阅读说明：本技术 应用在玩具枪的枪机载体及机匣组件 (Gunlock carrier and receiver assembly for toy gun ) 是由 陈勃至 于 2021-04-22 设计创作，主要内容包括：本发明揭露一种机匣组件,其应用于玩具枪。机匣组件包括枪机载体、机匣以及弹匣。枪机载体用以连接于玩具枪的移动元件。枪机载体包括持弹结构及导引部。持弹结构位于枪机载体的其中一端。导引部邻近于持弹结构的一侧。机匣用以套设于枪机载体的外侧,并固定于玩具枪。机匣包括供弹通道及容弹槽。供弹通道邻近于导引部。容弹槽对应于持弹结构。弹匣用以容置子弹,并设置于供弹通道,且弹匣连通容弹槽。当枪机载体被玩具枪的移动元件带动往弹匣的方向移动时,子弹受导引部推抵而移动至容弹槽,且持弹结构的一端夹持子弹。(The invention discloses a cartridge assembly, which is applied to a toy gun. The receiver assembly includes a bolt carrier, a receiver, and a magazine. The bolt carrier is used for connecting with a moving element of the toy gun. The bolt carrier comprises a bullet holding structure and a guide part. The bullet holding structure is located at one end of the bolt carrier. The guide part is adjacent to one side of the bullet holding structure. The receiver is used for being sleeved outside the gun carrier and fixed on the toy gun. The cartridge receiver comprises a cartridge feed channel and a cartridge accommodating groove. The ammunition feed channel is adjacent to the guide part. The bullet containing groove corresponds to the bullet holding structure. The magazine is used for accommodating bullets and is arranged in the bullet supply channel, and the magazine is communicated with the bullet accommodating groove. When the gunlock carrier is driven by the moving element of the toy gun to move towards the magazine, the bullet is pushed by the guide part to move to the bullet containing groove, and one end of the bullet holding structure clamps the bullet.)

1. A bolt carrier for holding a cartridge case, wherein the cartridge case includes an annular groove, the bolt carrier comprising:

the bullet holding structure is positioned at one end of the gunlock carrier and used for clamping the bullet shell, and the bullet holding structure comprises a clamping hook which can hook the annular groove, wherein the clamping hook can outwards deviate relative to the bullet holding structure so as to separate the bullet shell from the bullet holding structure.

2. The bolt carrier of claim 1 wherein the bolt carrier comprises a spring connecting the hook and the bolt carrier, wherein the spring provides a return force to the hook upon outward deflection of the hook relative to the bullet holding structure.

3. The bolt carrier of claim 1, wherein the bolt carrier is used for a magazine and a magazine, the magazine is connected to the magazine, the magazine is configured to be sleeved outside the bolt carrier, the magazine includes a magazine passage and a magazine slot, the magazine is configured to receive the cartridge case and is disposed in the magazine passage, and the magazine is connected to the magazine slot, wherein the bolt carrier is capable of moving relative to the magazine, and the bolt carrier comprises:

the guiding part is adjacent to one side of the bullet holding structure, when the gunlock carrier moves towards the direction of the magazine, the guiding part is used for pushing the bullet shell to the bullet containing groove, and the bullet holding structure can clamp the bullet shell.

4. The bolt carrier of claim 3, wherein the receiver includes a ejection projection adjacent to the feed channel and along a path of travel of the cartridge retaining structure, the ejection projection abutting the cartridge case when the cartridge retaining structure retains the cartridge case and moves away from the receiver, causing the catch to deflect outwardly relative to the cartridge retaining structure and release the cartridge case from the cartridge retaining structure.

5. The bolt carrier of claim 4 wherein the projectile holding structure further comprises a notch through which the projectile boss passes and abuts the projectile shell as the projectile holding structure passes the projectile boss.

6. A cartridge assembly for use with a toy gun having a moving element and a muzzle and a plurality of cartridges, the cartridge assembly comprising:

a bolt carrier for connection to the moving element, the bolt carrier comprising:

the bullet holding structure is positioned at one end of the gunlock carrier; and

the guide part is adjacent to one side of the bullet holding structure;

the receiver is used for being sleeved on the outer side of the gun carrier and fixed on the toy gun, and the receiver comprises:

a feed channel adjacent to the guide; and

the bullet containing groove corresponds to the bullet holding structure; and

the magazine is used for accommodating the bullets and is arranged in the bullet supply channel, and the magazine is communicated with the bullet containing groove, wherein when the gun carrier is driven by the moving element of the toy gun to move towards the direction of the magazine, one of the bullets is pushed by the guide part to move to the bullet containing groove, and one end of the bullet holding structure holds the bullet.

