the existing laser gun usually adopts a wire connection mode, but due to the generation of recoil, the gun bolt can do reciprocating motion, and the wire is often pulled in the motion process to cause poor contact and even fracture; therefore, the existing laser gun for military police training cannot effectively simulate the generation of recoil force, and the training requirement is difficult to meet; meanwhile, the laser is triggered mainly by adopting two modes of contact triggering or magnetic induction triggering at present, wherein the starting reliability of the contact is not high, the contact is easy to lose efficacy, and the precision of the magnetic induction triggering is not enough, so that the contact is easy to miss.
SUMMERY OF THE UTILITY MODEL
The utility model provides a laser pistol is used in military police's training, its purpose aim at providing one kind can simulate the laser pistol is used in military police's training that produces the recoil.
The technical solution of the utility model is as follows: a laser pistol for military police training comprises a pistol body 1 and a cartridge clip 2; the gun body 1 comprises a gun barrel assembly 1-1, a trigger assembly 1-2, a moving device 1-3, a firing device 1-4 and a gun rack assembly 1-5, a cartridge clip 2 comprises a battery compartment 2-1, an air storage chamber 2-2 and an air valve 2-3, the air outlet 2-2-1 of the air storage chamber 2-2 is connected with the air inlet 1-3-1 of the moving device 1-3, the air valve 2-3 is located at the air outlet 2-2-1 of the air storage chamber 2-2, the trigger assembly 1-2 is in contact with the firing device 1-4, the firing device 1-4 is in contact with the air valve 2-3, and compressed air is filled in the air storage chamber 2-2.
The utility model has the advantages that:
1) the recoil simulation can be completed without an external air source or a pneumatic control device;
2) the utility model discloses power supply is stable, and laser triggers accurate reliable, through simulation production the lifelike basic feature and the service function that have restoreed real rifle of recoil, possesses the point simultaneously and penetrates, multiple functions such as long sight, be applicable to the training of image target, multiple training scenes such as man-machine confrontation real scene tactics training, the effectual fidelity that improves simulation shooting training has promoted military police's shooting training effect.
Drawings
Fig. 1 is a schematic structural diagram of the present invention.
Fig. 2 is a schematic view of the construction of the gun rest assembly 1-5.
Fig. 3 is a schematic view of the structure of the exercise apparatus 1-3.
FIG. 4 is a schematic view of the trigger assembly 1-2 and firing device 1-4.
Fig. 5 is a schematic diagram of the structure of gas valves 2-3.
Figure 6 is a schematic view of the installation of gas valves 2-3.
In the attached drawing, 1 is a gun body, 2 is a cartridge clip, 1-1 is a gun barrel component, 1-1-1 is a switching device, 1-1-2 is a laser, 1-1-3 is a control unit, 1-1-4 is an electrode slot, 1-2 is a trigger component, 1-2-1 is a trigger, 1-2-2 is a connecting rod, 1-2-3 is an A pin shaft, 1-2-4 is a B pin shaft, 1-3 is a motion device, 1-3-1 is a piston, 1-3-2 is a bolt, 1-3-3 is a cylinder, 1-3-3-1 is an air inlet of the cylinder, 1-4 is a firing device, 1-4-1 is a press hammer, 1-4-2 is a firing pin, 1-4-3 is a C pin shaft, 1-4-4 is a D pin shaft, 1-5 is a gun rack component, 1-5-1 is a gun rack, 1-5-2 is a gun shell, 2-1 is a battery bin, 2-1-1 is an electrode contact, 2-1-2 is a battery, 2-1-3 is a charging device, 2-2 is an air storage chamber, 2-3 is an air valve, 2-3-1 is a valve body, 2-3-1-1 is a front cavity, 2-3-1-2 is a rear cavity, 2-3-1-3 is an air exhaust port, 2-3-1-4 is an external thread, 2-3-2 is a return pressure spring, 2-3-3 is a valve plug, 2-3-4 is a valve needle, 2-3-4-1 is a valve needle head, 2-3-4-2 is a valve needle rod, 2-2-1 is an air outlet of an air storage chamber, 1-3-3-1 is an air inlet of a movement device 1-3, 1-1-3-1 is an optical coupling detector, 1-1-3-2 is a mode conversion switch, and 1-1-3-3 is an indicator light.
