CN217005514U - Police training laser gun - Google Patents

Abstract

The utility model discloses a police training laser gun, which comprises a sleeve seat and a handle which are connected with each other; a base is arranged on the sleeve seat, a trigger is hinged on the base, and a pushing piece is hinged in the middle of the trigger; the base is provided with a first sliding part in sliding fit with the base; the pushing piece is matched with the first sliding piece; the base is connected with a guide rod, and the guide rod penetrates through a first through hole in the pushing piece; a first elastic piece is arranged between the pushing piece and the base, and a second elastic piece is arranged between the first sliding piece and the base; the pushing piece is also provided with an inclined plane, the base is provided with a guide part, and the guide part is matched with the inclined plane. The police training laser gun provided by the utility model can simulate trigger triggering action and touch of a real gun, and is beneficial to improving training effect of simulating live ammunition shooting.

Description

Police training laser gun

Technical Field

The utility model relates to the field of laser guns for training, in particular to a training laser gun for police.

Background

For improving police or relevant personnel's firearms actual combat level, can adopt laser gun actual combat simulated training at present in the training, let training personnel divide into two sets of enemy promptly, use the laser gun to carry out the shooting fight. The closer the various environmental and equipment conditions are to the real environment during training, the greater the assistance to the trainee.

However, the current training laser guns have the following problems:

1) the trigger triggering structure of the existing laser gun for training is far from a real gun in use feedback for training personnel, the feeling of the real gun cannot be well simulated, once the personnel are put into actual combat, the discomfort can be generated, the shooting precision is seriously influenced, and the culture effect on the hand feeling is not good. In addition, the current laser cannot simulate the hand feeling of percussion of a hammer, and the problem that a laser transmitter is already triggered by half-stroke of trigger pulling also occurs, and the signal triggering mode has certain difference from the mode that only the trigger is pulled completely to trigger bullet shooting in a real gun;

2) the housing of the laser pistol is a whole body, and a back-chamber sleeve structure similar to a real gun does not exist. Personnel can not simulate the action of pulling the sleeve and loading for the pistol when training, are unfavorable for personnel to develop the custom of in time pulling the sleeve and loading after changing the magazine in training process, also are unfavorable for the information of various operations when system's backstage collection and statistics training personnel use laser pistol, lead to the training effect of simulation actual combat not good.

3) The laser pistol for training does not have a quitable magazine structure similar to a real pistol, cannot simulate the action of replacing the magazine by personnel after a single magazine bullet is shot at each time, is not favorable for the personnel to develop the habit of timely and quickly replacing the magazine in the training process, and is also not favorable for the background acquisition and statistics of various operation information of the training personnel when the training personnel use the laser pistol.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a police training laser gun which can simulate trigger triggering action and touch of a real gun and is beneficial to improving training effect of simulating live ammunition shooting.

In order to achieve the purpose, the utility model provides a training laser gun for police, which comprises a sleeve seat and a handle which are connected; a base is arranged on the sleeve seat, a trigger is hinged on the base, and a pushing piece is hinged in the middle of the trigger; the base is provided with a first sliding part in sliding fit with the base; the pushing piece is matched with the first sliding piece; the base is connected with a guide rod, and the guide rod penetrates through a first through hole in the pushing piece; a first elastic piece is arranged between the pushing piece and the base, and a second elastic piece is arranged between the first sliding piece and the base; the pushing piece is also provided with an inclined plane, the base is provided with a guide part, and the guide part is matched with the inclined plane.

As a further improvement of the utility model, the device also comprises a second sliding part, and a third elastic part is arranged between the second sliding part and the base; the base is provided with a first sliding chute, and the second sliding piece is provided with a first sliding block which is in sliding fit with the first sliding chute; a space is reserved between the pushing piece and the first sliding block which are positioned in the initial state; the second sliding part is provided with an induced end; the base is connected with an inductor corresponding to the sensed end.

