CN210862370U - Laser pistol is used in training - Google Patents

Abstract

The utility model discloses a laser pistol for training, which comprises a pistol frame structure, wherein a laser emission component and a gas propulsion component are arranged in the pistol frame structure; the laser emission assembly is used for sending a shooting signal to the electronic target through a muzzle after a trigger (50) is pulled; the gas propulsion assembly is configured to provide a simulated recoil to the frame structure upon actuation of a trigger (50). The embodiment of the utility model provides a through gaseous propulsion subassembly, as the source that produces recoil, the vibration effect when having simulated real pistol percussion.

Description

Laser pistol is used in training

Technical Field

The utility model relates to a simulation training, recreation entertainment technical field especially relate to a laser pistol is used in training.

Background

The simulated firearms have the defects which are difficult to overcome in the fields of shooting games and indoor simulation training:

(1) the generation technology of recoil of the simulation gun is always a difficult point for research, the simulation gun with vibration sense in the existing large-scale game basically utilizes acousto-optic and action effects generated by combining an electronic technology and a mechanical technology to obtain interestingness, but the simulation gun of the type needs to directly exert a vibration effect on a gun body in a mode of installing an electromagnetic vibrator and the like, so that the consumption of the gun body is very serious, and high-power electricity storage equipment needs to be matched.

(2) Most of individual training simulation equipment such as handguns, rifles and the like are realized by mounting professional laser transmitters on real firearms and using the professional laser transmitters and the real firearms in a matching way. In the training mode, a trainer shoots a target by using a real gun with an empty-packed bullet and emits laser to hit the target, although the reality sense is strong, the trainer still has certain danger when using the empty-packed bullet to hit an opponent in a short distance, and the simulation training cannot be carried out indoors. In addition, the laser transmitter matched with the firearm and the empty-packed bomb used by the firearm can improve the training cost.

SUMMERY OF THE UTILITY MODEL

An embodiment of the utility model provides a laser pistol is used in training for can not produce the problem of true recoil impression when the emulation firearms of solution simulation training, amusement field use.

The embodiment of the utility model provides a training laser pistol, which comprises a pistol frame structure, wherein a laser emission assembly and a gas propulsion assembly are arranged in the pistol frame structure;

the laser emission assembly is used for sending a shooting signal to the electronic target through a muzzle after the trigger 50 is pulled;

the gas propulsion assembly is used to provide a simulated recoil to the frame structure upon actuation of the trigger 50.

Optionally, the gas propulsion assembly comprises a propulsion rod 45, a propulsion rod return spring 43, a valve seat spring seat 4, a firing shaft connector 46, a trigger slider 56 and a firing lever 48;

wherein, the one end of pushing ram 45 is connected to pushing ram reset spring 43, the other end of pushing ram 45 is connected to the one end of disk seat spring holder 4, fixed cover is equipped with on the pushing ram 45 percussion shaft connector 46, be connected with on the percussion shaft connector 46 percussion lever 48, trigger slider 56 activity cover is established on the pushing ram 45, just trigger slider 56 set up in percussion shaft connector 46 with between trigger (50), trigger slider 56 is used for pulling the anterior segment of trigger 50 promotes percussion shaft connector 46 is in order to carry out the percussion energy storage and pulling the back end drive of trigger 50 percussion shaft connector 46 releases percussion lever 48 is in order to trigger laser emission subassembly sends the firing signal.

Optionally, the trigger slider 56 is further connected to the gun body structure through a trigger slider return spring, and the trigger slider return spring is sleeved on the cylindrical pin 53.

Alternatively, one end of the push lever 45 is connected to the push lever return spring 43 through the push lever spring holder 41.

Optionally, the gun body structure further includes: upper housing cover rear seat 61, upper housing cover 62, piston cylinder 74 and gas cylinder 12

One end of the upper shell cover 62, which is far away from the muzzle, is provided with the upper shell cover rear seat 61, the piston cylinder 74 is arranged in the upper shell cover rear seat 61, and the piston cylinder 74 is connected to the gas tank 12 through the valve seat spring seat 4;

a valve seat spring 3 is arranged in the valve seat spring seat 4, the other end of the valve seat spring seat 4 is connected to an air inlet of the air tank 12, and after the trigger 50 is pulled, the push rod 45 pushes the valve seat spring seat 4 to communicate with an air passage between an air outlet of the air tank 12 and the piston cylinder 74.