Detailed Description
A laser pistol for military police training comprises a pistol body 1 and a cartridge clip 2; the gun body 1 comprises a gun barrel assembly 1-1, a trigger assembly 1-2, a moving device 1-3, a firing device 1-4 and a gun rack assembly 1-5, a cartridge clip 2 comprises a battery compartment 2-1, an air storage chamber 2-2 and an air valve 2-3, the air outlet 2-2-1 of the air storage chamber 2-2 is connected with the air inlet 1-3-1 of the moving device 1-3, the air valve 2-3 is located at the air outlet 2-2-1 of the air storage chamber 2-2, the trigger assembly 1-2 is in contact with the firing device 1-4, the firing device 1-4 is in contact with the air valve 2-3, and compressed air is filled in the air storage chamber 2-2.
When the utility model is used for training, the trigger component 1-2 is triggered to trigger the trigger device 1-4, the trigger device 1-4 acts on the air valve 2-3 to open the air outlet 2-2-1 of the air storage chamber 2-2, the compressed air in the air storage chamber 2-2 enters the movement device 1-3 through the air outlet 2-2-1 and the air inlet 1-3-3-1 of the movement device 1-3, the movement device 1-3 is driven to move under the impact of the compressed air, and the simulation of recoil is realized through the movement of the movement device 1-3.
The gun barrel component 1-1 comprises a switching device 1-1-1, a laser 1-1-2, a control unit 1-1-3 and an electrode slot 1-1-4, the adapter device 1-1-1 is located at the front end of the gun barrel assembly 1-1, the laser 1-1-2 is located behind the adapter device 1-1-1, the control unit 1-1-3 is located behind the laser 1-1-2, the electrode slot 1-1-4 is located behind the control unit 1-1-3, one end of the control unit 1-1-3 is connected with the laser 1-1-2, the other end of the control unit 1-1-3 is connected with the electrode slot 1-1-4, and the battery compartment 2-1 is connected with the electrode slot 1-1-4.
The control unit 1-1-3 is internally provided with an optical coupler detector 1-1-3-1, a mode change-over switch 1-1-3-2 and an indicator light 1-1-3-3; the signal output end of the optical coupling detector 1-1-3-1 is connected with the first signal input end of the laser 1-1-2, the signal output end of the mode change-over switch 1-1-3-2 is connected with the second signal input end of the laser 1-1-2, the optical coupling detector 1-1-3-1 is used for detecting a firing signal, the mode change-over switch 1-1-3-2 is used for changing the use mode of the laser gun, and the indicator light 1-1-3-3 is used for displaying the firing state of the laser gun and the electric quantity of a battery.
The optimal model of the optical coupler detector 1-1-3-1 is EE-SX 672.
The mode switcher 1-1-3-2 is preferably of the type SS-12F 05.
The gun rack assembly 1-5 comprises a gun rack 1-5-1 and a gun shell 1-5-2, and the gun rack 1-5-1 is fixedly connected to the gun shell 1-5-2.
The trigger assembly 1-2 comprises a trigger 1-2-1, a connecting rod 1-2-2 and an A pin shaft 1-2-3, the trigger 1-2-1 is fixed on a gun frame 1-5-1 of the gun body frame assembly 1-5 through the A pin shaft 1-2-3, and the trigger 1-2-1 can rotate around the A pin shaft 1-2-3; the upper end of the trigger 1-2-1 is fixedly connected with the front end of the connecting rod 1-2-2, and the part of the trigger 1-2-1 fixedly connected with the connecting rod 1-2-2 is positioned above the pin shaft 1-2-3A; preferably, the upper end of the trigger 1-2-1 is fixedly connected with the front end of the connecting rod 1-2-2 through a pin B1-2-4; when the trigger 1-2-1 is pulled backwards, the trigger 1-2-1 rotates around the pin shaft A1-2-3, the upper end of the trigger 1-2-1 moves forwards to just shield the optical coupling detector 1-1-3-1 in the control unit 1-1-3 so as to trigger the laser 1-1-2, and the optical coupling detector 1-1-3-1 has higher detection precision, so that the accuracy of firing can be greatly improved, and the occurrence of a false touch condition is avoided; meanwhile, the trigger 1-2-1 is pulled backwards, the upper end of the trigger 1-2-1 also drives the connecting rod 1-2-2 to move forwards, and the trigger 1-2-1 drives the connecting rod 1-2-2 to move so as to trigger the trigger device 1-4.