As a further improvement of the utility model, the first sliding part comprises a sliding plate, a front baffle plate, a stop block and a rear limiting plate, wherein the front baffle plate, the stop block and the rear limiting plate are sequentially connected to the sliding plate from front to back; the guide rod penetrates through the front baffle and the rear limiting plate; the second elastic piece is arranged between the rear limiting plate and the base.

As a further improvement of the utility model, the pushing piece comprises a front limiting part, a side plate and a pushing part which are connected; the first through hole is formed in the front limiting part; the front side and the rear side of the front limiting part are respectively contacted with the front baffle of the first sliding part and the front end of the first elastic part; the pushing part corresponds to the stop block of the first sliding part, and the side plate corresponds to the first sliding block of the second sliding part; a space is reserved between the rear side of the side plate in the initial state and the first sliding block.

As a further improvement of the utility model, the gun barrel further comprises a sleeve, a barrel assembly and a base, wherein the barrel assembly is abutted up and down; the gun barrel assembly, the base and the sleeve seat are fixedly connected; the gun barrel assembly is positioned on the inner side of the sleeve and comprises a laser gun barrel and a gun barrel support which are connected in a front-back mode; the front end of the laser gun barrel penetrates through the front end of the sleeve and is in sliding fit with the sleeve; a recoil spring structure is arranged between the sleeve and the base; be equipped with collision limit structure between barrel support and the sleeve, collision limit structure includes corresponding first locating part and first collision piece.

As a further improvement of the utility model, the barrel support is provided with a collision piece sliding groove, and the first limiting piece is arranged at the front end of the collision piece sliding groove; the first collision piece is arranged on the inner wall of the sleeve and is in sliding fit with the collision piece sliding groove.

As a further improvement of the present invention, the first position-limiting member is detachably connected to the barrel support, and the barrel support is an aluminum member; the first collision piece and the sleeve are integrally formed; the first limiting piece and the first collision piece are both made of steel.

As a further improvement of the utility model, a magazine bin is arranged in the handle; the simulation magazine is matched with the magazine bin in an inserting mode, and a magazine tenon matched with the simulation magazine is arranged on the handle; a contact switch which can be pressed on the side wall of the simulation magazine is arranged on the side wall of the magazine; the contact switch is electrically connected with the controller.

As a further improvement of the utility model, an electrical appliance bin is also arranged in the handle, and the electrical appliance bin and the magazine bin are separated by a partition plate; the contact switch is arranged on the partition plate; the storage battery is arranged in the electrical appliance bin and is electrically connected with the controller; the controller is also connected with a power switch.

As a further improvement of the utility model, a magazine ejection mechanism is arranged between the bottom of the inner cavity of the magazine and the top of the simulation magazine.

Advantageous effects

Compared with the prior art, the police training laser gun has the advantages that:

1. when the trainer pulls the trigger, the pushing piece pushes the first sliding piece to move backwards in most of the front stroke. When the guide part of the base acts on the inclined plane of the pushing piece and the rear end of the pushing piece swings downwards, the part of the pushing piece pushing the first sliding piece deflects downwards until the pushing piece and the pushing piece are separated from each other, the trigger is continuously pulled at the moment, the pushing piece finishes the last small backward stroke, and the first sliding piece resets under the action of the second elastic piece. The first sliding part collides with the base to generate hitting sound, and the feeling of triggering of a real gun hammer is simulated. The trigger is released, and the pushing piece and the trigger are reset under the action of the first elastic piece. Through this trigger structure, trigger action and the sense of touch that can simulate real rifle are favorable to improving the training effect of simulation live ammunition shooting, and when personnel switched to real rifle from laser gun for the training, the difference of feeling is little, can not let training personnel produce uncomfortable sense.

2. And the pushing piece continues to move backwards after the trigger is pulled for the last half stroke, the second sliding piece is pushed to move backwards at the moment, and the position change of the second sliding piece is sensed by the sensor, so that the device can be used for outputting a signal for training personnel to finish the simulation of bullet firing action of the laser gun. Only the training personnel completely pull the trigger to do the whole-course action, the sensor outputs the signal, and the problem that the signal is output only by pulling half of the sensor by the trigger is avoided.

