CN108759555B

CN108759555B - Simulation real gun

Info

Publication number: CN108759555B
Application number: CN201810499909.4A
Authority: CN
Inventors: 邹伟能; 陈际军
Original assignee: Ningbo Zhenhai Ximen Patent Technology Development Co Ltd
Current assignee: Ningbo Zhenhai Ximen Patent Technology Development Co Ltd
Priority date: 2018-05-23
Filing date: 2018-05-23
Publication date: 2022-05-24
Anticipated expiration: 2038-05-23
Also published as: CN108759555A

Abstract

A simulation real gun comprises a shooting gun and a bullet, wherein the shooting gun comprises a gun body, a gun chamber, a shooting signal module, a shooting head, a recoil generator, a battery and the like; the bullet includes cartridge case, warhead, firecrackers and fuse etc. and constitutes, the bore can be packed into to the bullet, the warhead can not launch away, the bullet is used for switching on conductive terminal around the bore, switch on the power of firing signal module and transmission head through conductive terminal, the transmission head is given target (prior art) transmission signal immediately, realize the process of once shooting, from this, under the condition of not launching the live ammunition, can experience the taste of live ammunition shooting to reach under the prerequisite of ensureing safety, satisfy the purpose of shooter psychological demand.

Description

Simulation real gun

Technical Field

The invention relates to a shooting device for toys, in particular to a shooting system without live ammunition ejection, which is a gun with sound and recoil.

Background

Gun toys are indispensable toys for teenagers, especially for men, and the gun toys do not release hands of the guns after the guns enter adults. However, when people carry out gun-involved entertainment activities, the administrative department not only instructs to forbid the entertainment activities of the real gun, but also bears huge risks for the diametrically opposed camp officers if the real gun is used for activity. If an accident happens, the patient is not only seriously injured in economy, but also possibly sanctioned by law. The toy firearms lack the shooting effect of real guns and are unsafe. The toy gun cannot meet the psychological needs of the shooter.

In view of the above-mentioned drawbacks, the present inventors have finally obtained the present creation through a long period of research and practice.

Disclosure of Invention

The present invention is directed to a simulated real gun, which overcomes the above-mentioned drawbacks.

In order to achieve the purpose, the invention adopts the scheme that a simulation real gun is provided and is characterized by comprising a shooting gun and a bullet.

The shooting gun consists of a gun body, a gun barrel, a sighting device, a trigger, a shooting signal module, a shooting head, a recoil generator, a power switch and a battery.

The gun body is hollow, and the cavity is used for accommodating the recoil generator, the shooting signal module and the battery.

The sighting device is arranged above the gun body, and is convenient to aim by searching a target through the linear light beam of the modulated light; the trigger is arranged at the lower part of the gun body and used for switching on or switching off the power supplies of the recoil generator and the shooting signal module; the gun barrel is connected to the front end of the gun body, the front end of the gun barrel is provided with a transmitting head of a shooting signal module, the rear end of the gun barrel is provided with a gun chamber, the front end and the rear end of the gun chamber are provided with conductive terminals, and the gun chamber is used for mounting bullets; the shooting signal module is fixed at the front part of the gun body cavity, the signal output end of the shooting signal module is connected with the conductive terminal at the rear end of the gun chamber, the conductive terminal at the front of the gun chamber is communicated with the emitting head of the shooting signal module at the front end of the gun barrel, and the emitting head is used for emitting signals; the recoil generator is arranged at the rear end of the gun body cavity, can generate backward impact force after being electrified, and is used for generating recoil force of the gun and increasing the reality sense of the gun; the power switch is arranged on one side of the gun body and used for connecting or disconnecting the power supply of the sighting device and the trigger; the battery is arranged in the middle of the gun body cavity and used as a power supply source of the sighting device, the recoil generator and the shooting signal module, and a charging socket is arranged on the gun body on one side of the battery and used for charging the battery. The bullet can be arranged in the gun chamber and is used for conducting the conductive terminals in front of and behind the gun chamber and connecting the power supply of the shooting signal module and the transmitting head through the conductive terminals; the bullet comprises a shell case, a bullet head, firecrackers and a fuse, wherein the rear end of the shell case is provided with a cover, the center of the cover is provided with a conductive cap, the bullet head is fixed at the front end of the shell case, the firecrackers are arranged in the shell case, and an ignition head of the firecrackers is connected to the conductive cap of the bullet cover; the bullet is hollow, a conductive cap is arranged at the front end of the bullet, a thin film is arranged at the connecting end of the bullet and the bullet shell, the fuse is fixed on the thin film, one end of the fuse is connected with the conductive cap of the bullet through a wire, the other end of the fuse is connected with the conductive cap on the bullet shell cover through a wire, and after the bullet is loaded into the gun chamber, the conductive caps on the front and the back of the bullet are contacted with the conductive terminals on the front and the back of the gun chamber.