The firing device 1-4 comprises a firing pin 1-4-2, the lower end of the firing pin 1-4-2 is fixed on a gun rack 1-5-1 of the gun rack component 1-5 through a C pin 1-4-3, the firing pin 1-4-2 can rotate around the C pin 1-4-3, the firing pin 1-4-2 is in contact with a connecting rod 1-2-2, and the part of the firing pin 1-4-2 in contact with the connecting rod 1-2-2 is positioned above the C pin 1-4-3; when the percussion is performed, the trigger 1-2-1 is pulled, the trigger 1-2-1 drives the connecting rod 1-2-2 to move forwards, and the connecting rod 1-2-2 pushes the firing pin 1-4-2 to move forwards, so that the firing pin 1-4-2 impacts the valve plug 2-3-3 on the air valve 2-3, and the air valve 2-3 is opened.
The connecting rod 1-2-2 is provided with a push plate, the push plate is positioned on one side of the connecting rod 1-2-2 facing the firing pin 1-4-2 and is positioned behind the firing pin 1-4-2 to be contacted with the firing pin 1-4-2, and when the trigger 1-2-1 drives the connecting rod 1-2-2 to move forwards, the push plate is used for pushing the firing pin 1-4-2 to move forwards.
The firing device 1-4 further comprises a press hammer 1-4-1, the press hammer 1-4-1 is pressed above the firing pin 1-4-2, the trigger 1-2-1 is pulled during firing, the trigger 1-2-1 drives the connecting rod 1-2-2 to move forwards to push the firing pin 1-4-2 to move forwards, and therefore the firing pin 1-4-2 is separated from the press hammer 1-4-1, and firing action is completed.
The press hammer 1-4-1 is connected and fixed on a gun rack 1-5-1 of the gun rack component 1-5 through a D pin shaft 1-4-4 and can rotate around the D pin shaft 1-4-4.
The moving device 1-3 comprises a piston 1-3-1, a bolt 1-3-2 and a cylinder 1-3-3, the piston 1-3-1 is fixedly connected with the bolt 1-3-2, the cylinder 1-3-3 is sleeved on the piston 1-3-1, the cylinder 1-3-3 is provided with an air inlet 1-3-1, and the air inlet 1-3-3-1 of the cylinder 1-3-3 is communicated with an air outlet 2-2-1 of the air storage chamber 2-2; compressed gas released from the gas outlet 2-2-1 of the gas storage chamber 2-2 enters the cylinder 1-3-3 through the gas inlet 1-3-3-1 of the cylinder 1-3-3 and pushes the piston 1-3-1 to move backwards, and the piston 1-3-1 moves backwards to drive the bolt 1-3-2 to move backwards, so that the movement device 1-3 generates the effect of moving backwards, and the simulation of recoil is realized.
The air inlet 1-3-3-1 of the air cylinder 1-3-3 is positioned in front of the piston 1-3-1, the piston 1-3-1 is inserted into the air cylinder 1-3-3 from the rear end of the air cylinder 1-3-3, the piston 1-3-1 can move back and forth in the air cylinder 1-3-3, and the rear end of the piston 1-3-1 is preferably fixedly connected with the bolt 1-3-2 through a fastener; the air intake port 1-3-3-1 of the cylinder 1-3-3 is preferably provided at the bottom of the cylinder 1-3-3.