7. The receiver assembly of claim 6, wherein the feed channel has a guiding curved surface, an upper edge of the guiding curved surface is connected to the slot, one of the cartridges is located at a lower edge of the guiding curved surface, and the cartridge returns to a horizontal angle from an oblique angle when the cartridge moves from the lower edge to the upper edge of the guiding curved surface under the pushing of the guiding portion.

8. The receiver assembly as in claim 6, wherein the bolt carrier includes an air duct having one end in communication with the muzzle and another end disposed within the bullet holding structure.

9. The receiver assembly of claim 6, wherein the receiver further comprises a barrel in communication with the magazine.

10. The receiver assembly of claim 6, wherein each of the cartridges includes a case having an annular groove, the cartridge holding structure includes a hook and a spring, the spring connects the hook and the bolt carrier, one of the cartridges is pushed by the guiding portion to contact the hook, and one end of the hook hooks the annular groove of the case.

11. The receiver assembly of claim 10, wherein the catch is biased outwardly relative to the bullet-holding structure to disengage the shell from the bullet-holding structure when the bullet-holding structure holds the shell for movement away from the receiver.

12. The receiver assembly of claim 11, wherein the spring provides a restoring force for the hook after the hook is biased outwardly relative to the spring holder.

13. The receiver assembly of claim 11, wherein the receiver includes a ejection protrusion adjacent to the cartridge feed channel and located in a path of movement of the cartridge retaining structure, the ejection protrusion abutting against the cartridge case when the cartridge retaining structure retains the cartridge case and moves away from the receiver, such that the hook is outwardly biased relative to the cartridge retaining structure and disengages the cartridge case from the cartridge retaining structure.

14. The receiver assembly of claim 13, wherein the shot holding structure further comprises a notch, the projectile boss passing through the notch and abutting the cartridge casing when the shot holding structure passes the projectile boss.

15. The receiver assembly of claim 6, wherein the receiver further comprises a pull handle movably disposed in the receiver and coupled to the bolt carrier.

16. The barrel assembly of claim 15, wherein the barrel further comprises a hollow passage, the pull handle being movable within the hollow passage.

17. The barrel assembly of claim 6, further comprising:

at least one locking piece which is respectively clamped with the receiver and the toy gun to ensure that the receiver is fixed on the toy gun.

18. The receiver assembly of claim 6, wherein the moving element is a sliding sleeve, the bolt carrier being disposed outside of the sliding sleeve.

19. The receiver assembly of claim 6 wherein said moving element is a piston and said bolt carrier has a connector connected to said piston.

Technical Field

The invention relates to a cartridge assembly, in particular to a cartridge assembly applied to a toy gun.

Background

Because of the compact pace of modern life, which causes much stress on life, the accumulated stress needs to be released through various leisure activities. Many more choose a more vigorous and stimulating activity to release the pressure. For example, many game enthusiasts have played games that operate a toy gun such as a BB gun, paintball gun, air gun, or electric gun to perform shooting movements, thereby achieving the effect of releasing pressure.

When a hobbyist of a shooting game (or a survival game) selects a toy gun, the toy gun with better simulation effect is selected as much as possible. If a toy gun with a larger body (e.g., similar to a rifle) is to be selected, a rifle-shaped toy gun must be selected. However, not all fans of shooting games can afford toy guns of various styles. Therefore, how to provide a module or assembly applicable to a general toy pistol (such as an air gun or an electric gun) is a goal of toy gun manufacturers and shooting game enthusiasts.

Disclosure of Invention

In view of the above, the present invention is directed to a cartridge assembly for use with a toy gun, which utilizes a structure and operation of a bolt carrier and a cartridge to solve the problem of the prior art that there is no module or assembly for use with a toy gun.

To achieve the above objects, the present invention provides a bolt carrier for holding a cartridge case. The cartridge case includes a ring groove and the bolt carrier includes a cartridge holding structure. The bullet holding structure is positioned at one end of the gunlock carrier and used for clamping the bullet shell. The bullet holding structure comprises a clamping hook which can hook the annular groove. Wherein, the trip can hold bullet structure outwards skew so that the shell case breaks away from and holds bullet structure relatively.

Preferably, the bolt carrier includes a spring connecting the catch and the bolt carrier. After the hook is deflected outwards relative to the elastic holding structure, the spring provides a restoring force for the hook.