The recoil generator preferably comprises a housing, an electromagnetic coil, an armature and a tension spring. Solenoid installs in the rear end of casing, establishes the baffle before the coil, and armature installs in the front end of casing, establishes striking piece before the armature, and armature can remove to the solenoid direction, connects the extension spring between armature and the casing front end. After the electromagnetic coil is electrified, a magnetic field is generated, the armature overcomes the pulling force of the tension spring, the armature is attracted to impact the baffle in front of the electromagnetic coil, the recoil effect is generated between the baffle of the coil and the impact block of the armature, the impact is transmitted to the gun stock through the shell of the electromagnetic coil, the gun is fired once to generate one-time impact, and the recoil force of a real gun is simulated while the gun is matched with the gun sound.

The bullet can be loaded into the gun chamber and used for conducting the conductive terminals at the front and the rear of the gun chamber and connecting the power supply of the shooting signal module and the firing head through the conductive terminals; the bullet comprises a bullet shell, a bullet head, firecrackers and a fuse, wherein the bullet shell is made of plastic, the bullet shell can also be made of paper, wood, glass and other non-metal materials, a cover is arranged at the rear end of the bullet shell, a conductive cap is arranged at the center of the cover, the bullet head is fixed at the front end of the bullet shell and is hollow in the bullet head, a conductive cap is arranged at the front end of the bullet head, a thin film is arranged at the connecting end of the bullet head and the bullet shell, the fuse is fixed on the thin film, one end of the fuse is communicated with the conductive cap of the bullet head through a lead, the other end of the fuse is communicated with the conductive cap on the bullet shell cover through a lead, after the bullet is placed in a gun chamber, the conductive caps on the front and the rear of the bullet are contacted with conductive terminals on the front and the rear of the gun chamber, the firecrackers are installed in the bullet shell, and the ignition head of the firecrackers is connected to the conductive cap of the bullet shell cover.

In the simulated real gun, when the trigger is buckled in shooting entertainment activities, firstly, the power supply of the shooting signal module and the transmitting head is switched on, and the transmitting head immediately transmits signals to the signal receiving unit on the gun target (in the prior art) in the forward direction; when the trigger is buckled, the power supply of the firecrackers is also connected, the firecrackers detonate and emit shooting sound similar to a real gun, deflagration of the firecrackers is instantaneous, deflagration airflow can impact the warhead cavity, the thin film fixed between the warhead and the cartridge case can be broken, the fuse fixed on the thin film can be broken instantaneously, the power supply of the shooting signal module and the shooting head is cut off, the shooting signal module and the shooting head are stopped to emit signals, even if the trigger is buckled, the signals cannot be transmitted to the world, if the signals are emitted again, the shooting function can be recovered by replacing one bullet, because when the trigger is buckled, two paths of power supplies are simultaneously connected, and one path of power supplies firstly connects the shooting signal module and the power supply of the shooting head through the conducting wire and the fuse on the cartridge case to emit the shooting signal; the other path is detonated by firecrackers and broken by a film, and finally the fuse is broken, so that the fuse is broken after being delayed compared with the first path of power supply, the power supply of the conductive terminal at the rear end of the gun chamber, the firing signal module and the power supply of the firing head are directly conducted through the fuse, and the fuse is broken as a result of the detonation of the firecrackers, but the time for breaking the fuse is delayed for a period of time (the period of time is short), so that the firing signal sent by the firing head is in the front, the fuse is broken after the firecrackers detonate and break the fuse, the fuse is broken to finish a firing action, the trigger is buckled, and the firecrackers are required to be filled with bullets to shoot again.

The method can satisfy the psychological needs of the shooter while the rifle simulates the live ammunition shooting joy, thereby achieving the purpose of simulating real gun combat.

The invention has the advantages of integrating entertainment and safety, avoiding bleeding and accidents of shooting people by mistake and having simple structure.

Drawings

The invention will be further explained with reference to the drawings.

FIG. 1 is a schematic view of the gun of the present embodiment.

Fig. 2 is a schematic view of the structure of the bullet of the present embodiment.

Fig. 3 is a schematic structural view of the recoil generator of the present embodiment.

Fig. 4 is a circuit diagram of the present embodiment.

In the figure, 1, a gun body, 2, a recoil generator, 3, a shooting signal module, 4, a battery, 5, a sighting device, 6, a trigger, 7, a gun barrel, a firing head, 8, a gun chamber, 9, a front conductive terminal, 10, a rear conductive terminal, 11, a rear conductive terminal, 12, a power switch, 13, a charging socket, 14, a shell, 15, a solenoid coil, 16, an armature, 17, a tension spring, 18, a baffle, 19, a striking block, 20, a bullet, 21, a shell, 22, a cover, 23, a conductive cap, 24, a bullet, 25, a conductive head, 26, a film, 27, a fuse, 28 and the like.