Optionally, the gas tank 12 is disposed in the holding portion of the gun body structure, the gas outlet of the gas tank 12 includes a gas chamber plug screw 18, a plug screw sealing ring 20 and an air inlet nozzle 19, which are sequentially disposed, and a valve seat sealing gasket 5 is further disposed between the valve seat spring seat 4 and the gas path of the gas outlet of the gas tank 12.

The laser emission assembly comprises an infrared emitter 1, an induction sheet 57 and an infrared tube switch, and the infrared emitter 1 is arranged in a muzzle of the gun body structure;

the infrared tube switch is arranged in a shooting loop formed by the infrared emitter 1, and when the trigger 50 is in an initial state, the shooting loop is in a conducting state;

trigger 50's one end with trigger slider 56 contacts, movable mounting has on the trigger slider 56 response piece 57 is being pulled the back end of trigger 50, percussion shaft connector 46 kick-backs and drives response piece 57 shelters from the infrared tube switch is in order to cut off the shooting return circuit sends the shooting signal.

Optionally, the laser pistol further comprises a power supply assembly, which comprises a battery 13, which is connected to an electrode contact 22 via an electrode contact seat 21, the battery 13 supplying power to the laser emitting assembly via the electrode contact 22.

Optionally, the body structure is further provided with a magazine, the battery 13 and the gas tank 12 being arranged in the magazine.

Optionally, the size and weight of the frame structure is the same as a live ammunition gun.

The embodiment of the utility model provides a through gaseous propulsion subassembly, as the source that produces recoil, the vibration effect when having simulated real pistol percussion has gained positive technological effect.

The above description is only an overview of the technical solutions of the present invention, and in order to make the technical means of the present invention more clearly understood, the present invention may be implemented according to the content of the description, and in order to make the above and other objects, features, and advantages of the present invention more obvious and understandable, the following detailed description of the present invention is given.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the invention. Also, like reference numerals are used to refer to like parts throughout the drawings. In the drawings:

fig. 1 is a schematic diagram of a training pistol according to an embodiment of the present invention;

fig. 2 is a diagram of the outline of a training pistol according to an embodiment of the present invention;

FIG. 3 is a diagram of an initial firing state of a training pistol according to an embodiment of the present invention;

FIG. 4 is a drawing showing the trigger unhooking state of the training pistol according to the embodiment of the present invention;

FIG. 5 is a diagram illustrating a trigger-sensing open state of a training pistol according to an embodiment of the present invention;

fig. 6 is a diagram of the venting state of a training pistol in accordance with an embodiment of the present invention;

fig. 7 is a diagram of the trigger reset state of the training pistol according to the embodiment of the present invention;

fig. 8 is a diagram of the training pistol piston reset state in accordance with the embodiment of the present invention.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

The embodiment of the utility model provides a laser pistol for training, which comprises a pistol body structure,

fig. 1 and 2 show schematic diagram level outline structure diagrams of a training pistol according to an embodiment of the present invention, wherein in this embodiment, the size and weight of the body structure are the same as those of a live ammunition gun, such as the body structure shown in fig. 1, which comprises an infrared emitter 1, a seal 2, a valve seat spring 3, a valve seat spring seat 4, a valve seat gasket 5, a valve seat body 6, a valve seat core 7, a gun stock cylinder 8, a gun stock base outer cover 9, a gun stock base, a gas tank pre-tightening plug screw 11, a gas tank 12, a battery 13, an M3X8 hexagon socket screw 14, a power circuit board 15, a M2.5X8 cross-groove pan head screw 16, a circuit board buckle 17, a gas chamber plug screw 18, an air inlet nozzle 19, a plug seal ring 20, an electrode contact base 21, an electrode contact 22, a gun stock safety plug 23, a safety plug snap spring 24, a gas nozzle 25, a lock 26, a lock catch 27, a reset spring 28, an M3X3 socket set, M2.5X6 cross recessed pan head self tapping locking screw 30, upper case cover reset spring 31, firing mechanism seat 32, trigger shaft 33, trigger torsion spring 34, contact connecting plate 35, right contact 36, left contact 37, pull rod sleeve 38, excitation mechanism seat rear closing plate 39, M2.5X8 cross recessed pan head self tapping locking screw 40, push rod spring seat 41, push rod front guide sleeve 42, push rod reset spring 43, BOX-TRSS2.5-5 screw 44, push rod 45, firing shaft connector 46, 2X12.4 cylindrical pin 47, firing lever 48, firing lever reset spring 49, trigger 50, light emitting diode 51, infrared ray receiving tube 52, 3X25 cylindrical pin 53, trigger block reset spring 54, M4X4 internal set screw 55, hexagonal slider 56, sensing plate 57, snap spring 58, upper case cover front closing plate 59, M3X35 internal hexagonal head screw 60, upper rear seat 61, upper case cover 62, lower case cover right half 63, lower shell left half 64, ST2.9X9.5 crosshead self-tapping screws 65, 4X27.5 cylindrical pins 66, barrel holder 67, M2.5X12 crosshead head screws 68, rear shell valve seat 69, barrel rear end 70, gun front end 71, barrel ball 72, barrel ball retainer 73, and piston barrel 74.