Preferably, the bolt carrier is used for a receiver and a magazine, the magazine is connected with the receiver, and the magazine is used for being sleeved on the outer side of the bolt carrier. The magazine comprises a magazine supply channel and a magazine accommodating groove, the magazine is used for accommodating the cartridge case and is arranged in the magazine supply channel, and the magazine is communicated with the magazine accommodating groove. Wherein the bolt carrier is movable relative to the receiver, the bolt carrier including a guide adjacent one side of the bullet holding structure. When the gunlock carrier moves towards the direction of the magazine, the guide part is used for pushing the cartridge case to the cartridge containing groove, and the cartridge case can be clamped by the cartridge holding structure.

Preferably, the receiver comprises a ejection projection adjacent to the feed channel and in the path of movement of the cartridge holding structure. When the bullet holding structure clamps the bullet shell and moves towards the direction far away from the magazine, the shell-throwing convex part abuts against the bullet shell, so that the clamping hook outwards deviates relative to the bullet holding structure and the bullet shell is separated from the bullet holding structure.

Preferably, the bullet holding structure further comprises a notch, and when the bullet holding structure passes through the ejection convex part, the ejection convex part passes through the notch and abuts against the cartridge case.

To achieve the above object, the present invention further provides a cartridge assembly for a toy gun and a plurality of cartridges. The toy gun has a moving element and a muzzle. The receiver module includes a receiver, a receiver and a magazine. The bolt carrier is used for connecting with the moving element. The bolt carrier comprises a bullet holding structure and a guide part. The bullet holding structure is located at one end of the bolt carrier. The guide part is adjacent to one side of the bullet holding structure. The receiver is used for being sleeved outside the gun carrier and fixed on the toy gun. The cartridge receiver comprises a cartridge feed channel and a cartridge accommodating groove. The ammunition feed channel is adjacent to the guide part. The bullet containing groove corresponds to the bullet holding structure. The magazine is used for accommodating the bullets and is arranged in the bullet supply channel, and the magazine is communicated with the bullet accommodating groove. When the bolt carrier is driven by the moving element of the toy gun to move towards the magazine, one of the bullets is pushed by the guide part to move to the bullet containing groove, and one end of the bullet holding structure holds the bullet.

Preferably, the feed channel has a guide contour. The upper edge of the guiding cambered surface is connected with the bullet containing groove, and one of the bullets is positioned at the lower edge of the guiding cambered surface. When the bullet is pushed by the guiding part to move from the lower edge to the upper edge of the guiding cambered surface, the bullet returns to a horizontal angle from the inclined angle.

Preferably, the bolt carrier includes an air duct. One end of the air duct is communicated with the muzzle, and the other end is arranged in the bullet holding structure.

Preferably, the receiver further comprises a barrel in communication with the magazine.

Preferably, the cartridges include a cartridge case, and the cartridge case has a ring groove. The bullet holding structure comprises a clamping hook and a spring, the spring is connected with the clamping hook and the gun carrier, one of the bullets is pushed by the guide part to be contacted with the clamping hook, and one end of the clamping hook inwards hooks the annular groove of the bullet shell.

Preferably, when the bullet holding structure holds the cartridge case and moves away from the magazine, the hook is shifted outwards relative to the bullet holding structure so as to separate the cartridge case from the bullet holding structure.

Preferably, the spring provides a restoring force for the hook after the hook is biased outwardly relative to the elastic holding structure.

Preferably, the receiver comprises a ejection projection adjacent to the feed channel and in the path of movement of the cartridge holding structure. When the bullet holding structure clamps the bullet shell and moves towards the direction far away from the magazine, the shell-throwing convex part abuts against the bullet shell, so that the clamping hook outwards deviates relative to the bullet holding structure and the bullet shell is separated from the bullet holding structure.

Preferably, the bullet holding structure further comprises a notch, and when the bullet holding structure passes through the ejection convex part, the ejection convex part passes through the notch and abuts against the cartridge case.

Preferably, the receiver further includes a pull handle movably disposed in the receiver and coupled to the bolt carrier.

Preferably, the receiver further includes a hollow passage within which the pull handle is movable.

Preferably, the receiver assembly further comprises at least one locking member for engaging the receiver and the toy gun, respectively, to secure the receiver to the toy gun.

Preferably, the moving element is a sliding sleeve, and the bolt carrier is arranged outside the sliding sleeve.

Preferably, the moving element is a piston and the bolt carrier has a connection to the piston.