3. The laser device barrel can be internally provided with a laser device, and the base is used for installing a trigger. In operation, the sleeve is pulled backwards to move relative to the barrel assembly and the base; the sleeve is loosened, the sleeve resets under the action of the recoil spring structure, and the collision limiting structure is used for limiting to prevent the sleeve from being separated. This structure can let training simulate the action that the pulling sleeve was loaded for the pistol with laser pistol, improves the training effect of personnel simulation actual combat, lets personnel can not appear uncomfortable sense to the pistol in training and actual combat.

4. The first limiting part and the first collision part are made of steel, so that the first limiting part and the first collision part are high in hardness and are not easy to damage after long-term collision. The barrel support is an aluminum part, and the first limiting part is detachably connected with the barrel support. The aluminum product is lighter than steel, and the mode of combining the aluminum product and the steel product is adopted, so that the weight is reduced, the hardness of a local stress position is ensured, and the service life is prolonged.

5. Because of the pressure of the recoil spring structure, the second limiting part on the base is made of steel with higher hardness, and the whole service life of the base can be prolonged. The supporting part of the base and the bearing part of the gun barrel support are both made of steel, the bearing parts are lapped above the supporting parts, the hardness of the stressed part is high, the stressed part is not easy to wear, and the service life can be prolonged.

6. When the system displays that the laser gun bullet is completely shot, the personnel takes out the simulation magazine, the contact switch sends a signal to the system through the controller, and the situation that the magazine is withdrawn is displayed; after the person inserts the emulation magazine into the magazine storehouse again, the contact switch sends a signal to the system through the controller again, and the system shows that new magazine has been installed, helps letting software calculate and count the operation action of training personnel, standardizes the operation of training personnel to the laser gun for training to improve the effect of simulation actual combat training.

7. The storage battery is arranged in the grip, and the weight of the storage battery and the weight of the simulated magazine are utilized to simulate the weight of the grip of the real gun, so that the hand feeling of the laser gun is closer to that of the real gun, and the training effect is improved. The charging end of the charging connector of the storage battery is positioned on one side of the clapboard, which faces the magazine bin. After the simulation magazine is detached, the charger connector is connected with the charging connector of the storage battery, so that charging can be realized, and the operation is convenient.

8. When the simulated magazine needs to be ejected, the simulated magazine is ejected out of the magazine bin through the magazine ejection mechanism. The smoothness degree that emulation magazine withdrawed from is improved, blocks when avoiding emulation magazine need withdraw from, improves and uses the experience. After the simulated magazine is inserted into the magazine bin, the pressing part enables the elastic part to be extruded to generate elastic deformation, and preset elastic potential energy is formed. When the simulated magazine needs to be ejected, a person presses the button on the grip to unlock the tenon and the magazine, and the elastic piece releases elastic potential energy and ejects the simulated magazine. The structure is simple, the production cost is low, and the work is stable.

The utility model will become more apparent from the following description when taken in conjunction with the accompanying drawings which illustrate embodiments of the utility model.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a front view of a police training laser gun;

FIG. 2 is a front view of the simulated magazine;

FIG. 3 is a partial cross-sectional view of the grip of the laser gun;

FIG. 4 is a cross-sectional view of the emulation magazine;

FIG. 5 is a cross-sectional view of a laser gun replacement magazine trigger mechanism;

FIG. 6 is an enlarged view taken at A in FIG. 5;

FIG. 7 is an enlarged view of FIG. 5 at B;

FIG. 8 is a front view of a laser gun simulated live action firing trigger configuration;

FIG. 9 is a front view of the trigger and pusher;

FIG. 10 is a front view of the first slide;

FIG. 11 is a front view of the rear base;

FIG. 12 is a front view of the mounting plate and the second slide in an engaged state;

FIG. 13 is a bottom view, partially in section, of the engaged condition of the mounting plate and the second slider;

FIG. 14 is a schematic view of the second slider and the sensor in an operating state;