The air valve 2-3 comprises a valve body 2-3-1, a return pressure spring 2-3-2, a valve plug 2-3-3 and a valve needle 2-3-4; wherein, the middle of the valve body 2-3-1 is provided with a cavity penetrating through the front and the back, the cavity comprises a front cavity 2-3-1-1, a back cavity 2-3-1-2, an exhaust port 2-3-1-3, the front cavity 2-3-1-1, the back cavity 2-3-1-2 and the exhaust port 2-3-1-3 which are communicated, the exhaust port 2-3-1-3 is positioned between the front cavity 2-3-1-1 and the back cavity 2-3-1-2, the cavity diameter of the front cavity 2-3-1-1 is smaller than that of the back cavity 2-3-1-2, the return pressure spring 2-3-2 is positioned in the back cavity 2-3-1-2, the outer diameter of the return pressure spring 2-3-2 is smaller than the inner diameter of the rear cavity 2-3-1-2, the front half part of the valve plug 2-3-3 penetrates through the return pressure spring 2-3-2 and then is fixedly connected with the rear end of the valve needle rod 2-3-4-2 of the valve needle 2-3-4, and the diameter of the rear half part of the valve plug 2-3-3 is larger than that of the return pressure spring 2-3-2 and is matched with the inner diameter of the rear cavity 2-3-1-2 of the valve body 2-3-1; the valve needle 2-3-4 comprises a valve needle head 2-3-4-1 and a valve needle rod 2-3-4-2, the valve needle head 2-3-4-1 is fixedly connected with the front end of the valve needle rod 2-3-4-2, the rear end of the valve needle rod 2-3-4-2 is fixedly connected with the front half part of the valve plug 2-3-3, the valve needle head 2-3-4-1 is positioned outside the air inlet at the front end of the front cavity 2-3-1-1 of the valve body 2-3-1, the diameter of the valve needle rod 2-3-4-2 is smaller than the inner diameter of the front cavity 2-3-1-1, an exhaust port 2-3-1-3 of the valve body 2-3-1 is communicated with an air inlet 1-3-3-1 on the moving device 1-3; normally, the valve needle rod 2-3-4-2 is positioned in the front cavity 2-3-1-1 of the valve body 2-3-1, the valve needle 2-3-4-1 just blocks and seals the front end air inlet of the front cavity 2-3-1-1, when the trigger 1-2-1 is pulled, the tail part of the valve plug 2-3-3 is pushed by the striker 1-4-2, the valve plug 2-3-3 is pushed to drive the valve needle head 2-3-4-1 and the valve needle rod 2-3-4-2 to move forwards, the rear half part of the valve plug 2-3-3 compresses the pressure spring to return 2-3-2, and at the moment, the front end air inlet of the front cavity 2-3-1-1 on the valve body 2-3-1 is opened, the compressed gas in the gas storage chamber 2-2 is released into the front cavity 2-3-1-1 through the front end gas inlet of the front cavity 2-3-1-1, because the diameter of the valve needle rod 2-3-4-2 is smaller than the inner diameter of the front cavity 2-3-1-1, a gas flow channel is formed between the valve needle rod 2-3-4-2 and the inner wall of the front cavity 2-3-1-1, the compressed gas in the gas storage chamber 2-2 enters the front cavity 2-3-1-1 and then sequentially passes through the gas flow channel, the gas outlet 2-3-1-3 and the gas inlet 1-3-3-1 of the cylinder 1-3-3 on the moving device 1-3 and then enters the cylinder 1-3-3 of the moving device 1-3 to push the piston 1-3-1 to the front cavity 2-3-1 The movement backwards drives the bolt 1-3-2 to move backwards further, so that the movement device 1-3 generates the effect of backward movement, and the simulation of recoil is realized; after the trigger action is finished, the trigger 1-2-1 is released by fingers, under the action of restoring force of the return pressure spring 2-3-2, the valve plug 2-3-3 and the valve needle 2-3-4 return to close the air inlet at the front end of the front cavity 2-3-1-1 and close the valve, and meanwhile, the striking needle 1-4-2, the connecting rod 1-2-2 on the trigger assembly 1-2 and the trigger 1-2-1 also return to wait for the next trigger 1-2-1 to be used after being triggered.
The outer surface of the valve body 2-3-1 is provided with external threads 2-3-1-4, the gas outlet 2-2-1 of the gas storage chamber 2-2 is provided with internal threads, the valve body 2-3-1 is preferably connected with the internal threads at the gas outlet 2-2-1 of the gas storage chamber 2-2 through the external threads 2-3-1-4 on the outer surface, and the gas outlet 2-3-1-3 of the valve body 2-3-1 is communicated with the gas outlet 2-2-1 of the gas storage chamber; compressed gas in the air storage chamber 2-2 can only enter the cavity in the middle of the valve body 2-3-1 through the front end air inlet of the front cavity 2-3-1-1, and other parts of the cavity in the middle of the valve body 2-3-1 are not communicated with the inside of the air storage chamber 2-2.
The front cavity 2-3-1-1 and the rear cavity 2-3-1-2 on the valve body 2-3-1 are both preferably cylindrical cavities, the valve needle rod 2-3-4-2 is preferably a cylindrical rod, the front half part and the rear half part of the valve plug 2-3-3 are both preferably cylindrical rods, and the diameter of the front half part of the valve plug 2-3-3 is smaller than that of the rear half part of the valve plug 2-3-3.
