CN220818725U - Soft bullet air gun toy - Google Patents

Abstract

The utility model relates to a soft bullet air gun toy, which comprises a gun body, a magazine, a bullet pushing air cylinder, an elastic air bag, a striking component, a trigger component and a loading component, wherein the gun body is provided with a gun chamber for soft bullet to be ejected, one side of the gun chamber positioned in the gun body is coaxially provided with a guide groove, the bullet pushing air cylinder and the elastic air bag are movably arranged in the guide groove, the bullet pushing air cylinder is communicated with the gun chamber, the elastic air bag is fixedly connected with the bullet pushing air cylinder, and the elastic air bag is communicated with the bullet pushing air cylinder; the magazine is detachably arranged on the gun body, and a bullet outlet of the magazine is propped against the bullet pushing cylinder; the striking component is slidably abutted on the elastic air bag along the axis of the guide groove; the loading assembly is slidably arranged on the gun body along the axial direction parallel to the guide groove, and is fixedly connected with the bullet pushing cylinder. The soft bullet air gun toy disclosed by the utility model is ingenious in design, can continuously launch soft bullets, and effectively improves the entertainment and playability of the toy.

Description

Soft bullet air gun toy

Technical Field

The utility model relates to the technical field of toys, in particular to a soft bullet air gun toy.

Background

Advances in technology have prompted the development of the child toy industry, and various types of child toys with different styles and functions not only bring a lot of fun to the life of children, but also are significant for early intelligence development. Among them, the toy gun is popular and touted by children as a kind of relatively popular toy.

Soft bullet guns are one of toy guns, and because of the high soft bullet safety coefficient of soft bullet guns, the types and styles of soft bullet guns are increasing. Most of the existing soft bullet guns are provided with a gun barrel at the head part, an inner cavity for accommodating soft bullets is arranged on the gun barrel, and after the soft bullets are plugged into the inner cavity of the gun barrel, the soft bullets can be launched by utilizing a launching device of the soft bullet gun. However, after the soft bullet is launched, the soft bullet is required to be picked up and re-loaded and launched again, so that the user experience is poor and the entertainment and playability are low.

Disclosure of utility model

Based on the above, the utility model aims to overcome the defects of the prior art and provide the soft bullet air gun toy which has ingenious design and can continuously launch soft bullets, thereby effectively improving the entertainment and playability of the toy.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

The soft bullet air gun toy comprises a gun body, a magazine, a bullet pushing air cylinder, an elastic air bag, a striking component, a trigger component and a loading component, wherein a gun chamber for the soft bullet to be ejected is formed in the gun body, a guide groove is coaxially formed in one side of the gun chamber, the bullet pushing air cylinder and the elastic air bag are movably arranged in the guide groove, the bullet pushing air cylinder is communicated with the gun chamber, the elastic air bag is fixedly connected with the bullet pushing air cylinder, and the elastic air bag is communicated with the bullet pushing air cylinder; the magazine is detachably arranged on the gun body, and a bullet outlet of the magazine is propped against the bullet pushing cylinder; the striking component is slidably abutted on the elastic air bag along the axis of the guide groove; the loading assembly is slidably arranged on the gun body along the axial direction parallel to the guide groove, and is fixedly connected with the bullet pushing cylinder; the loading assembly is used for driving the striking assembly to move in a direction away from the elastic air bag, so that the striking assembly is matched and clamped with the trigger assembly, the loading assembly is used for driving the bullet pushing cylinder and the elastic air bag to move in a direction away from the gun chamber, so that soft bullets in the magazine are lifted into the guide groove, and the bullet pushing cylinder and the elastic air bag are driven by the loading assembly to move in a direction close to the gun chamber, so that the soft bullets in the guide groove are pushed into the bullet pushing cylinder.

As an embodiment, the end of the bore adjacent to the cartridge barrel is telescopically provided with a shield, part of which extends into the bore to enable the cartridge barrel to resist soft projectiles as they are filled.

As one embodiment, the loading assembly is provided with a top plate portion for pushing the baffle, and when the loading assembly drives the cartridge pushing cylinder to lean against the gun bore, the top plate portion of the loading assembly pushes the baffle so that the portion of the baffle extending out of the gun bore can be used for exiting the gun bore.

As one implementation mode, the bullet pushing air cylinder is of a cylindrical structure with two open ends, a gap is formed in the bottom of one end, close to the bore, of the bullet pushing air cylinder, and the elastic air bag is communicated with the other end of the bullet pushing air cylinder in a sealing mode.

