CN216115616U

CN216115616U - Bullet-changing and shell-throwing device for toy gun

Info

Publication number: CN216115616U
Application number: CN202122957543.0U
Authority: CN
Inventors: 杨雄兵
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-11-30
Filing date: 2021-11-30
Publication date: 2022-03-22
Anticipated expiration: 2031-11-30

Abstract

The utility model discloses a shell replacing and throwing device of a toy gun, which comprises a shell, a bolt and an outer air cylinder, wherein the shell is provided with a gun barrel and a chamber; the side wall of the shell is provided with a shell window, the bolt is arranged on the shell and can cover the shell window; outer inflator sets up in the shell and can follow the barrel back-and-forth movement to outer inflator is connected its characterized in that with the bolt: the shell throwing mechanism is arranged at the front end of the outer air cylinder, and the rear end of each soft shell is provided with a connecting part matched with the shell throwing mechanism; the bullet lifting mechanism is arranged in the shell and linked with the outer air cylinder. The bullet changing and throwing device for the toy gun can throw the shot bullet shell out of the toy gun when the bolt is pulled, and simultaneously, new soft bullets are filled, so that the simulation degree of the toy gun is improved.

Description

Bullet-changing and shell-throwing device for toy gun

Technical Field

The utility model relates to the field of toys, in particular to a bullet changing and throwing device of a toy gun.

Background

Soft bullet toy guns are one of the more popular toy guns at present. The bullet can not cause harm to human body after being ejected, and gradually replaces bullet toy guns made of other materials in the market. Soft bullet toy guns generally imitate as much as possible a real gun in shape in order to attract players, and toy rifles on the market can also fill soft bullets while imitating the action of pulling a bolt.

However, since soft bullets commonly used in soft bullet toy guns include a bullet case and a bullet (the bullet is typically a cotton bullet or a suction cup), the bullet is ejected from the barrel and the bullet case remains in the barrel during firing. Present soft bullet toy rifle can't accomplish and throw out the shell case from the rifle body after launching the warhead, and it is only set up the shell case window on the rifle body usually, takes out the shell case through the shell case window, and not only emulation degree is not enough to can appear the phenomenon of card shell when the pulling bolt is loaded bullet often, experience to playing easily causes the influence.

Disclosure of Invention

The utility model aims to solve the technical problem of providing a shell replacing and throwing device of a toy gun, which can throw a shot shell out of the toy gun when a bolt is pulled, and simultaneously fill new soft bullets, thereby improving the simulation degree of the toy gun.

In order to solve the technical problems, the technical scheme is as follows:

a shell replacing and throwing device of a toy gun comprises a shell, a bolt and an outer air cylinder, wherein the shell is provided with a gun barrel and a chamber, the gun barrel is positioned at the upper part of the shell, the chamber is positioned below the front end of the gun barrel, and soft bullets are filled in the chamber; the side wall of the shell is provided with a shell window communicated with the outside and the gun barrel, the bolt is arranged on the shell and can move back and forth along the shell, the bolt can cover the shell window, and the length of the shell window is greater than that of the soft bullet; outer inflator sets up in the shell and can follow the barrel back-and-forth movement to outer inflator is connected its characterized in that with the bolt: the ejection mechanism is arranged at the front end of the outer air cylinder, and the rear end of each soft bullet is provided with a connecting part matched with the ejection mechanism; the bullet lifting mechanism is arranged in the shell and linked with the outer air cylinder.

The toy gun body also generally comprises a launching device, a trigger and other conventional toy gun configurations, wherein the trigger is used for controlling the launching device to work; the launching device is used for driving the outer air cylinder to realize launching action of soft bullets.