FIG. 15 is a front view of the guide bar;

FIG. 16 is a front view of the internal structure of the firing mechanism of the laser gun for simulating live ammunition shooting;

FIG. 17 is a rear view of the internal structure of the firing mechanism of the laser gun for simulating live action;

FIG. 18 is a front view of the sleeve;

FIG. 19 is a bottom view of the sleeve;

FIG. 20 is a front view of the barrel assembly;

FIG. 21 is an assembly view of the barrel assembly and the base;

FIG. 22 is a top view of the barrel assembly;

fig. 23 is one of the state views of the slide mechanism for simulating the breech sleeve of a pistol;

fig. 24 shows a second state diagram simulating the sliding structure of the breech block of a pistol.

Detailed Description

Embodiments of the present invention will now be described with reference to the accompanying drawings.

Examples

Detailed description of the utility modelas shown in fig. 1-24, a training laser gun for police use comprises a sleeve mount 28 and a grip 21 connected thereto. Be equipped with base 1 on the sleeve seat 28, articulated on the base 1 have trigger 2, and trigger 2 middle part still articulates there is impeller 3. The base 1 is provided with a first sliding part 4 which is in sliding fit with the base. The pusher 3 cooperates with a first slide 4. The base 1 is connected with a guide rod 7, and the guide rod 7 passes through a first through hole 35 on the pushing piece 3. A first elastic piece 9 is arranged between the pushing piece 3 and the base 1, and a second elastic piece 5 is arranged between the first sliding piece 4 and the base 1. The pushing piece 3 is also provided with an inclined plane 31, the base 1 is provided with a guide part 15, and the guide part 15 is matched with the inclined plane 31. The first through hole 35 and the inclined surface 31 are located on the front side and the rear side of the pusher 3, respectively. The first through hole 35 is in clearance fit with the guide rod 7, so that the pushing piece 3 can slide back and forth along the guide rod 7, and the rear end of the pushing piece 3 can swing up and down in a small range relative to the guide rod 7.

Police training laser gun still includes second slider 6, is equipped with third elastic component 8 between second slider 6 and the base 1. The base 1 is provided with a first sliding groove 16, and the second sliding part 6 is provided with a first sliding block 62 which is in sliding fit with the first sliding groove 16. In this embodiment, the first sliding groove 16 is a through groove and is disposed on the side wall of the front base 11. A space is reserved between the pushing piece 3 and the first sliding block 62 in the initial state, and the pushing piece 3 can not push the first sliding block 62 in the first half of the trigger 2. The second slider 6 is provided with a sensed end 61. The base 1 is connected with an inductor 10 corresponding to the sensed end 61. The sensor 10 may be a distance sensor, and the sensor is electrically connected to the controller. A controller (not shown) may be mounted in a control box located on the sleeve mount 28.

The first elastic member 9, the second elastic member 5 and the third elastic member 8 are all springs. The first elastic element 9 and the second elastic element 5 are sleeved outside the guide rod 7.

The base 1 includes a front base 11 and a rear base 12 connected by screws. The guide rod 7 is inserted into the front base 11 and the rear base 12. The trigger 2, the pushing member 3, the first sliding member 4 and the first elastic member 9 are all positioned on a front base 11. The inductor 10 is mounted on a mounting portion 13 of the rear base 12. The guide portion 15 is provided at the front end of the rear base 12. When the front base 11 and the rear base 12 are installed, the guide portion 15 of the front end of the rear base 12 is located in the inner cavity of the front base 11. The base 1 further comprises a mounting plate 14, the mounting plate 14 is mounted on the front base 11 through screws, and the second sliding member 6 is matched with the mounting plate 14 through a third elastic member 8.