As one embodiment, a guide cylinder is disposed on the outer peripheral side of one end of the bullet pushing cylinder away from the bore, one end of the guide cylinder away from the bullet pushing cylinder is provided with an opening, the elastic air bag is telescopically disposed in the guide cylinder, and the outer diameter of the elastic air bag is slightly smaller than the inner diameter of the guide cylinder.

As one implementation mode, the elastic air bag is an organ air bag, the elastic air bag is of an air bag structure with an air port at one end, and the air port of the elastic air bag is communicated with the bullet pushing air cylinder in a sealing mode.

As an implementation mode, the striking assembly comprises a striking piece and a striking spring, the gun body is provided with sliding rails in parallel along the axial direction of the guide groove, the striking piece is slidably sleeved on the sliding rails, one end, abutting against the elastic air bag, of the striking piece is provided with a striking part, and one end, deviating from the striking part, of the striking piece is abutted against the gun body through the striking spring.

As one embodiment, the trigger assembly comprises a trigger, a clamping hook, a first spring and a second spring, wherein the trigger is arranged on the gun body in a telescopic way through the first spring, the clamping hook is arranged on the gun body in a telescopic way through the second spring, the clamping hook and the trigger are respectively provided with a first wedge-shaped part which is matched with each other, and the clamping hook and the striking piece are respectively provided with a second wedge-shaped part which is matched with each other; so that when the loading assembly drives the striking piece to move in a direction away from the elastic air bag, the striking piece is matched and clamped with the clamping hook; when the trigger moves in the direction of compressing the first spring, the trigger can push the clamping hook to move in the direction of compressing the second spring and to be separated from the striking piece.

As an implementation mode, the loading assembly comprises a loading connecting rod and a handheld part, wherein a limit groove for sliding the loading connecting rod is formed in the gun body along the axis direction parallel to the guide groove, the handheld part is fixedly connected with the loading connecting rod, and at least part of the handheld part extends out of the gun body.

As an implementation mode, a magazine clamping groove is formed in the gun body, the magazine clamping groove is communicated with the guide groove, a clamping piece is arranged on the side wall of the magazine clamping groove in a telescopic mode, a notch matched with the clamping piece is formed in the side wall of the magazine, and when the magazine is inserted into the magazine clamping groove, the notch is clamped with the clamping piece.

Compared with the prior art, the soft bullet air gun toy has the beneficial effects that:

According to the utility model, the gun body is provided with the gun chamber, the bullet pushing cylinder, the elastic air bag and the striking component which are coaxially arranged in sequence, the magazine is propped against the bullet pushing cylinder, the bullet pushing cylinder and the elastic air bag can be driven to move backwards through the feeding component, so that the soft bullet in the magazine is lifted into the guide groove, and meanwhile, the elastic air bag is extruded and contracted, and the feeding component is further pushed to drive the striking component to be clamped with the trigger component; then the loading assembly is pushed in the opposite direction to drive the bullet pushing cylinder and the elastic air bag to move reversely, so that the bullet pushing cylinder fills soft bullets in the guide groove, meanwhile, the soft bullets filled in the bullet pushing cylinder extrude air in the bullet pushing cylinder into the elastic air bag, so that the elastic air bag returns to tension, finally, the loading assembly is reset to an initial position, the bullet pushing cylinder can be abutted against a gun chamber, the soft bullets in the bullet pushing cylinder are ready for being shot, and the trigger assembly is pulled to enable the beating assembly to be released and hit the elastic air bag rapidly, so that the soft bullets in the bullet pushing cylinder are shot out from the gun chamber. The soft bullet can be continuously launched by repeating the operation, so that the entertainment and playability of the toy are effectively improved.

For a better understanding and implementation, the present utility model is described in detail below with reference to the drawings.

Drawings

FIG. 1 is a schematic view of the overall structure of the soft bullet air gun toy of the present utility model;

FIG. 2 is a schematic diagram of the internal structure of the soft bullet air gun toy of the present utility model;

FIG. 3 is a second schematic view of the internal structure of the soft bullet air gun toy of the present utility model;

FIG. 4 is a third schematic view of the internal structure of the soft bullet air gun toy of the present utility model;

FIG. 5 is a schematic diagram of the internal structure of the soft bullet air gun toy of the present utility model;

fig. 6 is a schematic diagram of the internal structure of the soft bullet air gun toy of the present utility model.