The soft bullet in the toy gun generally comprises a shell and a bullet arranged in the shell, when the soft bullet is launched, the shell of the soft bullet is blocked by a bolt in a gun barrel, only the bullet in the soft bullet can be launched from the gun barrel, and the shell is firstly left in the gun barrel; then the outer air cylinder moves forwards under the driving of the launching device, the outer air cylinder is temporarily connected with the connecting part of the cartridge case through the ejection mechanism, and lateral outward thrust is applied to the cartridge case, so that the cartridge case has a tendency of ejecting towards the lateral outward direction; when the bolt is pulled backwards to enable the outer air cylinder to move backwards, the shell cannot be ejected when the shell is blocked by the side wall of the gun barrel, and the shell can be driven backwards while the outer air cylinder moves backwards; when the shell is completely exposed in the shell window, the shell can be ejected out of the shell window under the pushing of the shell ejecting mechanism, so that the action of ejecting the ejected shell from the toy gun is completed. After the ejection of the shell is finished, when the bolt is loosened, the outer air cylinder can move forwards from the back in the gun barrel again, in the process that the outer air cylinder moves forwards, the outer air cylinder is matched with the bullet lifting mechanism, the bullet lifting mechanism lifts the soft bullet in the chamber, the outer air cylinder pushes the soft bullet from the rear end in the process that the outer air cylinder moves forwards, at the moment, the soft bullet can enter the gun barrel under the combined action of the bullet lifting mechanism and the outer air cylinder, and the ejection mechanism at the front end of the outer air cylinder is connected with the connecting part of the shell, so that the filling of the soft bullet is finished. The shell replacing and throwing device of the toy gun can utilize the shell throwing mechanism and the existing shell window to throw the shot shell out of the toy gun when the bolt is pulled, and meanwhile, the new soft shell is filled through the shell lifting mechanism, so that the simulation degree of the toy gun is improved.

The front and back directions are determined according to the moving direction of the soft bullet when the soft bullet is launched, and the position where the soft bullet passes through firstly is the back position and the position where the soft bullet passes through secondly is the front position when the soft bullet is launched.

In a preferred scheme, the bullet lifting mechanism comprises a transmission part, a bullet lifting block and a swinging part, the transmission part is connected with the outer air cylinder and is positioned in the shell, and the rear end of the transmission part is provided with a first notch; the middle part or the rear part of the bullet lifting block is hinged in the shell, and the front part of the bullet lifting block is positioned at the bottom of the chamber; the middle part of the swinging piece is hinged in the shell, the front end of the swinging piece is hinged with the rear end of the spring lifting block, and the rear part of the swinging piece is provided with a bulge matched with the first notch.

When the bolt is pulled backwards to enable the cartridge case to pop out of the cartridge case window, the transmission piece moves backwards together with the outer air cylinder, at the moment, the transmission piece presses down the rear end of the swinging piece, and the protrusion on the swinging piece is clamped in the first notch; then, in the process that the outer air cylinder moves forwards again, the transmission part moves forwards along with the outer air cylinder, at the moment, the edge of the first notch lifts the rear end of the swinging part by pushing the protrusion, so that the front end of the swinging part drives the rear end of the bullet lifting block to press downwards together, and the front end of the bullet lifting block lifts soft bullets in the chamber; and in the process that the outer air cylinder continues to move forwards and the bolt gradually covers the shell window, the connecting part at the rear end of the soft bullet is matched with the shell throwing mechanism.

In a further preferred scheme, a first cambered surface is arranged at the rear end of the transmission part, and a second cambered surface matched with the first cambered surface is arranged at the rear part of the swinging part. Through the arrangement, the transmission part pushes the second cambered surface on the swinging part through the first cambered surface more easily in the process of moving backwards, so that the swinging part swings downwards, and the abrasion is reduced.