In this embodiment, a laser emission assembly and a gas propulsion assembly are arranged in the gun body structure;

the laser emission assembly is used for sending a shooting signal to the electronic target through a muzzle after the trigger 50 is pulled;

the gas propulsion assembly is used to provide a simulated recoil to the frame structure upon actuation of the trigger 50.

The gas propulsion assembly comprises a propulsion rod 45, a propulsion rod return spring 43, a valve seat spring seat 4, a firing shaft connector 46, a trigger slider 56 and a firing lever 48;

wherein, the one end of pushing ram 45 is connected to pushing ram reset spring 43, the other end of pushing ram 45 is connected to the one end of disk seat spring holder 4, fixed cover is equipped with on the pushing ram 45 percussion shaft connector 46, be connected with on the percussion shaft connector 46 percussion lever 48, trigger slider 56 activity cover is established on pushing ram 45, just trigger slider 56 set up in percussion shaft connector 46 with between the trigger 50, trigger slider 56 is used for driving the anterior segment of trigger 50 promotes percussion shaft connector 46 in order to carry out the percussion energy storage and in the pull the back end drive of trigger 50 percussion shaft connector 46 releases percussion lever 48 is in order to trigger laser emission subassembly sends the shooting signal, percussion shaft connector 46 still need cooperate the inclined plane that sets up in barrel seat 67 to realize releasing the function of percussion lever 48 in the actual percussion process, the firing shaft connector 46 is provided with a tip which moves on an inclined plane arranged on the gun barrel seat 67 in the gun muzzle direction with the firing coupling 46 in the firing process, after the firing shaft connector and the firing coupling 46 move to an inclined plane designated position, the trigger 50 is continuously triggered, and the tip cannot move continuously, so that the trigger slider 56 can drive the firing lever 48 to rotate at the moment, the function of releasing the firing lever 48 is realized, and after the firing lever 48 is released, the energy required by firing is stored by the push rod reset spring 43, and then the push rod reset spring 43 drives the push rod 45 to fire.

Optionally, the trigger slider 56 is further connected to the gun body structure through a trigger slider return spring, the trigger slider return spring is sleeved on the cylindrical pin 53, the trigger slider return spring is used for storing force for the trigger slider return spring in the trigger 50 pulling process, and the trigger slider return spring drives the trigger slider 56 to restore to the position to be fired through restoring force after the trigger 50 is loosened.

In this embodiment, the gun body structure comprises an upper cover 62, one end of the upper cover 62 away from the muzzle is provided with an upper cover rear seat 61, a piston cylinder 74 is arranged in the upper cover rear seat 61, and the piston cylinder 74 is connected to the gas tank 12 through the valve seat spring seat 4;

a valve seat spring 3 is arranged in the valve seat spring seat 4, the other end of the valve seat spring seat 4 is connected to an air inlet of the air tank 12, and after the trigger 50 is pulled, the push rod 45 pushes the valve seat spring seat 4 to communicate with an air passage between an air outlet of the air tank 12 and the piston cylinder 74. In this embodiment, a high-pressure compressed gas is stored in the gas tank, and after the gas passage between the gas outlet of the gas tank 12 and the piston cylinder 74 is connected, the gas tank discharges gas to the gas passage, so that a sound similar to a gunshot sound can be generated by explosion, and a corresponding recoil force can be given to a shooter, thereby realizing the simulation of the sound and recoil force of a real pistol.

In this embodiment, the gas tank 12 is disposed in the holding portion of the gun body structure, the gas outlet of the gas tank 12 includes a gas chamber plug screw 18, a plug screw sealing ring 20, and an air inlet nozzle 19, which are sequentially disposed, and a valve seat sealing gasket 5 is further disposed between the valve seat spring seat 4 and the gas path of the gas outlet of the gas tank 12. In this embodiment, the technical scheme of the valve seat sealing gasket 5, the air chamber plug screw 18, the plug screw sealing ring 20 and the air inlet nozzle 19 can realize double-layer sealing of an air passage, and guarantee the use effect of the air of the training pistol.