The first slider 4 includes a sliding plate 41, a front stopper 42, a stopper 44, and a rear stopper 43, and the front stopper 42, the stopper 44, and the rear stopper 43 are sequentially connected to the lower side of the sliding plate 41 from front to rear. The sliding plate 41 is located on the outer side of the top of the front base 11 and is in sliding fit with the front base 11, the front baffle 42 and the stopper 44 extend into the inner cavity of the front base 11, the rear limiting plate 43 is located on the outer side of the rear end of the front base 11, and the rear end of the front base 11 limits the rear limiting plate 43. The guide rod 7 penetrates through the front baffle plate 42 and the rear limiting plate 43, and both the front baffle plate 42 and the rear limiting plate 43 are in sliding fit with the guide rod 7. The second elastic member 5 is disposed between the rear side of the rear stopper plate 43 and the front end of the rear base 12 of the base 1.

The pushing member 3 includes a front stopper 32, a side plate 34, and a pushing portion 33 connected. The first through hole 35 is provided on the front stopper portion 32. The front and rear sides of the front stopper 32 are in contact with the front flap 42 of the first slider 4 and the front end of the first elastic member 9, respectively. The pushing portion 33 corresponds to the stopper 44 of the first slider 4, and the side plate 34 corresponds to the first slider 62 of the second slider 6. A space is left between the rear side of the side plate 34 in the initial state and the first slider 62.

In the present embodiment, the inclined surface 31 is provided on the side plate 34 of the pusher 3.

When the trainee pulls the trigger 2, the pushing portion 33 of the pushing member 3 pushes the stopper 44 of the first slider 4 to move the first slider 4 backward most of the previous stroke. When the guide portion 15 of the base 1 acts on the inclined surface 31 of the pushing member and swings the rear end of the pushing member 3 downward, the pushing portion 33 of the pushing member 3 also deflects downward until the pushing portion 33 and the stopper 44 are disengaged from each other. At this point, the trigger 2 is pulled continuously, the pushing member 3 completes the last small backward stroke, and the first sliding member 4 is reset under the action of the second elastic member 5. The rear stopper 43 of the first slider 4 collides with the rear end of the front base 11 to generate a hitting sound, simulating the feeling of triggering a real gun hammer. And (3) pulling the trigger 2 for the last small half stroke, continuously moving the pushing piece 3 backwards, pushing the first sliding block 62 of the second sliding piece 6 by the back side of the side plate 34 at the moment, enabling the sensed end 61 of the second sliding piece 6 to move backwards, sensing the position change of the second sliding piece 6 through the sensor 10, and outputting a signal for training personnel to finish the simulation bullet firing action of the laser gun. The trigger 2 is released and the pusher 3 and trigger 2 are reset by the first resilient member 9.

The training laser gun for police further comprises a sleeve 17, a barrel assembly 18 which is abutted up and down and a base 1. The barrel assembly 18, base 1 and sleeve mount 28 are fixedly attached. Barrel assembly 18 is located inside sleeve 17 and barrel assembly 18 includes a laser barrel 181 and a barrel support 182 connected in tandem. The front end of the laser barrel 181 extends out of the front end of the sleeve 17 and the sleeve are in sliding fit. A recoil spring structure 20 is provided between the sleeve 17 and the base 1. A collision limiting structure is disposed between barrel support 182 and sleeve 17, and includes a first limiting member 184 and a first collision member 171, which are both made of steel.

In this embodiment, the barrel support 182 has a lower connecting portion 187 at the bottom, the lower connecting portion 187 extends into the inner side of the recoil spring sheath 111 of the base 1, and the lower connecting portion 187 is fixed to the base 1 by a bolt.

The barrel holder 182 has a striker slide groove 183 formed at the top thereof, and a first stopper 184 is disposed at the front end of the striker slide groove 183. The first striker 171 is disposed on the inner wall of the sleeve 17, and the first striker 171 is slidably engaged with the striker slide groove 183.

The first retainer 184 is detachably connected to the barrel support 182, specifically, by screws, and the barrel support 182 is made of aluminum. The first striker 171 and the sleeve 17 are integrally molded. The first limiting member 184 and the first striker 171 are both made of steel. The sleeve 17 is also of steel.