In a preferred scheme, the shell throwing mechanism comprises a base, a compression spring, a push block, a clamping block, a rotating shaft and a torsion spring, wherein the rear end of the base is fixedly arranged at the front end of the outer air cylinder; the side wall of the base is provided with a second gap, the two side walls of the second gap are respectively provided with a through hole, the two ends of the rotating shaft are respectively arranged in the through holes, the fixture block is arranged at the second gap through the rotating shaft, the fixture block and the shell case window are positioned at the same side, the torsion spring is sleeved in the rotating shaft, one end of the torsion spring is connected with or closely contacted with the inner wall of the fixture block, and the other end of the torsion spring is connected with or closely contacted with the base; the connecting part is an annular groove matched with the clamping block, and the annular groove is formed in the rear end of the side wall of the soft bullet. The cartridge case is blocked by the bolt in the gun barrel, and the outer air cylinder is firstly contacted with the rear end of the cartridge case in the forward moving process; under the condition that the outer air cylinder continues to advance, the rear end of the cartridge case enters the loading groove, and the push block is pushed to move backwards until the clamping block is matched with the annular groove of the cartridge case, so that the cartridge case is clamped; at the moment, the pushing block pushes the cartridge case from the rear of the cartridge case, and the cartridge case is buckled by the clamping block from one side of the cartridge case, so that the cartridge case has a tendency of popping out towards the front side and the outside; in the backward moving process of the outer air cylinder, when the shell is blocked by the side wall of the gun barrel, the shell cannot be ejected, and can be driven backwards while the outer air cylinder moves backwards; when the outer air cylinder continues to move backwards, so that the whole cartridge case is exposed at the cartridge case window, the cartridge case can be popped out from the cartridge case window under the combined action of the push block and the clamping block, and the action of throwing the shot cartridge case out of the toy gun is finished. By adopting the structure, the shell throwing mechanism provides the thrust towards the outside of the front side for the shell, when the shell is popped out, the front end of the shell can swing outwards firstly to leave the shell window, and then the middle rear part of the shell leaves the shell window, so that the shell clamping condition is not easy to occur in the shell throwing process.

In a further preferred scheme, a first inclined plane which is gradually inclined backwards from outside to inside is arranged on the front edge of the base, and a second inclined plane which is gradually inclined backwards from outside to inside is arranged at the front end of the fixture block. By this arrangement, the cartridge case can be more easily jammed along the first inclined surface and the second inclined surface.

The utility model has the beneficial effects that: the bullet changing and throwing device for the toy gun can throw the shot bullet shell out of the toy gun when the bolt is pulled, and simultaneously, new soft bullets are filled, so that the simulation degree of the toy gun is improved.

Drawings

FIG. 1 is a schematic view of a toy gun according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a shell changing and throwing device of a toy gun when a soft bullet is not shot in the embodiment of the utility model;

FIG. 3 is a schematic view of another angle of the shell changing and ejecting device of the toy gun when the soft bullet is not fired according to the embodiment of the present invention;

FIG. 4 is a schematic structural diagram illustrating the soft bullet being lifted in the embodiment of the present invention;

FIG. 5 is a schematic structural view of an embodiment of the present invention before the soft bullet is to be connected to the outer air tube;

FIG. 6 is a schematic structural view of the soft bullet and ejection device connected with the outer cylinder according to the embodiment of the present invention;

FIG. 7 is a schematic view of the arrangement of the ejection device and the outer cylinder when they are connected according to the embodiment of the present invention;

fig. 8 is a schematic view of the internal structure of the shelling device in the embodiment of the utility model.

Detailed Description

The utility model is further described with reference to the following figures and specific embodiments:

a toy gun shell changing and ejecting device as shown in fig. 1-8, comprising a housing 1, a bolt 2, an outer air cylinder 3, an ejecting mechanism 4 and a shell lifting mechanism 5 capable of transferring a soft bullet 6 from a chamber 102 to a barrel 101, wherein the housing 1 is provided with the barrel 101 and the chamber 102, the barrel 101 is arranged at the upper part of the housing 1, the chamber 102 is arranged below the front end of the barrel 101, and the chamber 102 is filled with the soft bullet 6; the side wall of the shell 1 is provided with a shell window 103 communicated with the outside and the barrel 101, the bolt 2 is arranged on the shell 1 and can move back and forth along the shell 1, the bolt 2 can cover the shell window 103, and the length of the shell window 103 is larger than that of the soft bullet 6; the outer cylinder 3 is arranged in the housing 1 and can move back and forth along the barrel 101, and the outer cylinder 3 is connected with the bolt 2; the ejection mechanism 4 comprises a base 401, a compression spring 402, a push block 403, a fixture block 404, a rotating shaft 405 and a torsion spring 406, the rear end of the base 401 is fixedly mounted at the front end of the outer gas cylinder 3, the base 401 is provided with a loading groove 4011 with a forward opening, the push block 403 is arranged in the loading groove 4011 and can move back and forth in the loading groove 4011, the rear end of the compression spring 402 is connected with the rear wall of the base 401, and the front end of the compression spring 402 is connected with the rear end of the push block 403; a second notch 4012 is formed in a side wall of the base 401, through holes (not visible in the drawing) are respectively formed in two side walls of the second notch 4012, two ends of the rotating shaft 405 are respectively arranged in the through holes, the fixture block 404 is arranged at the second notch 4012 through the rotating shaft 405, the fixture block 404 and the cartridge case window 103 are positioned on the same side, the torsion spring 406 is sleeved in the rotating shaft 405, one end of the torsion spring 406 is connected or in close contact with an inner wall of the fixture block 404, and the other end of the torsion spring 406 is connected or in close contact with the base 401; the front edge of the base 401 is provided with a first inclined surface 4013 which gradually inclines backwards from outside to inside, and the front end of the fixture block 404 is provided with a second inclined surface 4041 which gradually inclines backwards from outside to inside; the rear end of each soft bullet 6 is provided with an annular groove 601 matched with the fixture block 404, and the annular groove 601 is formed in the rear end of the side wall of the soft bullet 6; the bullet lifting mechanism 5 comprises a transmission member 501, a bullet lifting block 502 and a swinging member 503, the transmission member 501 is connected with the outer air cylinder 3 and is positioned in the outer shell 1, the rear end of the transmission member 501 is provided with a first notch 5011, and the rear end of the transmission member 501 is provided with a first cambered surface 5012; the rear part of the bullet lifting block 502 is hinged in the shell 1, and the front part of the bullet lifting block 502 is positioned at the bottom of the chamber 102; the swinging member 503 is hinged in the housing 1 at the middle, the front end of the swinging member 503 is hinged with the rear end of the spring-lifting block 502, the rear part of the swinging member 503 is provided with a protrusion 5031 matched with the first notch 5011, and the rear part of the swinging member 503 is provided with a second cambered surface 5032 matched with the first cambered surface 5012.

The toy gun body also comprises a launching device 7, a trigger 8 and other conventional toy gun configurations, wherein the trigger 8 is used for controlling the launching device 7 to work; the launching device 7 is used for driving the outer air cylinder 3 to realize the launching action of the soft bomb 6.

The soft bullet 6 in the toy gun generally comprises a shell and a bullet arranged in the shell, when the soft bullet 6 is launched, the shell is blocked by the bolt 2 in the barrel 101, only the bullet in the soft bullet 6 can be launched from the barrel 101, and the shell is firstly left in the barrel 101; then the outer air cylinder 3 moves forwards under the driving of the launching device, and the outer air cylinder 3 is matched with the annular groove 601 of the cartridge case through a clamping block 404 to clamp the cartridge case; at this time, the pushing block 403 pushes the cartridge case from the rear of the cartridge case, and the fixture block 404 fastens the cartridge case from one side of the cartridge case, so that the cartridge case has a tendency of popping out towards the front side and the outside; in the process of pulling the bolt 2 backwards to enable the outer air cylinder 3 to move backwards, when the shell is blocked by the side wall of the barrel 101, the shell cannot be ejected and can be driven backwards while the outer air cylinder 3 moves backwards; when the cartridge case is entirely exposed to the case window 103, the cartridge case will be ejected from the case window 103 under the combined action of the push block 403 and the latch block 404, thereby completing the action of ejecting the ejected cartridge case from the toy gun. During the process of pulling the bolt 2 rearward to eject the cartridge case from the cartridge case window 103, the driving member 501 moves rearward along with the outer cylinder 3, at which time the driving member 501 pushes down the rear end of the swinging member 503 and causes the protrusion 5031 on the swinging member 503 to snap into the first notch 5011; then, in the process that the outer gas cylinder 3 moves forwards again, the transmission piece 501 moves forwards along with the outer gas cylinder, and at the moment, the edge of the first notch 5011 lifts the rear end of the swinging piece 503 by pushing the protrusion 5031, so that the front end of the swinging piece 503 drives the rear end of the bullet lifting block 502 to press downwards together, and the front end of the bullet lifting block 502 lifts the soft bullet 6 in the chamber 102; in the process that the outer air cylinder 3 continues to move forwards and the bolt 2 gradually covers the shell case window 103, the rear end of the soft bullet 6 enters the bullet loading groove 4011 through the first inclined surface 4013 and the second inclined surface 4041, the push block 403 is pushed to move backwards until the clamping block 404 is matched with the annular groove 601 of the shell case, the shell case is clamped, and therefore the soft bullet 6 is filled. The bullet changing and ejecting device of the toy gun can utilize the ejecting mechanism 4 and the existing bullet shell window 103 to eject the ejected bullet shell from the toy gun when the bolt 2 is pulled, and meanwhile, the new soft bullet 6 is filled through the bullet lifting mechanism 5, so that the simulation degree of the toy gun is improved.