In the present embodiment, the infrared tube switch is disposed in a firing circuit composed of the infrared emitter 1, which is in a conducting state when the trigger 50 is in an initial state;

trigger 50's one end with trigger slider 56 contacts, movable mounting has on the trigger slider 56 response piece 57, is pulling trigger 50's back end, percussion shaft connector 46 kick-backs and drives response piece 57 clockwise rotation shelters from this infrared tube switch is in order to cut off the shooting return circuit sends the shooting signal. The firing shaft connector 46 drives the propelling rod 45 to move towards the valve seat spring 3 in the rebound process, so that the air tank is fired by the valve seat spring 3 to deflate towards the air passage, and the sound similar to the gunshot sound is generated by explosion.

In this embodiment, the electronic target receives the shooting signal and records the shooting information such as the hit position and the number of hits.

In this embodiment, the laser emitting device further comprises a power supply assembly, wherein the power supply assembly comprises a battery 13, the battery is connected to an electrode contact 22 through an electrode contact seat 21, and the battery 13 supplies power to the laser emitting assembly through the electrode contact 22. The connection mode of the battery 13 to the electrode contact 22 in this embodiment may be a snap contact type, or may be a connection mode of connecting to the electrode contact 22 by arranging a connection wire after the battery is in place, and the wiring is arranged in the grip of the gun body structure.

In this embodiment, the body structure is further provided with a magazine in which the battery 13 and the gas tank 12 are disposed. The technical scheme who provides the magazine in this embodiment can realize further simulating the true condition of pistol, can also conveniently change battery and gas pitcher simultaneously, realizes the effect of killing two birds with one stone.

As shown in fig. 3-8, the working principle of the simulated pistol for training of the present invention is as follows:

in the initial state of firing, the trigger 50 and the upper shell cover rear seat 61 are both in the initial position;

as shown in fig. 4, after the trigger 50 is actuated, the firing lever 48 is pushed to move to the left along with the firing shaft connector 46 and the pusher arm 45, both left and right as described in this embodiment based on the position of the simulated pistol of fig. 3-8, which drives the pusher arm spring retainer 41 to compress the pusher arm return spring 43;

when the firing shaft connector 46 moves to the left, one end of the firing lever 48 slides along the inclined plane of the gun tube seat 69, and the firing lever 48 rotates counterclockwise to be separated from the trigger slider 56;

the push rod return spring 43 pushes the push rod spring seat 41 to drive the push rod 45 to fire the shaft connector 46 to fire the lever 48 to impact the valve seat spring seat 4 to move right to open the air valve;

the trigger 50 is continuously pulled by inertia, a sensing piece 57 is arranged on a trigger sliding block 56, when the firing shaft connector 46 moves left, the sensing piece 57 is pressed down to rotate clockwise, the infrared tube switch is disconnected, the infrared tube switch comprises a light emitting diode 51 and an infrared receiving tube 52, the infrared emitter 1 sends out signals, and the electronic target receives the signals for counting;

after the valve seat spring seat 4 of the air valve is opened, high-pressure air in the air tank 12 quickly fills the piston cylinder of the upper shell cover rear seat 61, the high-pressure air pushes the upper shell cover 62 of the upper shell cover rear seat 61 of the piston cylinder to quickly move to the right, and the piston cylinder 74 quickly exhausts air to send out explosion sound;

when the trigger 50 is released and reset, the trigger sliding block 56 drives the sensing piece 57 to move right to drive the sensing piece 57 to rotate anticlockwise, the infrared tube switch is switched on, and the infrared emitter 1 is switched off;

the upper cover 62 moves leftwards under the action of spring force to reset, the valve seat spring seat 4 pushes the push rod 45 to move leftwards under the action of high-pressure gas, and the closed valve returns to the initial state.

The scheme of the embodiment can realize the following technical effects:

1) the laser emission assembly is embedded into a simulated gun, the laser emission assembly and the simulated gun are combined into a whole, and the appearance, the weight, the volume and the operation mode are similar to those of a real gun;

2) the high-pressure gas is utilized to realize stronger recoil during shooting, the recoil feeling is similar to that during actual shooting, and the real feeling during shooting is extremely restored;

3) the high-pressure gas is only used for generating recoil and cannot launch any projectile; the laser is human eye safe laser.

To sum up, the utility model discloses a high-pressure gas has simulated the vibration effect when true pistol percussion as the source that produces recoil, has low cost, and the installation is swift, and is safe convenient, simulates advantages such as lifelike, is applicable to all kinds of shooting recreation and the pistol simulation training of different scenes. Through ingenious structural design, the product has the characteristic functions of pulling and fastening the gun into the chamber, replacing a cartridge clip and the like besides strong recoil experience, completely accords with a real use scene, and is similar to a real gun operation process and operation action. The whole machine has compact, small and attractive structure, and is convenient to operate, install, carry, produce and assemble in large batch.