The invention has the beneficial effects that: the receiver assembly comprises a gun carrier and a receiver, wherein the receiver is sleeved outside the gun carrier and is fixed on a toy gun. The bolt carrier may be connected to a moving member (slide or piston) of the toy gun such that the bolt carrier may load or fire a bullet in response to reciprocation of the moving member. Specifically, when the bolt carrier is driven by the moving element to move back and forth, the bullet can be pushed to the bullet containing groove by the guiding part of the bullet holding structure, so as to complete the loading action. When the toy gun is fired, the gas generated inside can be discharged towards the bullet containing groove so as to complete the action of firing the bullet. Therefore, the receiver assembly of the present invention can be applied to a toy gun, and can perform the actions of loading a bullet or firing a bullet like a general large gun body (such as a rifle).

In addition, according to the bolt carrier of the invention, the bullet holding structure clamps the cartridge case. The clamping hook of the bullet holding structure can hook the annular groove of the bullet shell, and the bullet holding structure is outwards deviated relatively so that the bullet shell is separated from the bullet holding structure, and the shell throwing effect is achieved.

Drawings

FIG. 1 is an exploded view of a barrel assembly according to a first embodiment of the present invention;

FIG. 2A is a partial cross-sectional view of the barrel assembly of FIG. 1 in combination;

FIG. 2B is an enlarged view of area A shown in FIG. 2A;

FIGS. 3A and 3B are schematic views of the receiver assembly of FIG. 2A during cartridge loading;

FIG. 3C is an enlarged view of the bullet holding structure shown in FIG. 3B;

figures 4A-4C are schematic views of the receiver assembly of figure 2A during cartridge firing and ejection;

FIGS. 5A and 5B are enlarged views of the receiver assembly of FIG. 4C during shell ejection;

fig. 5C is an exploded view of the front end, the bullet holding structure, the hook, and the ejection protrusion of the bolt carrier shown in fig. 5A;

FIG. 5D is a schematic view of the components of FIG. 5C assembled and in a shell-throwing configuration;

fig. 6A and 6B are schematic partial cross-sectional views of a bolt carrier 10a according to a second embodiment of the present invention applied to a toy gun;

fig. 7A and 7B are partial cross-sectional views illustrating a bolt carrier 10B according to a third embodiment of the present invention applied to a toy gun.

Wherein, the reference numbers:

receiver assembly 1 bolt carrier 10, 10a, 10b

Hook 111 of bullet holding structure 11

Spring 112 airway 12

Guide part 13 convex part 14

Notch 15 connecting pieces 16a, 16b

First magnet 17 casing 20

The ammunition feed channel 21 guides the cambered surface 211

Draw handle 23 of bullet containing groove 22

Operation part 232 of groove 231

Hollow passage 24 barrel 25

Spring group 27 of ejection convex part 26

Springs 271, 272 second magnet 28

Front locking part 31 of locking part 30

Rear lock 32 magazine 40

Spring 41 toy gun 8, 8a

Moving elements 81, 81a muzzle 82

Bullet 9 cartridge case 91

Ring groove 911 pill 92

Detailed Description

In order to make the technical contents of the present invention more understandable by the noble examination committee, preferred embodiments are specifically described below.

Fig. 1 is an exploded view of a receiver assembly according to a first embodiment of the present invention, fig. 2A is a partial sectional view of the receiver assembly shown in fig. 1 after being assembled, fig. 2B is an enlarged view of a region a shown in fig. 2A, fig. 3A and 3B are schematic views of the receiver assembly shown in fig. 2A when a bullet is loaded into a chamber, fig. 3C is an enlarged view of a bullet holding structure shown in fig. 3B, and fig. 4A to 4C are schematic views of the receiver assembly shown in fig. 2A when a bullet is fired and ejected, and the following description refers to the aforementioned diagrams. The receiver assembly (1) of the present embodiment can be applied to a toy gun 8 and a plurality of bullets 9. The receiver assembly 1 of the present embodiment includes a bolt carrier 10, a receiver 20, at least one locking member 30, and a magazine 40. The bolt carrier 10, receiver 20 and locking member 30 are attached to different parts of the toy gun 8 and the cartridge 9 is received in the receiver 40. Details are further described later.

The toy gun 8 of this embodiment may be a toy gun having a moving element 81 and a muzzle 82. Depending on the type of toy gun 8, the moving element 81 may be a reciprocatable element such as a slide or piston, preferably with a stroke of between 4 cm and 5 cm. For example, a conventional air gun has a reciprocating slide sleeve, and the electric gun has a piston inside, so that the slide sleeve or the piston can be used as the moving element 81. The toy gun 8 of this embodiment is exemplified by an air gun, and the moving element 81 is exemplified by a slide sleeve.