Reference numerals illustrate: 10. a gun body; 11. a bore; 12. a guide groove; 13. a baffle; 14. a magazine clamping groove; 15. a clip; 16. a slide rail; 20. a magazine; 21. a notch; 22. a jack-up spring; 23. soft bullets; 30. a bullet pushing inflator; 31. a guide cylinder; 40. an elastic air bag; 50. a striking assembly; 51. a striking member; 52. a striking spring; 53. a striking part; 60. a trigger assembly; 61. a trigger; 62. a hook; 63. a first spring; 64. a second spring; 70. a loading assembly; 71. a loading connecting rod; 72. a hand-held part; 73. a top plate.

Detailed Description

For further illustration of the various embodiments, the utility model is provided with the accompanying drawings. The accompanying drawings, which are incorporated in and constitute a part of this disclosure, illustrate embodiments and together with the description, serve to explain the principles of the embodiments. With reference to these matters, one of ordinary skill in the art will understand other possible implementations and advantages of the present utility model.

In the description of the present utility model, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "left", "right", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus are not to be construed as limiting the present utility model.

Please refer to fig. 1 to 6; the embodiment provides a soft bullet air gun toy, which comprises a gun body 10, a magazine 20, a bullet pushing air cylinder 30, an elastic air bag 40, a striking component 50, a trigger 61 component 60 and a loading component 70, wherein a gun chamber 11 for the soft bullet 23 to be ejected is formed on the gun body 10, a guide groove 12 is coaxially arranged on one side of the gun chamber 11 positioned in the gun body 10, the bullet pushing air cylinder 30 and the elastic air bag 40 are movably arranged in the guide groove 12, the bullet pushing air cylinder 30 is communicated with the gun chamber 11, the elastic air bag 40 is fixedly connected with the bullet pushing air cylinder 30, and the elastic air bag 40 is communicated with the bullet pushing air cylinder 30; the magazine 20 is detachably mounted on the gun body 10, and a bullet outlet of the magazine 20 is propped against the bullet pushing cylinder 30; the striking assembly 50 is slidably abutted on the elastic air bag 40 along the axis of the guide groove 12; the loading assembly 70 is slidably arranged on the gun body 10 along the axial direction parallel to the guide groove 12, and the loading assembly 70 is fixedly connected with the bullet pushing cylinder 30; the loading assembly 70 is configured to drive the striking assembly 50 to move away from the elastic air bag 40, so that the striking assembly 50 is engaged with the trigger 61 assembly 60, and the loading assembly 70 is configured to drive the cartridge pushing cylinder 30 and the elastic air bag 40 to move away from the bore 11, so that the soft bullet 23 in the magazine 20 is lifted into the guide groove 12, and then the loading assembly 70 drives the cartridge pushing cylinder 30 and the elastic air bag 40 to move towards a direction approaching to the bore 11, so that the soft bullet 23 in the guide groove 12 is pushed into the cartridge pushing cylinder 30.

Therefore, according to the utility model, the gun chamber 11, the bullet pushing cylinder 30, the elastic air bag 40 and the striking component 50 are sequentially and coaxially arranged on the gun body 10, the magazine 20 is propped against the bullet pushing cylinder 30, and the bullet pushing cylinder 30 and the elastic air bag 40 can be driven to move backwards through the feeding component 70, so that the soft bullet 23 in the magazine 20 is lifted into the guide groove 12, meanwhile, the elastic air bag 40 is extruded and contracted, and the striking component 50 can be driven to be clamped with the trigger 61 component 60 by further pushing the feeding component 70; then, the loading assembly 70 is pushed in the opposite direction to drive the bullet pushing cylinder 30 and the elastic air bag 40 to move in the opposite direction, so that the bullet pushing cylinder 30 fills the soft bullet 23 in the guide groove 12, meanwhile, the soft bullet 23 filled in the bullet pushing cylinder 30 presses the air in the bullet pushing cylinder 30 into the elastic air bag 40, so that the elastic air bag 40 returns to tension, finally, the loading assembly 70 is reset to the initial position, so that the bullet pushing cylinder 30 is abutted against the gun chamber 11, the soft bullet 23 in the bullet pushing cylinder 30 is ready for being launched, and the trigger 61 assembly 60 is triggered to enable the hitting assembly 50 to be disengaged and hit on the elastic air bag 40 quickly, so that the soft bullet 23 in the bullet pushing cylinder 30 is launched from the gun chamber 11. Repeating the above operations allows for continuous firing of the soft shell 23, effectively enhancing the entertainment and playability of the toy.