Detailed Description

In fig. 1, the gun body 1 is hollow, and a recoil generator 2, a firing signal module 3 and a battery 4 are mounted in the cavity. The sighting device 5 is arranged above the gun body 1; the lower part of the gun body is provided with a trigger 6; the gun barrel 7 is connected to the front end of the gun body 1, the front end of the gun barrel is provided with a firing head 8 of a firing signal module, the rear end of the gun barrel is provided with a gun chamber 9, a front leading front electric terminal 10 of the gun chamber, and the rear end of the gun chamber is provided with a rear conductive terminal 11; the shooting signal module 3 is fixed at the front part of the gun body cavity, the signal output end of the shooting signal module is connected with a conductive terminal 11 at the rear end of a gun chamber, a conductive terminal 10 at the front of the gun chamber is connected with a transmitting head 8 of the shooting signal module at the front end of a gun barrel, and a power switch 12 is arranged at one side of the gun body 1 and used for connecting or disconnecting the power supply of the sighting device and the trigger; the battery 4 is installed in the middle of the gun body cavity and serves as a power supply source of the sighting device, the recoil generator and the shooting signal module, and a charging socket 13 is arranged on the gun body 1 on one side of the battery and used for charging the battery.

In fig. 2, the recoil generator 2 includes a housing 14, a solenoid 15, an armature 16, and a tension spring 17. The electromagnetic coil 15 is arranged at the rear end of the shell 14, a baffle 18 is arranged in front of the coil, the armature 16 is arranged at the front end of the shell 14, an impact block 19 is arranged in front of the armature 16, the armature can move towards the direction of the electromagnetic coil, and a tension spring 17 is connected between the armature and the front end of the shell. After the electromagnetic coil is electrified, a magnetic field is generated, the armature iron overcomes the tension force of the tension spring, and the armature iron is attracted to impact the baffle plate in front of the electromagnetic coil, so that the recoil effect is generated between the baffle plate of the coil and the impact block of the armature iron.

In fig. 3, the shell 21 of the bullet 20 is made of plastic, the shell can also be made of non-metallic materials such as paper, wood, glass, etc., the rear end of the shell is provided with a cover 22, the center of the cover is provided with a conductive cap 23, the bullet 24 is fixed at the front end of the shell 21, the bullet is hollow, the front end of the bullet is provided with a conductive head 25, the connection end of the bullet and the shell is provided with a film 26, a fuse 27 is fixed on the film, one end of the fuse is connected with the conductive head 25 of the bullet by a wire, the other end of the fuse is connected with the conductive cap 23 on the shell cover by a wire, after the bullet is loaded into a bullet chamber, the front conductive cap of the bullet and the rear conductive head of the bullet are in contact with conductive terminals in front and rear of the chamber, a firecracker 28 is installed in the shell, and the ignition head of the firecracker is connected with the conductive cap 23 on the bullet cover.

In fig. 4, the battery 4 is connected with a main switch 12, the main switch has two outputs, and the first output is connected with the sighting device 11; the second circuit is connected with the trigger 6, the trigger 5 is divided into two circuits to output, one circuit is connected with the shooting signal module 3, and the shooting signal module is connected with the transmitting head 7; the other path is connected with the recoil generator 2, and the output of the sighting device 11, the shooting signal module 3, the transmitting head 7 and the recoil generator 2 is connected with the negative pole of the power supply to form a loop.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.