Optionally, the magazine 40 is adapted to receive cartridges 9 (as shown in fig. 2A). That is, the cartridge 9 may be mounted to the magazine 40 first, and then the magazine 40 may be mounted to the receiver 20. In addition, the receiver assembly 1 of the present embodiment can be applied to a plurality of different types of cartridges 9, which can be BB cartridges, paintballs, or soft cartridges. Wherein the BB cartridge may or may not have a cartridge case, and the invention is not limited. As shown in fig. 4A, the bullet 9 of the present embodiment is exemplified by a BB bullet (hereinafter referred to as a pellet 92) having a shell 91, that is, each bullet 9 includes a shell 91 and a pellet 92.

In the present embodiment, referring to fig. 1 and fig. 2A, the bolt carrier 10 is used to connect the moving element 81 (i.e., sliding sleeve) of the toy gun 8. Specifically, the housing of the bolt carrier 10 has a groove for accommodating the moving element 81 (i.e. a sliding sleeve), so that the bolt carrier 10 can be sleeved outside the moving element 81. The bolt carrier 10 is sleeved on the moving element 81 to be connected to the moving element 81, so that the bolt carrier 10 can be driven by the moving element 81 to reciprocate. In addition, the bolt carrier 10 is used for holding the bullet 9, and the bullet case 91 is used for holding the bullet 9 in the embodiment.

Referring to fig. 2A, 4A and 4B, the bolt carrier 10 includes a bullet holding structure 11, an air duct 12 and a guide portion 13. It should be noted that the bullet holding structure 11 and the air duct 12 shown in fig. 4B and 4C are schematic cross-sectional views. Wherein the bullet holding structure 11 is located at one of the ends of the bolt carrier 10, herein referred to as the front end. As shown in fig. 4B, one end of the air duct 12 is connected to the muzzle 82, and the other end is disposed in the bullet holding structure 11 and is connected to the outside, which is referred to herein as the outside of the bolt carrier 10. Specifically, the bullet holding structure 11 is a hollow structure, so that the air duct 12 is inserted into the bullet holding structure 11 and can be communicated with the outside of the bolt carrier 10. The air duct 12 of this embodiment is a flexible tube to accommodate the reciprocating motion of the bolt carrier 10 driven by the moving element 81.

The receiver 20 is disposed outside the bolt carrier 10 and fixed to the toy gun 8. The receiver 20 also has a recess to receive the bolt carrier 10. Wherein, a fastening mechanism can be designed on the receiver 20 to be fixed on the toy gun 8. As shown in fig. 1 and 2A, the present embodiment is exemplified by two locking members 30, one of which is a front locking member 31, and the other of which is a rear locking member 32, which are respectively disposed at the front end and the rear end of the toy gun 8. The front locking member 31 has a recess for receiving the barrel and trigger guard of the toy gun 8, so that the front locking member 31 can be engaged from the bottom up to the center of the toy gun 8 (barrel and trigger guard) and the receiver 20. Preferably, the front locking member 31 is fixed to the receiver 20 or the toy gun 8 or to both the receiver 20 and the toy gun 8 by means of bolts or the like. The rear locking member 32 has a recess at the front end for receiving the gripping ridge of the toy gun 8 and a recess at the rear end for receiving the receiver 20 near the rear side. The rear locking member 32 may be connected at one end to a grip ridge of the toy gun 8 and at the other end to the receiver 20 such that the receiver 20 may be secured to the toy gun 8 with the rear locking member 32.

Optionally, the receiver 20 includes a feed channel 21 and a magazine slot 22. The feed channel 21 is adjacent to the guide 13. In this embodiment, the cartridge 9 is loaded into the magazine 40, and then the magazine 40 is placed into the magazine feed passage 21. The upper end of the magazine 40 may have an opening so that the magazine 40 may communicate with the magazine slot 22. That is, the cartridge 9 inside the magazine 40 can move to the magazine 22 through the opening at the upper end. As shown in fig. 2A or fig. 3B, the bullet containing groove 22 is communicated with the bullet supplying channel 21, and the bullet containing groove 22 corresponds to the bullet holding structure 11, for example, the bullet holding structure 11 and the bullet containing groove 22 are located at the same horizontal position. In addition, the guiding portion 13 is adjacent to one side of the bullet holding structure 11. The guiding portion 13 of the present embodiment is adjacent to the lower side of the bullet holding structure 11 and located at the upper side of the bullet feeding channel 21 of the receiver 20, and the structure of the guiding portion 13 can be used to assist the loading of the bullet 9 in the receiver 40. As shown in fig. 2A, the magazine 40 of the present embodiment includes a spring 41 inside, and after the cartridge 9 is loaded into the magazine 40, the spring 41 is compressed. When the uppermost cartridge 9 is loaded (moved to the magazine 22), the spring 41 pushes the remaining cartridges 9 upwards.