While the embodiments of the present invention have been described with reference to the accompanying drawings, the present invention is not limited to the above-described embodiments, which are merely illustrative and not restrictive, and many modifications may be made by one skilled in the art without departing from the spirit and scope of the present invention as defined in the appended claims.

Claims (10)

1. A laser pistol for training is characterized by comprising a pistol frame structure, wherein a laser emission assembly and an air propulsion assembly are arranged in the pistol frame structure;

the laser emission assembly is used for sending a shooting signal to the electronic target through a muzzle after a trigger (50) is pulled;

the gas propulsion assembly is configured to provide a simulated recoil to the frame structure upon actuation of a trigger (50).

2. Training laser pistol according to claim 1, characterized in that the gas propulsion assembly comprises a propulsion rod (45), a propulsion rod return spring (43), a valve seat spring seat (4), a firing shaft connector (46), a trigger slide (56) and a firing lever (48);

wherein one end of the push rod (45) is connected to the push rod return spring (43), the other end of the push rod (45) is connected to one end of the valve seat spring seat (4), the pushing rod (45) is fixedly sleeved with the firing shaft connector (46), the firing shaft connector (46) is connected with the firing lever (48), the trigger slider (56) is movably sleeved on the pushing rod (45), and the trigger block (56) is disposed between the firing shaft connector (46) and the trigger (50), the trigger slider (56) is used for pushing the firing shaft connector (46) to perform firing energy storage when the front section of the trigger (50) is pulled and driving the firing shaft connector (46) to release the firing lever (48) to trigger the laser emission assembly to emit a firing signal when the rear section of the trigger (50) is pulled.

3. Laser pistol for training purposes according to claim 2, characterised in that the trigger slide (56) is also connected to the frame structure by means of a trigger slide return spring which is fitted over the cylindrical pin (53).

4. Training laser pistol according to claim 2, characterized in that the push lever (45) is connected at one end to a push lever return spring (43) by means of a push lever spring seat (41).

5. A training laser pistol according to claim 2, characterized in that the frame structure further comprises: an upper shell cover rear seat (61), an upper shell cover (62), a piston cylinder (74) and a gas tank (12)

One end, far away from a muzzle, of the upper shell cover (62) is provided with the upper shell cover rear seat (61), the piston cylinder (74) is arranged in the upper shell cover rear seat (61), and the piston cylinder (74) is connected to the gas tank (12) through the valve seat spring seat (4);

a valve seat spring (3) is arranged in the valve seat spring seat (4), the other end of the valve seat spring seat (4) is connected to an air inlet of the air tank (12), and after the trigger (50) is pulled, the push rod (45) pushes the valve seat spring seat (4) to communicate with an air passage between an air outlet of the air tank (12) and the piston cylinder (74).

6. The training laser pistol according to claim 5, characterized in that the gas tank (12) is arranged in the holding part of the body structure, the gas outlet of the gas tank (12) comprises a gas chamber plug screw (18), a plug screw sealing ring (20) and a gas inlet nozzle (19) which are arranged in sequence, and a valve seat sealing gasket (5) is arranged between the valve seat spring seat (4) and the gas passage of the gas outlet of the gas tank (12).

7. Training laser pistol according to claim 2, characterized in that the laser emission assembly comprises an infrared emitter (1), a sensor plate (57) and an infrared tube switch, the infrared emitter (1) being arranged in the muzzle of the frame structure;

the infrared tube switch is arranged in a shooting loop formed by infrared emitters (1), and when a trigger (50) is in an initial state, the shooting loop is in a conducting state;

the one end of trigger (50) with trigger slider (56) contact, movable mounting has on trigger slider (56) response piece (57), is pulling the back end of trigger (50), percussion shaft connector (46) kick-backs and drives response piece (57) shelter from infrared tube switch is in order to cut off the shooting signal is sent to the shooting return circuit.

8. Training laser pistol according to claim 5, characterized in that the laser pistol further comprises a power supply assembly, which comprises a battery (13), which is connected to an electrode contact (22) via an electrode contact holder (21), which battery (13) supplies power to the laser emitting assembly via the electrode contact (22).

9. Training laser pistol according to claim 8, characterized in that the frame structure is further provided with a magazine, in which the battery (13) and the gas tank (12) are arranged.

10. A training laser pistol according to any of claims 1-9, characterized in that the frame structure is the same size and weight as a live ammunition gun.

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