The base 1 is provided with a second limiting member 112. The recoil spring structure 20 includes a first spring 204, a first baffle 201 and a guide rod 203 connected in tandem, and a second slider 202 is slidably connected to the guide rod 203. The rear end of the guide rod 203 abuts against the second limiting member 112 of the base 1, the first spring 204 is located between the second slider 202 and the second limiting member 112, and the first spring 204 is sleeved outside the guide rod 203. The front end of the sleeve 17 is further provided with a lower convex part 172, the guide rod 203 passes through the lower convex part 172 and is in sliding fit with the lower convex part 172, and the rear side of the lower convex part 172 is in contact with the second slider 202. The second limiting member 112 is a steel member. When the sleeve 17 is pulled backwards, the lower protrusion 172 drives the second slider 202 to compress the first spring 204 backwards; when the sleeve 17 is released, the second slider 202 drives the sleeve 17 to reset under the action of the first spring 204.

The base 1 includes a recoil spring casing 111, the second limiting member 112 is fixed inside the recoil spring casing 111, the recoil spring structure 20 is located inside the recoil spring casing 111, and the outer edge of the lower protrusion 172 of the sleeve 17 is in sliding fit with the inner wall of the recoil spring casing 111.

Base 1 is also provided with a support portion and barrel support 182 is provided with a bearing portion. The bearing portion of barrel mount 182 overlaps the support portion of base 1. The supporting part and the supporting part are both made of steel.

In the present embodiment, the base 1 includes a front base 11 and a rear base 12 connected by screws. The support part includes a front support part 113 and a rear support part 121, the front support part 113 being detachably coupled to the front base 11, and the rear support part 121 being disposed on the rear base 12. The bearing portion includes a front bearing portion 185 and a rear bearing portion 186 both detachably connected to the barrel holder 182 by screws, and both the bearing portion 185 and the rear bearing portion 186 are plates. The front bearing 185 overlaps the front support 113 and the rear bearing 186 overlaps the rear support 121. The front base 11 is made of aluminum, and the rear base 12 is made of steel as a whole.

In operation, sleeve 17 is pulled rearwardly to move relative to barrel assembly 18 and base 1; the sleeve 17 is released and it is reset by the recoil spring structure 20, and the first stop member 171 on the sleeve 17 is stopped by the first stop member 184 on the barrel assembly 18, preventing the sleeve 17 from being removed. This structure can let training simulate the action that the pulling sleeve was loaded for the pistol with laser pistol, improves the training effect of personnel simulation actual combat, lets personnel can not appear the uncomfortable sense to the pistol in training and actual combat.

The handle 21 is provided with a magazine 213. The magazine also comprises a simulation magazine 22 which is matched with the magazine bin 213 in an inserting way, and a magazine tenon 24 which is matched with the simulation magazine 22 is arranged on the handle 21. The magazine tenon 24 is linked with the button on the handle 21, and the simulated magazine 22 is provided with a magazine slot 221 matched with the magazine tenon 24, and the working principle of the part is the same as that of a real gun. The side wall of the magazine bin 213 is provided with a contact switch 23 which can be pressed on the side wall of the simulation magazine 22. The contact switch 23 is electrically connected to a controller.

An electrical bin 214 is also arranged in the handle 21, and the electrical bin 214 is separated from the magazine bin 213 through a partition 215. The contact switch 23 is provided on the partition 215. The switch casing 234 is fixed in the electrical compartment 214, and can be fixed by clamping, bonding or screws. Switch contact 231 passes through a through hole in spacer 215.

The storage battery 25 is installed in the electrical appliance cabin 214, and the storage battery 25 is electrically connected with the controller. The controller is also connected to a power switch 27. A charging connector 26 is connected to the battery 25. The charging end of the charging connector 26 is located on the side of the partition 215 facing the magazine bin 213. The charging connector 26 is provided with a positive electrode terminal 261 and a negative electrode terminal 262. The operating end of the power switch 27 is located on the side of the partition 215 facing the magazine 213. The power switch 27 is a toggle switch. The charging end of the charging connector 26 and the operation end of the power switch 27 do not protrude from the end surface of the partition 215 facing the magazine chamber 213, and therefore interference with the dummy magazine 22 is avoided.