Generally, depending on the power source for firing, at least before the first firing, the user (operator) pulls the bolt face carrier 10 with the moving element 81 rearward for loading the cartridge 9. In this embodiment, the receiver 20 further includes a pull handle 23 movably disposed on the receiver 20 and connected to the bolt carrier 10. As shown in fig. 1 and fig. 2A, the top surface of the bolt carrier 10 has a protrusion 14, and the pull handle 23 of the embodiment has a groove 231 and an operating portion 232, and the protrusion 14 can be accommodated in the groove 231. The casing 20 further includes a hollow passage 24, the groove 231 of the pull handle 23 is disposed in the hollow passage 24, and the operating portion 232 is located outside the hollow passage 24. The user operable pull handle 23 moves within the hollow channel 24 and is held by the recess 231 against the protrusion 14 to simultaneously move the bolt carrier 10. In other embodiments, the pull handle 23 can be directly disposed on the bolt carrier 10 and pass through the receiver 20, or the pull handle 23 can be operated to control the movement of the moving element 81.

Preferably, as shown in fig. 3A and 3B, the receiver 20 of the present embodiment can also simulate a toy rifle, and the receiver 20 is provided with a spring set 27 including a spring 271 and a spring 272. One end of the spring 271 is connected to the housing of the casing 20, and the other end is connected to the pull handle 23 for providing the function of resetting the pull handle 23. The spring 272 has one end connected to the housing of the receiver 20 and the other end connected to the bolt carrier 10 to provide the bolt carrier 10 with a reset function. That is, the spring 272 assists the bolt carrier 10 to move forward, so that the loading of the cartridge 9 is smoother.

Specifically, when the user pulls the operation portion 232 backward, the moving element 81 of the toy gun 8 is moved backward. Then, the user releases his hand, as shown in fig. 3A, the pull handle 23 can be rebounded to the original position by the spring 271, and the moving element 81 (i.e., the sliding sleeve) of the toy gun 8 is still at the rear end of the bolt carrier 10, so that the bullet 9 can move in the direction of the bullet containing slot 22 with a space to successively complete the loading action of the bullet 9. Then, the return spring of the toy gun 8 and the spring 272 of the receiver 20 can drive the moving element 81 to move forward, so as to achieve the normal loading action. As shown in fig. 3A and 3B, the bolt carrier 10 can be moved (moved forward) toward the magazine 40 by the moving element 81 of the toy gun 8, and at this time, the guiding portion 13 guides one of the bullets 9, i.e., the bullet 9 located at the top, and the guiding portion 13 pushes the bullet 9 to move to the bullet containing slot 22, and one end of the bullet holding structure 11 holds the bullet 9, thereby completing the loading of the bullet 9.

In the present embodiment, the guiding portion 13 is an inclined structure, and preferably, the feeding channel 21 has a guiding arc surface 211 which is located at the upper edge of the feeding channel 21 and is connected to the containing groove 22. Specifically, the upper edge of the guide arc surface 211 is connected to the bullet containing groove 22, and the uppermost bullet 9 (one of the bullets 9) is located at the lower edge of the guide arc surface 211. As shown in fig. 3A, when the bolt carrier 10 moves toward the magazine 40, the bottom of the guiding portion 13 can move the top bullet 9 toward the bullet containing slot 22, and the bullet 9 is pushed by the guiding portion 13 and moves from the lower edge of the guiding arc 211 toward the upper edge, so that the bullet 9 is inclined. As shown in fig. 3B, the bolt carrier 10 is continuously moved toward the magazine 40, and the bullet 9 moves along the guide arc 211 to the upper edge of the guide arc 211 and enters the bullet containing groove 22, so that the bullet 9 returns to the horizontal angle from the inclined angle. The cartridge holding structure 11, which is located at the same level as the magazine 22, can further hold the cartridge 9. In other words, the guiding portion 13 and the guiding arc surface 211 can help the bullet 9 to be loaded into the chamber.

As shown in fig. 2B and fig. 3C, the elastic holding structure 11 of the present embodiment preferably includes a hook 111 and a spring 112. The hook 111 is connected to the bullet holding structure 11, and the spring 112 connects the hook 111 and the housing of the bolt carrier 10, so that the hook 111 can slightly move relative to the bullet holding structure 11 and provide the inward clamping force of the hook 111. Preferably, the cartridge case 91 may have a groove 911 so that the hook 111 can catch the groove 911 of the cartridge case 91. Referring to fig. 3A and 3B, specifically, when the bolt carrier 10 moves toward the magazine 40, the guiding portion 13 can move the bullet 9 toward the slot 22. The bullet holding structure 11 is then in contact with the bullet 9. When the hook 111 contacts the bullet 9, the hook 111 compresses the spring 112 and slightly opens outward, and then hooks the annular groove 911 of the cartridge case 91 inward.