The top of the battery bin 2-1 is provided with an electrode contact 2-1-1, the battery bin 2-1 is internally provided with a battery 2-1-2, the bottom of the battery bin 2-1 is provided with a charging device 2-1-3, one end of the battery 2-1-2 is connected with the electrode contact 2-1-1, the other end of the battery 2-1-2 is connected with the charging device 2-1-3, and the electrode contact 2-1-1 is inserted into an electrode slot 1-1-4 of the gun barrel component 1-1; the clip 2 is detachable to simulate the function of loading and unloading a real clip by a real gun; when the gun is used specifically, after the cartridge clip 2 is installed on the gun body 1, the electrode contact 2-1-1 on the cartridge clip 2 is inserted into the electrode slot 1-1-4 of the gun tube component 1-1, so as to supply power to the control unit 1-1-3 and the laser 1-1-2 of the gun tube component 1-1; due to the adoption of the slot type power supply mode, compared with the traditional contact type and wire type, the stability of power supply is greatly improved.
The compressed gas is high-pressure compressed gas, preferably compressed carbon dioxide gas or compressed inert gas with the pressure of 3 MPa-9 MPa, and more preferably compressed inert gas with the pressure of 5 MPa-7 MPa.
The switching device 1-1-1 is used for installing a light spot regulator, and the size of a light spot of the laser gun can be regulated through the light spot regulator when the switching device is used, so that the laser gun can meet the use requirement of multiple training scenes; according to training requirements, a light spot adjuster can be installed by using the adapter device 1-1-1 at the front part of the gun barrel assembly 1-1, and the size of a laser light spot emitted by the laser 1-1-2 is adjusted by the light spot adjuster, so that the laser gun is suitable for various training scenes such as image target training, man-machine real-scene tactical training and the like.
The air storage chamber 2-2 can be directly filled with high-pressure compressed air, and can also be provided with air source devices such as a high-pressure air storage bottle and the like, and the air storage chamber 2-2 does not need an external air source or a pneumatic control device.
The high-pressure gas storage cylinder is disposable or rechargeable.
The cartridge clip 2 in the utility model releases high-pressure compressed gas into the moving device 1-3 through the gas storage chamber to drive the moving device 1-3 to act to generate recoil, and the cartridge clip 2 can effectively simulate the recoil generated when the real cartridge clip provides a cartridge and is ejected from the gun barrel in actual combat though being a simulated cartridge clip.
The utility model discloses concrete during operation: after the cartridge clip 2 is loaded, the electrode contact 2-1-1 of the cartridge clip 2 is inserted into the electrode slot 1-1-4 of the gun tube component 1-1, the control unit 1-1-3 and the laser 1-1-2 are electrified, and meanwhile, the air outlet 2-2-1 of the cartridge clip air storage chamber 2-2 is also communicated with the moving device 1-3; the trigger 1-2-1 is pulled, the optical coupling detector 1-1-3-1 of the control unit 1-1-3 is shielded after the trigger 1-2-1 is in place, so that the laser 1-1-2 is triggered to emit laser, the laser emission is completed, meanwhile, the connecting rod 1-2-2 moves along with the movement of the trigger 1-2-1, so that the triggering device 1-4 is triggered, the triggering device 1-4 knocks the air valve 2-3 of the cartridge clip 2 to release the air in the cartridge clip air storage chamber 2-2, the air enters the movement device 1-3 through the air outlet 2-2-1 of the air storage chamber 2-2 to supply energy to the movement device 1-3, and the movement device 1-3 moves so as to complete the recoil simulation.
The utility model relates to a laser pistol for military police training, which can complete recoil simulation without an external air source or a pneumatic control device, has the basic characteristics and functions of a real pistol (except the bullet emission function), such as appearance, weight, recoil, cartridge clip loading and unloading, and the like, vividly restores the basic characteristics and the use functions of the real gun, ensures the stability of power supply of the laser gun and the accuracy of laser triggering by utilizing a slot type power supply mode and a laser triggering mode of optical coupler detection, possess multiple functions such as point shooting, long sight simultaneously, be applicable to image target training, many training scenes such as man-machine confrontation live-action tactics training, the effectual fidelity that improves the simulated shooting training, solved prior art and needed external air supply, the defect that the power supply is unstable, laser is easily touched by mistake, the effectual fidelity that improves the simulated shooting training has promoted military police's shooting training effect.