Optionally, a baffle 13 is telescopically arranged at the end of the bore 11 adjacent to the cartridge barrel 30, and a part of the baffle 13 extends into the bore 11, so that the cartridge barrel 30 can resist the soft bullet 23 when filling the soft bullet 23. Further, in this embodiment, the top plate 73 for pushing the baffle 13 is provided on the upper chamber assembly 70, and when the upper chamber assembly 70 drives the cartridge pushing cylinder 30 to abut against the bore 11, the top plate 73 of the upper chamber assembly 70 pushes the baffle 13, so that the portion of the baffle 13 extending out of the bore 11 exits the bore 11. Wherein the shutter 13 is telescopically arranged on one side of the bore 11 by means of a telescopic spring.

In the process of driving the bullet pushing cylinder 30 to fill the soft bullet 23 by the loading assembly 70, the baffle 13 in the gun chamber 11 can block automatically so that the soft bullet 23 can be filled into the bullet pushing cylinder 30, and meanwhile, the air in the bullet pushing cylinder 30 is extruded into the elastic air bag 40, so that the elastic air bag 40 is in an inflation stage; when the loading assembly 70 drives the cartridge pushing cylinder 30 to abut against the bore 11, the top plate 73 of the loading assembly 70 pushes the baffle 13 at the same time, so that the baffle 13 withdraws from the bore 11, thereby opening the passage of the bore 11 and removing the obstruction to the soft bullet 23. That is, only when the cartridge pushing cylinder 30 abuts against one end of the bore 11, the shutter 13 is triggered and exits from the bore 11, and during the process of filling the cartridge pushing cylinder 30 with the soft bullet 23, the shutter 13 is extended out of the bore 11 under the action of the extension spring to provide a resisting force for the soft bullet 23, so that the soft bullet 23 is prevented from being pushed into the bore 11 during the process of filling the soft bullet 23 and cannot be filled into the cartridge pushing cylinder 30, and thus the problem of airtight leakage between the cartridge pushing cylinder 30 and the elastic air bag 40 is caused.

Optionally, in this embodiment, the cartridge pushing cylinder 30 has a cylindrical structure with two open ends, a notch is formed at a bottom of one end of the cartridge pushing cylinder 30, which is close to the bore 11, and the elastic air bag 40 is hermetically connected to the other end of the cartridge pushing cylinder 30. Further, a guide cylinder 31 is provided on the outer circumferential side of the end of the cartridge 30 remote from the bore 11, the end of the guide cylinder 31 remote from the cartridge 30 is provided with an opening, the elastic air bag 40 is telescopically provided in the guide cylinder 31, and the outer diameter of the elastic air bag 40 is slightly smaller than the inner diameter of the guide cylinder 31.

The elastic air bag 40 is an organ air bag, the elastic air bag 40 is an air bag structure with an air port at one end, and the air port of the elastic air bag 40 is communicated with the bullet pushing air cylinder 30 in a sealing way. That is, in this embodiment, through the ingenious arrangement of the bullet pushing cylinder 30 and the elastic air bag 40, the bullet pushing cylinder 30 and the elastic air bag 40 can be used as a filling structure of the soft bullet 23, and can also be used as a gas emission structure of the soft bullet 23, and simultaneously, the position of the beating component 50 is set in cooperation, when the beating component 50 and the trigger 61 component 60 are not clamped, the beating component 50 is propped against the elastic air bag 40, so that most of the air in the elastic air bag 40 is extruded, when the loading component 70 drives the beating component 50 and the trigger 61 component 60 to be clamped with each other, the loading component 70 drives the bullet pushing cylinder 30 and the elastic air bag 40 to move backwards at the same time, so as to open the bullet outlet of the cartridge 20, and then the soft bullet 23 in the cartridge 20 is automatically propped up to the position occupied by the bullet pushing cylinder 30, and then the loading component 70 is reversely pushed to drive the bullet pushing cylinder 30 to sleeve the soft bullet 23 into the inside, in the process of the soft bullet 23, and in the process of filling the soft bullet 23, since one end of the soft bullet 23 is propped against the baffle 13, the soft bullet 23 can be extruded out of the inner part 30, so that the air in the soft bullet 23 can be extruded out of the soft bullet 30 in the process, and the air bag 40 is extruded by the soft bullet 30, and the air bag 30 is completely, and the air bag is completely compressed by the soft bullet 23, and the soft bullet 23 is completely compressed into the soft bullet 30, and the soft bullet 30 is compressed into the soft bullet 30, and the soft bullet 23 is compressed in the state, and the soft bullet 30.