Referring to fig. 4A to 4C, the receiver 20 of the present embodiment further includes a barrel 25, which is communicated with the magazine 22. Since one end of the air duct 12 communicates with the muzzle 82 and the other end is disposed in the bullet holding structure 11 and communicates with the case 91 of the loaded bullet 9. As shown in FIG. 4B, when the toy gun 8 is fired, the projectiles 92 may be ejected through the barrel 25 of the receiver 20. In detail, the user may operate the toy gun 8 to fire. When fired, the toy gun 8 is pressurized to expel the gas, which is delivered through the gas duct 12 of the bolt carrier 10 into the cartridge case 91 at the front end of the cartridge holding structure 11 and the inner projectiles 92 are expelled to the outside of the receiver 20. In other embodiments, if the bullet 9 is a BB bullet or a soft bullet, the bullet 9 can be directly ejected, and the invention is not limited thereto. After firing, the moving member 81 of the toy gun 8 is moved rearward by the recoil, as shown in fig. 4C, causing the bolt carrier 10 to be moved rearward. Since the air tube 12 of this embodiment is a flexible tube, it is suitable for shortening the distance between the bullet holding structure 11 and the muzzle 82 when the moving element 81 moves backward.

Fig. 5A and 5B are enlarged views of the magazine assembly shown in fig. 4C during the ejection of a bullet, fig. 5C is an exploded view of the front end, the bullet holding structure, the hook and the ejection protrusion of the bolt carrier shown in fig. 5A, and fig. 5D is an exploded view of the elements shown in fig. 5C after being combined and during the ejection of the bullet, please refer to fig. 5A, 5B, 5C and 5D. The shot 92 inside the bullet 9 is ejected (out to the outside of the receiver 20) and the shell 91 remains held by the bullet-holding structure 11. Preferably, the receiver 20 includes a projectile projection 26 adjacent to the ammunition feed channel 21 and located in the path of travel of the ammunition holding structure 11. The ejection protrusion 26 of the present embodiment is disposed on the casing 20 and is a fixed element. That is, the ejection lug 26 does not move with the bolt carrier 10.

After the firing action of the toy gun 8, the moving element 81 moves backward due to the recoil and brings the bolt carrier 10 to move backward. At this time, the bullet holding structure 11 holds the bullet case 91 and moves backward (i.e. moves away from the magazine 40), and when passing through the ejection protrusion 26, the ejection protrusion 26 abuts against the bullet case 91 to eject the bullet case 91. At this time, since the hook 111 is pivoted on the elastic holding structure 11, the hook 111 can rotate relative to the elastic holding structure 11. That is, the hook 111 can be shifted outward relative to the bullet holding structure 11, and the bullet shell 91 is separated from the bullet holding structure 11, so as to complete the shell throwing operation, as shown in fig. 4C and 5B. In other words, the bolt carrier 10 moves rearward until the case 91 is pushed toward the hook 111 by the ejection projection 26, so that the hook 111 is biased outward (i.e., rotated outward to open). At the same time, the cartridge 9 (the shell 91) is released from the cartridge holding structure 11 and thrown outward. After the hook 111 is biased outward relative to the bullet-holding structure 11, the spring 112 (see fig. 3C) can provide a restoring force to the hook 111, so that the hook 111 is restored to the original position to hold and hook the bullet case 91 of the next bullet 9.

Preferably, the bullet holding structure 11 further comprises a notch 15, and the width of the notch 15 is slightly larger than the thickness of the projectile projection 26. When the bullet holding structure 11 passes through the bullet projecting portion 26, the bullet projecting portion 26 passes through the notch 15 and abuts against the bullet case 91, so that the hook 111 is deflected outwards relative to the bullet holding structure 11 to release the constraint on the bullet case 91, and further the bullet case 91 is thrown outwards to be separated from the bullet holding structure 11.

When the cartridge 9 (the case 91) is thrown outward, the spring 41 (shown in fig. 2A) at the bottom end of the magazine 40 pushes the cartridge 9 upward. At the same time, as mentioned above, the spring 272 drives the moving element 81 to move forward, so that the guiding portion 13 can push the next bullet 9 (i.e. the bullet 9 located at the top). The bullet 9 moves to the bullet containing groove 22, and the bullet holding structure 11 holds the bullet 9 to complete the continuous loading action.