The front-back direction is determined according to the moving direction of the soft bullet 6 when the soft bullet 6 is launched, and the position where the soft bullet 6 passes through first is the back position and the position where the soft bullet passes through the back position is the front position.

Claims

1. A shell replacing and throwing device of a toy gun comprises a shell, a bolt and an outer air cylinder, wherein the shell is provided with a gun barrel and a chamber, the gun barrel is positioned at the upper part of the shell, the chamber is positioned below the front end of the gun barrel, and soft bullets are filled in the chamber; the side wall of the shell is provided with a shell window communicated with the outside and the gun barrel, the bolt is arranged on the shell and can move back and forth along the shell, the bolt can cover the shell window, and the length of the shell window is greater than that of the soft bullet; outer inflator sets up in the shell and can follow the barrel back-and-forth movement to outer inflator is connected its characterized in that with the bolt: the ejection mechanism is arranged at the front end of the outer air cylinder, and the rear end of each soft bullet is provided with a connecting part matched with the ejection mechanism; the bullet lifting mechanism is arranged in the shell and linked with the outer air cylinder.

2. The toy gun shell changing and throwing device of claim 1, wherein: the spring lifting mechanism comprises a transmission part, a spring lifting block and a swinging part, the transmission part is connected with the outer air cylinder and is positioned in the shell, and the rear end of the transmission part is provided with a first notch; the middle part or the rear part of the bullet lifting block is hinged in the shell, and the front part of the bullet lifting block is positioned at the bottom of the chamber; the middle part of the swinging piece is hinged in the shell, the front end of the swinging piece is hinged with the rear end of the spring lifting block, and the rear part of the swinging piece is provided with a bulge matched with the first notch.

3. The toy gun shell changing and throwing device of claim 2, wherein: the rear end of the transmission member is provided with a first cambered surface, and the rear part of the swinging member is provided with a second cambered surface matched with the first cambered surface.

4. The toy gun shell changing and throwing device of claim 1, wherein: the shell throwing mechanism comprises a base, a compression spring, a push block, a clamping block, a rotating shaft and a torsion spring, wherein the rear end of the base is fixedly arranged at the front end of the outer air cylinder; the side wall of the base is provided with a second gap, the two side walls of the second gap are respectively provided with a through hole, the two ends of the rotating shaft are respectively arranged in the through holes, the fixture block is arranged at the second gap through the rotating shaft, the fixture block and the shell case window are positioned at the same side, the torsion spring is sleeved in the rotating shaft, one end of the torsion spring is connected with or closely contacted with the inner wall of the fixture block, and the other end of the torsion spring is connected with or closely contacted with the base; the connecting part is an annular groove matched with the clamping block, and the annular groove is formed in the rear end of the side wall of the soft bullet.

5. The toy gun shell changing and throwing device of claim 4, wherein: the front edge of the base is provided with a first inclined plane which gradually inclines backwards from outside to inside, and the front end of the fixture block is provided with a second inclined plane which gradually inclines backwards from outside to inside.