Optionally, the striking assembly 50 includes a striking member 51 and a striking spring 52, the gun body 10 is provided with a sliding rail 16 in parallel along the axial direction of the guide groove 12, the striking member 51 is slidably sleeved on the sliding rail 16, one end of the striking member 51 abutting against the elastic air bag 40 is provided with a striking portion 53, and one end of the striking member 51 facing away from the striking portion 53 abuts against the gun body 10 through the striking spring 52.

Further, the trigger 61 assembly 60 includes a trigger 61, a hook 62, a first spring 63, and a second spring 64, the trigger 61 is telescopically disposed on the gun body 10 by the first spring 63, the hook 62 is telescopically disposed on the gun body 10 by the second spring 64, the hook 62 and the trigger 61 are respectively provided with first wedge-shaped parts mutually matched, and the hook 62 and the striking member 51 are respectively provided with second wedge-shaped parts mutually matched; so that when the loading assembly 70 drives the striking member 51 to move away from the elastic air bag 40, the striking member 51 is engaged with the hook 62; when the trigger 61 moves in a direction of compressing the first spring 63, the trigger 61 can push the hook 62 to move in a direction of compressing the second spring 64 and disengage from the striking member 51.

Optionally, the loading assembly 70 includes a loading connecting rod 71 and a holding portion 72, the gun body 10 is provided with a limiting slot for sliding the loading connecting rod 71 along a direction parallel to the axis of the guiding slot 12, the holding portion 72 is fixedly connected with the loading connecting rod 71, and at least part of the holding portion 72 extends out of the gun body 10.

Thus, the user can grasp the hand-holding portion 72 and drive the loading connecting rod 71 to slide on the gun body 10, so as to perform loading operation on the striking assembly 50, soft bullet 23 filling operation on the bullet-pushing air cylinder 30, and the like.

Optionally, the gun body 10 is provided with a magazine clamping groove 14, the magazine clamping groove 14 is communicated with the guide groove 12, a clamping piece 15 is telescopically arranged on a side wall of the magazine 20 clamping groove, and a notch 21 adapted to the clamping piece 15 is formed on a side wall of the magazine 20, so that when the magazine 20 is inserted into the magazine clamping groove 14, the notch 21 is clamped with the clamping piece 15.

Further, the fastening member 15 of the present embodiment is telescopically disposed in the magazine clamping groove 14 by a telescopic spring, at least a portion of the fastening member 15 extends into the magazine clamping groove 14, and a wedge portion is disposed at the lower end of the portion of the fastening member 15 extending into the magazine clamping groove 14, so that the magazine 20 can automatically jack the fastening member 15 during the process of inserting into the magazine clamping groove 14 until the notch 21 of the magazine 20 moves to the fastening member 15, and the fastening member 15 automatically extends out under the action of the telescopic spring and clamps the notch 21, and the ejection opening of the magazine 20 is just propped against the cartridge pushing cylinder 30. In addition, when the magazine 20 needs to be taken out, the magazine 20 can be removed by pushing the fastener 15 away from the notch 21 of the magazine 20.

Optionally, the magazine 20 of the present embodiment is a cavity structure with an opening at an upper end, the bottom of the magazine 20 is provided with a jack spring 22, and a supporting plate is disposed at the top of the jack spring 22, so that when the soft bullet 23 is filled into the magazine 20, the jack spring 22 has a certain jack force on the soft bullet 23, so that the soft bullet 23 in the magazine 20 can be jacked all the time when the magazine 20 is inserted into the magazine clamping groove 14.

The foregoing examples illustrate only a few embodiments of the utility model, which are described in greater detail and are not to be construed as limiting the scope of the utility model. It will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the spirit of the utility model.