The handle 21 is covered with an electrical bin cover 211 corresponding to the electrical bin 214, and the electrical bin cover 211 is fastened with the edge of the opening of the electrical bin 214 and can be connected with the opening through screws. When the electrical compartment cover 211 is opened, the storage battery and the contact switch 23 may be replaced.

A magazine ejection mechanism is arranged between the bottom of the inner cavity of the magazine bin 213 and the top of the simulated magazine 22. The magazine ejection mechanism includes a pressing portion 216 and an elastic portion corresponding to each other. One of the pressing portion 216 and the elastic portion is disposed at the bottom of the inner cavity of the magazine chamber 213, and the other is disposed at the top of the dummy magazine 22. In this embodiment, the pressing portion 216 is a protrusion disposed at the bottom of the cavity of the magazine chamber 213, and the elastic portion is disposed at the top of the simulated magazine 22.

The elastic part includes a second slider 222 and a second spring 224 connected. The inner side of the simulated magazine 22 is provided with a second sliding slot 223, the opening of the second sliding slot 223 is located at the top of the simulated magazine 22, and the bottom of the second sliding slot 223 is connected with one end of a second spring 224. The top end of the second sliding block 222 is located at the opening of the second sliding slot 223 and corresponds to the pressing part 216, and in a natural state, the top end of the second sliding block 222 is substantially flush with the opening of the second sliding slot 223. The second slider 222 is slidably engaged with the second sliding groove 223. The dummy magazine 22 has a weight 225 mounted therein.

The handle 21 is further provided with a vibrator 29, and the vibrator 29 is electrically connected with the controller. In this embodiment, the vibrator 29 is a vibration motor and is installed in the electric cabinet 214.

After the simulated magazine 22 is inserted into the magazine chamber 213, the pressing portion presses the elastic portion to generate elastic deformation, thereby forming a predetermined elastic potential energy. When the simulated magazine 22 needs to be ejected, a person presses a button on the handle to unlock the tenon 24 from the magazine, and the elastic member releases elastic potential energy to eject the simulated magazine. The structure is simple, the production cost is low, and the work is stable.

The laser gun may be computer-controlled to set a virtual number of rounds, for example, 6 rounds or 15 rounds per reloaded magazine. When the background system shows that the laser gun bullet is completely shot, the controller sends a signal to the vibrator 29 to vibrate the vibrator to remind personnel that the bullet is completely shot. The person takes out the simulation magazine 22, the contact switch 23 sends a signal to the system through the controller, and the magazine is displayed to exit; after the person inserts the simulation magazine 22 into the magazine bin 213 again, the contact switch 23 sends a signal to the system through the controller, and the system displays that the new magazine is installed, so that the software can calculate and count the operation actions of the training person, the operation of the training person on the laser gun for training is standardized, and the effect of simulating actual combat training is improved.

The present invention has been described in connection with the preferred embodiments, but the present invention is not limited to the embodiments disclosed above, and is intended to cover various modifications, equivalent combinations, which are made in accordance with the spirit of the present invention.

Claims (10)

1. A training laser gun for police is characterized by comprising a sleeve seat (28) and a handle (21) which are connected; a base (1) is arranged on the sleeve seat (28), a trigger (2) is hinged on the base (1), and a pushing piece (3) is hinged in the middle of the trigger (2); a first sliding part (4) which is in sliding fit with the base (1) is arranged on the base; the pushing piece (3) is matched with the first sliding piece (4); the base (1) is connected with a guide rod (7), and the guide rod (7) penetrates through a first through hole (35) in the pushing piece (3); a first elastic piece (9) is arranged between the pushing piece (3) and the base (1), and a second elastic piece (5) is arranged between the first sliding piece (4) and the base (1); an inclined plane (31) is further arranged on the pushing piece (3), a guide part (15) is arranged on the base (1), and the guide part (15) is matched with the inclined plane (31).