Claims

1. The utility model provides a simulation real rifle which characterized by: the bullet shooting gun comprises a shooting gun body, a gun barrel, a sighting device, a trigger, a shooting signal module, a shooting head, a recoil generator, a power switch and a battery; the gun body is hollow, and the cavity is used for accommodating the recoil generator, the shooting signal module and the battery; the gun barrel is connected to the front end of the gun body, the front end of the gun barrel is provided with a transmitting head of a shooting signal module, the rear end of the gun barrel is provided with a gun chamber, the front end and the rear end of the gun chamber are provided with conductive terminals, and the gun chamber is used for mounting bullets; the shooting signal module is fixed at the front part of the gun body cavity, the signal output end of the shooting signal module is connected with the conductive terminal at the rear end of the gun chamber, the conductive terminal at the front of the gun chamber is communicated with the emitting head of the shooting signal module at the front end of the gun barrel, and the emitting head is used for emitting signals; the power switch is arranged on one side of the gun body and used for connecting or disconnecting the power supply of the sighting device and the trigger; the battery is arranged in the middle of the gun body cavity and is used as a power supply for the sighting device, the recoil generator and the shooting signal module, and a charging socket is arranged on the gun body on one side of the battery and is used for charging the battery; the bullet can be arranged in the gun chamber and is used for conducting the conductive terminals in front of and behind the gun chamber and connecting the power supply of the shooting signal module and the transmitting head through the conductive terminals; the bullet comprises a shell case, a bullet head, firecrackers and a fuse, wherein the rear end of the shell case is provided with a cover, the center of the cover is provided with a conductive cap, the bullet head is fixed at the front end of the shell case, the firecrackers are arranged in the shell case, and an ignition head of the firecrackers is connected to the conductive cap of the bullet cover; the bullet is hollow, a conductive cap is arranged at the front end of the bullet, a thin film is arranged at the connecting end of the bullet and the bullet shell, the fuse is fixed on the thin film, one end of the fuse is connected with the conductive cap of the bullet through a wire, the other end of the fuse is connected with the conductive cap on the bullet shell cover through a wire, and after the bullet is loaded into the gun chamber, the conductive caps on the front and the back of the bullet are contacted with the conductive terminals on the front and the back of the gun chamber.

2. A simulated real gun as claimed in claim 1 wherein: the sighting device is arranged above the gun body, and is convenient to aim by searching a target through the linear light beam of the modulated light; and the trigger is arranged at the lower part of the gun body and used for switching on or off the power supply of the recoil generator and the shooting signal module.

3. A simulated real gun as claimed in claim 1 wherein: the recoil generator is arranged at the rear end of the gun body cavity, can generate backward impact force after being electrified, and is used for generating recoil force of the gun and increasing the reality sense of the gun; the recoil generator comprises a shell, an electromagnetic coil, an armature and a tension spring; the electromagnetic coil is arranged at the rear end of the shell, the baffle is arranged in front of the coil, the armature is arranged at the front end of the shell, the impact block is arranged in front of the armature, the armature can move towards the electromagnetic coil, the tension spring is connected between the armature and the front end of the shell, the electromagnetic coil generates a magnetic field after being electrified, the armature overcomes the tension force of the tension spring, the armature is attracted to impact the baffle in front of the electromagnetic coil, the recoil effect is generated between the baffle of the coil and the impact block of the armature, the impact force is transmitted to the gun stock through the shell of the electromagnetic coil, the transmitting gun is triggered once to generate one-time impact, and the recoil force of a real gun is simulated while the gun is sounded.

4. A simulated real gun as claimed in claim 1 wherein: the cartridge case is made of plastic or paper, wood and glass non-metallic materials.

5. A simulated real gun as claimed in claim 1 wherein: the battery is connected with the main switch, the main switch outputs two paths, and the first path is connected with the sighting device; the second board connecting machine is used for outputting in two paths, one path is connected with the shooting signal module, and the shooting signal module is connected with the transmitting head; the other path is connected with a backseat force generator, and the output of the sighting device, the shooting signal module, the transmitting head and the backseat force generator is connected with the negative pole of the power supply to form a loop.

6. A simulated real gun as claimed in claim 1 wherein: when the trigger is buckled during shooting entertainment activities, the simulation real gun firstly switches on a power supply of a shooting signal module and a transmitting head, and the transmitting head immediately transmits signals to a signal receiving unit on a gun target in the forward direction; when the trigger is buckled, the power supply of the firecrackers is also connected, the firecrackers detonate and emit shooting sound similar to a real gun, deflagration of the firecrackers is instantaneous, deflagration airflow can impact the warhead cavity, the thin film fixed between the warhead and the cartridge case can be broken, the fuse fixed on the thin film can be broken instantaneously, the power supply of the shooting signal module and the shooting head is cut off, the shooting signal module and the shooting head are stopped to emit signals, even if the trigger is buckled, the signals cannot be transmitted to the world, if the signals are emitted again, the shooting function can be recovered by replacing one bullet, because when the trigger is buckled, two paths of power supplies are simultaneously connected, and one path of power supplies firstly connects the shooting signal module and the power supply of the shooting head through the conducting wire and the fuse on the cartridge case to emit the shooting signal; the other path is detonated by firecrackers and broken by films, and finally the fuse is broken, so that the fuse is broken after being delayed compared with the first path of power supply, the power supply of the conductive terminal and the firing signal module at the rear end of the gun chamber and the firing head is directly conducted through the fuse, and the fuse is broken as a result of the detonation of the firecrackers, but the time delay is needed for breaking the fuse, so that the firing signal sent by the firing head is in the front, the fuse is broken by the detonation of the firecrackers and is in the back, so that the fuse is broken after the firecrackers sound, one firing action is completed, the trigger is buckled to lose the action, and the firecrackers can be fired again after bullets are filled in the gun chamber.