Claims (10)
1. A laser pistol for military police training is characterized by comprising a pistol body (1) and a cartridge clip (2); wherein the gun body (1) comprises a gun barrel component (1-1), a trigger component (1-2), a moving device (1-3), a triggering device (1-4) and a gun rack component (1-5), the cartridge clip (2) comprises a battery chamber (2-1), an air storage chamber (2-2) and an air valve (2-3), an air outlet (2-2-1) of the air storage chamber (2-2) is connected with an air inlet (1-3-3-1) of the moving device (1-3), the air valve (2-3) is positioned at the air outlet (2-2-1) of the air storage chamber (2-2), the trigger component (1-2) is contacted with the triggering device (1-4), the triggering device (1-4) is contacted with the air valve (2-3), the air storage chamber (2-2) is filled with compressed gas.
2. The laser pistol for military police training of claim 1, characterized in that the frame assembly (1-5) comprises a frame (1-5-1) and a case (1-5-2), the frame (1-5-1) is fixedly connected to the case (1-5-2); the trigger assembly (1-2) comprises a trigger (1-2-1), a connecting rod (1-2-2) and an A pin shaft (1-2-3), the trigger (1-2-1) is fixed on a gun rack (1-5-1) of the gun rack assembly (1-5) through the A pin shaft (1-2-3), and the trigger (1-2-1) can rotate around the A pin shaft (1-2-3); the upper end of the trigger (1-2-1) is fixedly connected with the front end of the connecting rod (1-2-2), and the part of the trigger (1-2-1) fixedly connected with the connecting rod (1-2-2) is positioned above the pin shaft (1-2-3) A.
3. The laser pistol for military police training according to claim 2, wherein the barrel assembly (1-1) comprises an adapter (1-1-1), a laser (1-1-2), a control unit (1-1-3) and an electrode slot (1-1-4), the adapter (1-1-1) is positioned at the front end of the barrel assembly (1-1), the laser (1-1-2) is positioned behind the adapter (1-1-1), the control unit (1-1-3) is positioned behind the laser (1-1-2), the electrode slot (1-1-4) is positioned behind the control unit (1-1-3), one end of the control unit (1-1-3) is connected with the laser (1-1-2), the other end of the control unit (1-1-3) is connected with the electrode slot (1-1-4), and the battery bin (2-1) is connected with the electrode slot (1-1-4).
4. The laser pistol for military police training of claim 3 is characterized in that the control unit (1-1-3) is internally provided with an optocoupler detector (1-1-3-1), a mode change switch (1-1-3-2) and an indicator light (1-1-3-3); the signal output end of the optical coupling detector (1-1-3-1) is connected with the first signal input end of the laser (1-1-2), and the signal output end of the mode conversion switch (1-1-3-2) is connected with the second signal input end of the laser (1-1-2); when the trigger (1-2-1) is pulled, the upper end of the trigger (1-2-1) moves forwards to just shield the optical coupling detector (1-1-3-1) in the control unit (1-1-3).
5. The laser pistol for military police training as claimed in claim 2, wherein the firing device (1-4) comprises a firing pin (1-4-2), the lower end of the firing pin (1-4-2) is fixed on the frame (1-5-1) of the frame assembly (1-5) through a C-pin (1-4-3), the firing pin (1-4-2) can rotate around the C-pin (1-4-3), the firing pin (1-4-2) is in contact with the connecting rod (1-2-2), and the portion of the firing pin (1-4-2) in contact with the connecting rod (1-2-2) is located above the C-pin (1-4-3).
6. The laser pistol for military police training according to claim 5, characterized in that the firing device (1-4) further comprises a press hammer (1-4-1), the press hammer (1-4-1) pressing on the striker pin (1-4-2).
7. The laser pistol for military police training as claimed in claim 1, wherein the movement device (1-3) comprises a piston (1-3-1), a bolt (1-3-2) and a cylinder (1-3-3), the piston (1-3-1) is fixedly connected with the bolt (1-3-2), the cylinder (1-3-3) is sleeved on the piston (1-3-1), the cylinder (1-3-3) is provided with an air inlet (1-3-3-1), and the air inlet (1-3-3-1) of the cylinder (1-3-3) is communicated with an air outlet (2-2-1) of the air storage chamber (2-2).
8. The laser pistol for military police training as claimed in claim 7, wherein the air inlet (1-3-3-1) of the cylinder (1-3-3) is located in front of the piston (1-3-1), the piston (1-3-1) is inserted into the cylinder (1-3-3) from the rear end of the cylinder (1-3-3), and the piston (1-3-1) can move back and forth in the cylinder (1-3-3).