2. A police training laser gun as claimed in claim 1, characterised by further comprising a second slider (6), a third resilient member (8) being provided between the second slider (6) and the base (1); a first sliding groove (16) is arranged on the base (1), and a first sliding block (62) which is in sliding fit with the first sliding groove (16) is arranged on the second sliding part (6); a space is reserved between the pushing piece (3) in the initial state and the first sliding block (62); the second sliding part (6) is provided with an induced end (61); the base (1) is connected with an inductor (10) corresponding to the induced end (61).

3. The police training laser gun according to claim 2, characterized in that the first sliding part (4) comprises a sliding plate (41), a front baffle (42), a stop block (44) and a rear limiting plate (43), wherein the front baffle (42), the stop block (44) and the rear limiting plate (43) are sequentially connected to the sliding plate (41) from front to back; the guide rod (7) penetrates through the front baffle (42) and the rear limiting plate (43); the second elastic piece (5) is arranged between the rear limit plate (43) and the base (1).

4. Police training laser gun as claimed in claim 3, characterised by that the push member (3) consists of a front stop (32), side plates (34) and a push part (33) connected; the first through hole (35) is formed in the front limiting part (32); the front side and the rear side of the front limiting part (32) are respectively contacted with a front baffle (42) of the first sliding part (4) and the front end of the first elastic part (9); the pushing part (33) corresponds to the stop block (44) of the first sliding part (4), and the side plate (34) corresponds to the first sliding block (62) of the second sliding part (6); a distance is reserved between the rear side of the side plate (34) in the initial state and the first sliding block (62).

5. A police training laser gun as claimed in claim 1 further comprising a sleeve (17), a barrel assembly (18) abutting up and down and a base (1); the gun barrel assembly (18), the base (1) and the sleeve seat (28) are fixedly connected; the barrel assembly (18) is positioned on the inner side of the sleeve (17), and the barrel assembly (18) comprises a laser barrel (181) and a barrel support (182) which are connected in a front-back mode; the front end of the laser gun barrel (181) penetrates out of the front end of the sleeve (17) and the two are in sliding fit; a recoil spring structure (20) is arranged between the sleeve (17) and the base (1); a collision limiting structure is arranged between the barrel support (182) and the sleeve (17), and comprises a first limiting part (184) and a first collision part (171) which correspond to each other.

6. A police training laser gun as claimed in claim 5, wherein the barrel support (182) is provided with a striker slide groove (183), and the first stop member (184) is provided at the front end of the striker slide groove (183); the first collision member (171) is arranged on the inner wall of the sleeve (17), and the first collision member (171) is in sliding fit with the collision member sliding groove (183).

7. A police training laser gun as claimed in claim 6 wherein the first stop (184) is releasably attached to the barrel support (182) and the barrel support (182) is of aluminium; the first collision piece (171) and the sleeve (17) are integrally formed; the first limiting member (184) and the first striker (171) are both made of steel.

8. The police training laser gun of claim 1, wherein a magazine (213) is provided in the grip (21); the magazine handle is characterized by also comprising a simulation magazine (22) which is in plug-in fit with the magazine bin (213), and a magazine tenon (24) which is matched with the simulation magazine (22) is arranged on the handle (21); a contact switch (23) which can be pressed on the side wall of the simulation magazine (22) is arranged on the side wall of the magazine bin (213); the contact switch (23) is electrically connected with a controller.

9. The police training laser gun as claimed in claim 8, wherein an electrical compartment (214) is further arranged in the handle (21), and the electrical compartment (214) is separated from the magazine compartment (213) by a partition plate (215); the contact switch (23) is arranged on the partition plate (215); a storage battery (25) is installed in the electrical appliance bin (214), and the storage battery (25) is electrically connected with the controller; the controller is also connected with a power switch (27).

10. The police training laser gun of claim 8, wherein a magazine ejection mechanism is provided between the bottom of the cavity of the magazine (213) and the top of the simulated magazine (22).

Images