Claims (10)

1. A soft bullet air gun toy, which is characterized in that:

The device comprises a gun body, a magazine, a bullet pushing air cylinder, an elastic air bag, a striking assembly, a trigger assembly and a loading assembly, wherein a gun chamber for the soft bullet to be ejected is formed in the gun body, a guide groove is coaxially formed in one side of the gun chamber, the bullet pushing air cylinder and the elastic air bag are movably arranged in the guide groove, the bullet pushing air cylinder is communicated with the gun chamber, the elastic air bag is fixedly connected with the bullet pushing air cylinder, and the elastic air bag is communicated with the bullet pushing air cylinder; the magazine is detachably arranged on the gun body, and a bullet outlet of the magazine is propped against the bullet pushing cylinder; the striking component is slidably abutted on the elastic air bag along the axis of the guide groove; the loading assembly is slidably arranged on the gun body along the axial direction parallel to the guide groove, and is fixedly connected with the bullet pushing cylinder;

The loading assembly is used for driving the striking assembly to move in a direction away from the elastic air bag, so that the striking assembly is matched and clamped with the trigger assembly, the loading assembly is used for driving the bullet pushing cylinder and the elastic air bag to move in a direction away from the gun chamber, so that soft bullets in the magazine are lifted into the guide groove, and the bullet pushing cylinder and the elastic air bag are driven by the loading assembly to move in a direction close to the gun chamber, so that the soft bullets in the guide groove are pushed into the bullet pushing cylinder.

2. The soft bullet air gun toy of claim 1 wherein:

The end of the bore, which is close to the cartridge barrel, is telescopically provided with a baffle, and a part of the baffle extends into the bore, so that the cartridge barrel can resist soft bullets when the cartridge barrel is filled with the soft bullets.

3. The soft bullet air gun toy of claim 2 wherein:

The loading assembly is provided with a top plate part for pushing the baffle, and when the loading assembly drives the bullet pushing cylinder to lean against the gun chamber, the top plate part of the loading assembly pushes the baffle so that the part of the baffle extending out of the gun chamber is used for exiting the gun chamber.

4. The soft bullet air gun toy of claim 1 wherein:

The bullet pushing air cylinder is of a cylindrical structure with two open ends, a gap is formed in the bottom of one end, close to the bore, of the bullet pushing air cylinder, and the elastic air bag is communicated with the other end of the bullet pushing air cylinder in a sealing mode.

5. The soft bullet air gun toy of claim 4 wherein:

The bullet pushing cylinder is far away from the guide cylinder is arranged on the outer peripheral side of one end of the gun bore, one end of the guide cylinder, which is far away from the bullet pushing cylinder, is arranged in an open mode, the elastic air bag is arranged in the guide cylinder in a telescopic mode, and the outer diameter of the elastic air bag is slightly smaller than the inner diameter of the guide cylinder.

6. The soft bullet air gun toy of claim 4 wherein:

The elastic air bag is an organ air bag, the elastic air bag is of an air bag structure with an air port at one end, and the air port of the elastic air bag is communicated with the bullet pushing inflator in a sealing way.

7. The soft bullet air gun toy of claim 4 wherein:

the impact assembly comprises an impact piece and an impact spring, wherein sliding rails are arranged on the gun body in parallel along the axial direction of the guide groove, the impact piece is slidably sleeved on the sliding rails, an impact part is arranged at one end of the impact piece, which is abutted against the elastic air bag, and one end of the impact piece, which is away from the impact part, is abutted against the gun body through the impact spring.

8. The soft bullet air gun toy of claim 7 wherein:

The trigger assembly comprises a trigger, a clamping hook, a first spring and a second spring, wherein the trigger is arranged on the gun body in a telescopic way through the first spring, the clamping hook is arranged on the gun body in a telescopic way through the second spring, the clamping hook and the trigger are respectively provided with a first wedge-shaped part which is matched with each other, and the clamping hook and the striking piece are respectively provided with a second wedge-shaped part which is matched with each other; so that when the loading assembly drives the striking piece to move in a direction away from the elastic air bag, the striking piece is matched and clamped with the clamping hook; when the trigger moves in the direction of compressing the first spring, the trigger can push the clamping hook to move in the direction of compressing the second spring and to be separated from the striking piece.

9. The soft bullet air gun toy of claim 1 wherein:

The feeding assembly comprises a feeding connecting rod and a handheld part, wherein a limit groove for sliding the feeding connecting rod is formed in the gun body along the axis direction parallel to the guide groove, the handheld part is fixedly connected with the feeding connecting rod, and at least part of the handheld part extends out of the gun body.

10. The soft bullet air gun toy of claim 1 wherein:

The gun body is provided with a magazine clamping groove which is communicated with the guide groove, the side wall of the magazine clamping groove is provided with a clamping piece in a telescopic mode, the side wall of the magazine is provided with a notch which is matched with the clamping piece, and when the magazine is inserted into the magazine clamping groove, the notch is clamped with the clamping piece.