9. The laser pistol for military police training of claim 1, wherein the air valve (2-3) comprises a valve body (2-3-1), a return pressure spring (2-3-2), a valve plug (2-3-3) and a valve needle (2-3-4); wherein, the middle of the valve body (2-3-1) is provided with a cavity penetrating through the front and the back, the cavity comprises a front cavity (2-3-1-1), a back cavity (2-3-1-2) and an exhaust port (2-3-1-3), the front cavity (2-3-1-1), the back cavity (2-3-1-2) and the exhaust port (2-3-1-3) are communicated, the exhaust port (2-3-1-3) is positioned between the front cavity (2-3-1-1) and the back cavity (2-3-1-2), the cavity diameter of the front cavity (2-3-1-1) is smaller than that of the back cavity (2-3-1-2), the return pressure spring (2-3-2) is positioned in the rear cavity (2-3-1-2), the outer diameter of the return pressure spring (2-3-2) is smaller than the inner diameter of the rear cavity (2-3-1-2), the front half part of the valve plug (2-3-3) penetrates through the return pressure spring (2-3-2) and then is fixedly connected with the rear end of the valve needle rod (2-3-4-2) of the valve needle (2-3-4), and the diameter of the rear half part of the valve plug (2-3-3) is larger than that of the return pressure spring (2-3-2) and is matched with the inner diameter of the rear cavity (2-3-1-2) of the valve body (2-3-1); the valve needle (2-3-4) comprises a valve needle head (2-3-4-1) and a valve needle rod (2-3-4-2), the valve needle head (2-3-4-1) is fixedly connected with the front end of the valve needle rod (2-3-4-2), the rear end of the valve needle rod (2-3-4-2) is fixedly connected with the front half part of the valve plug (2-3-3), the valve needle head (2-3-4-1) is positioned outside an air inlet at the front end of a front cavity (2-3-1-1) of the valve body (2-3-1), the diameter of the valve needle rod (2-3-4-2) is smaller than the inner diameter of the front cavity (2-3-1-1), and an air outlet (2-3-1-3) and a movement device (1) of the valve body (2-3-1) The air inlets (1-3-3-1) on the-3) are communicated.
10. The laser pistol for military police training as claimed in claim 3, wherein the battery compartment (2-1) is provided with an electrode contact (2-1-1) at the top, the battery compartment (2-1) is provided with a battery (2-1-2) inside, the battery compartment (2-1) is provided with a charging device (2-1-3) at the bottom, one end of the battery (2-1-2) is connected with the electrode contact (2-1-1), the other end of the battery (2-1-2) is connected with the charging device (2-1-3), and the electrode contact (2-1-1) is inserted into the electrode slot (1-1-4) of the barrel assembly (1-1).
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN113776381A (en) * | 2021-10-27 | 2021-12-10 | 合肥君信电子科技有限公司 | Simulated shooting equipment based on pneumatic form |
CN113932648A (en) * | 2021-10-27 | 2022-01-14 | 合肥君信电子科技有限公司 | Pneumatic shooting simulator |
CN113945116A (en) * | 2021-10-27 | 2022-01-18 | 合肥君信电子科技有限公司 | Simulated impact device for shooting simulation |
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2019
- 2019-07-02 CN CN201921014934.5U patent/CN210464194U/en active Active
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
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CN113776381A (en) * | 2021-10-27 | 2021-12-10 | 合肥君信电子科技有限公司 | Simulated shooting equipment based on pneumatic form |
CN113932648A (en) * | 2021-10-27 | 2022-01-14 | 合肥君信电子科技有限公司 | Pneumatic shooting simulator |
CN113945116A (en) * | 2021-10-27 | 2022-01-18 | 合肥君信电子科技有限公司 | Simulated impact device for shooting simulation |
CN113776381B (en) * | 2021-10-27 | 2022-12-09 | 合肥君信电子科技有限公司 | Simulated shooting equipment based on pneumatic form |
CN113945116B (en) * | 2021-10-27 | 2022-12-30 | 合肥君信电子科技有限公司 | Simulated impact device for shooting simulation |
CN113932648B (en) * | 2021-10-27 | 2023-03-24 | 合肥君信电子科技有限公司 | Pneumatic shooting simulator |
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