Optionally, the bolt carrier 10 of the present embodiment further includes a first magnet 17 (as shown in fig. 1 and 2A), which is disposed at an end of the bolt carrier 10 opposite to the bullet holding structure 11, that is, at a rear end of the bolt carrier 10. The casing 20 further includes a second magnet 28 (shown in fig. 2A) disposed at a rear end of the casing 20 and corresponding to the first magnet 17. Specifically, the second magnet 28 is disposed in the receiver 20 for being sleeved into the groove of the bolt carrier 10, and is located at the rear end of the receiver 20. When the toy gun 8 is fired, the moving member 81 moves backward due to recoil and moves the bolt carrier 10 backward (see fig. 1 and 3A). At this time, the first magnet 17 and the second magnet 28 are closer to each other, so that the kinetic energy of the rear impact of the bolt carrier 10 can be accelerated by utilizing the principle of magnetic attraction, thereby increasing the recoil felt by the user.

Preferably, the first magnet 17 and the second magnet 28 are not parallel, for example, the first magnet 17 of the present embodiment is disposed above the rear end of the bolt carrier 10, and the second magnet 28 is perpendicular to the first magnet 17. This arrangement allows the first magnet 17 and the second magnet 28 to be located at their closest distance without having complete surfaces that are directly attracted to each other. That is, the right surface (larger area) of the second magnet 28 corresponds to the left end surface (smaller area) of the first magnet 17. This design provides a low attractive force between the first magnet 17 and the second magnet 28, so that the bolt carrier 10 can be pulled back to the original position by the spring 272 (return spring) to successfully complete the re-entry and return of the bolt carrier 10. In other embodiments, the first magnet 17 and the second magnet 28 with weaker magnetic force may be provided, and the invention is not limited thereto.

Fig. 6A and 6B are partial cross-sectional views of a gun carrier 10a applied to a toy gun 8a according to a second embodiment of the present invention. In the present embodiment, the toy gun 8a is exemplified by an electric gun having a piston therein. In other words, the moving element 81a is a piston. Correspondingly, the bolt carrier 10a has a connecting member 16a, and one end of the connecting member 16a is connected to the inner side wall of the rear end of the bolt carrier 10a, and the other end penetrates into the cavity inside the toy gun 8a and is disposed inside the moving element 81 a. That is, the moving element 81a is sleeved to the connecting member 16a, so that the connecting member 16a is connected to the moving element 81a (i.e., the piston).

Similarly, the receiver 20 of the first embodiment is sleeved outside the bolt carrier 10a to form a receiver assembly. For the assembly of the casing 20, reference is made to the first embodiment, which is not described herein.

Fig. 7A and 7B are partial cross-sectional views illustrating a bolt carrier 10B according to a third embodiment of the present invention applied to a toy gun. The toy gun 8a is exemplified by an electric gun having a piston (moving element 81a) inside, as in the second embodiment. The difference from the second embodiment is the location of the attachment 16b of the bolt carrier 10 b. The connecting member 16b of the present embodiment is provided on the inner side wall at the center of the bolt carrier 10b and extends downward to penetrate into the chamber of the toy gun 8a, thereby connecting the connecting member 16b to the moving element 81a (piston). Similarly, the receiver 20 of the first embodiment is sleeved outside the bolt carrier 10b to form a receiver assembly, and other details can refer to the first embodiment and are not repeated herein.

In summary, the receiver assembly according to the present invention includes a bolt carrier and a receiver, wherein the receiver is sleeved outside the bolt carrier and fixed to the toy gun. The bolt carrier may be connected to a moving member (slide or piston) of the toy gun such that the bolt carrier may load or fire a bullet in response to reciprocation of the moving member. Specifically, when the bolt carrier is driven by the moving element to move back and forth, the bullet can be pushed to the bullet containing groove by the guiding part of the bullet holding structure, so as to complete the loading action. When the toy gun is fired, the gas generated inside can be discharged towards the bullet containing groove so as to complete the action of firing the bullet. Therefore, the receiver assembly of the present invention can be applied to a toy gun, and can perform the actions of loading a bullet or firing a bullet like a general large gun body (such as a rifle).

In addition, according to the bolt carrier of the invention, the bullet holding structure clamps the cartridge case. The clamping hook of the bullet holding structure can hook the annular groove of the bullet shell, and the bullet holding structure is outwards deviated relatively so that the bullet shell is separated from the bullet holding structure, and the shell throwing effect is achieved.

It should be noted that the above-mentioned embodiments are merely examples for convenience of description, and the scope of the claims of the present invention should be determined by the appended claims rather than by the following examples.