CN216081163U - Toy machine gun - Google Patents

Abstract

The utility model relates to a toy machine gun, which comprises a gun barrel, a gun body and a gun stock which are sequentially connected, wherein the gun body radially penetrates through to form an accommodating space for penetrating a bullet chain; the gun body is also provided with a trigger, an ejection mechanism and a driving mechanism; the pop-up mechanism comprises a fixed rod, a first spring and a piston which are sequentially arranged on the fixed rod in a penetrating way, and a cylinder and a first linkage piece which are sleeved on the piston; the driving mechanism and the first spring are matched with the lower piston to do piston motion in the cylinder; the first linkage piece and the piston synchronously make axial displacement along the gun body; the trigger is connected with the first linkage piece through the first limiting piece, and one end of the first limiting piece is inserted into a second through hole formed in the first linkage piece so as to limit the displacement of the piston; pulling a trigger to pull the first limiting piece to be separated from the second through hole and/or trigger the driving mechanism to launch the soft bullet in the bullet chain; a bullet changing mechanism is arranged below the bullet chain; the space inside the toy machine gun is reasonably utilized, the parts for assembling the toy machine gun can be reduced, the cost is reduced, and meanwhile, the assembling time can be shortened.

Description

Toy machine gun

Technical Field

The utility model relates to the field of toys, in particular to a toy machine gun.

Background

The toy machine gun in the related technology has a complex structure, and a plurality of scattered and tiny parts are often required to be assembled in one toy machine gun to complete the assembly work; the complex structure can lead to long assembly time, and the assembly is easy to make mistakes, which is not beneficial to production; and the cost of producing a toy machine gun is increased, which is not favorable for sale.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model aims to solve the technical problem that the structure of the existing toy machine gun is complex.

The technical scheme adopted by the utility model for solving the technical problems is as follows: the toy machine gun comprises a gun barrel, a gun body and a gun stock which are sequentially connected, wherein the gun body radially penetrates through the gun barrel to form an accommodating space for penetrating a bullet chain, and the bullet chain comprises a plurality of serially connected bullet shells and soft bullets arranged on the bullet shells; the gun body is also provided with a trigger, an ejection mechanism and a driving mechanism;

the ejection mechanism comprises a fixed rod, a first spring and a piston which are sequentially arranged on the fixed rod in a penetrating manner, and a cylinder and a first linkage piece which are sleeved on the piston; the piston is provided with a first connecting piece which is abutted against the driving mechanism; the piston moves in the cylinder under the cooperation of the driving mechanism and the first spring; the front end of the cylinder is provided with a first through hole, and the piston extrudes air when moving to the front end of the cylinder to push the soft bullet to launch; the first linkage piece is connected with the first connecting piece and synchronously and axially displaces along the gun body with the piston;

the trigger is connected with the first linkage piece through a first limiting piece, and one end of the first limiting piece is inserted into a second through hole formed in the first linkage piece so as to limit the displacement of the piston; pulling the trigger to pull the first limiting piece to be separated from the second through hole and/or trigger the driving mechanism to launch the soft bullet;

the bullet chain below is equipped with and is used for ordering about the bullet chain switches the mechanism of reloading of ammunition, and it includes rotating assembly, first linkage displacement butt and transmission rotating assembly rotates, the rotating assembly butt the outer wall of shell case to promote its radial direction displacement along the body of a gun, and then switch to next the shell case.

Preferably, the cartridge case comprises a cartridge case body provided with a hollow channel, a limiting assembly arranged on the cartridge case body and a second connecting piece; the shell body is provided with a third through hole which axially penetrates through the outer wall of the shell body; the extruded air pushes the soft bullet to launch through the third through hole;

one side fixed connection of second connecting piece in the lateral wall of shell case, the outer wall of its opposite side is equipped with along the breach of its axial direction extension, soft bullet passes through the breach joint in the second connecting piece.

Preferably, the drive mechanism comprises a motor drive assembly and/or a manual drive assembly.

Preferably, the motor driving assembly comprises a gear assembly, a motor connected with the gear assembly and a storage battery for providing power for the motor; the first linkage piece is provided with a rack which is meshed and connected with the gear assembly; the motor driving gear assembly drives the first linkage piece to axially displace so as to drive the piston to axially displace;

the gear assembly comprises a second gear connected with the rack, and the second gear is provided with at least one section of smooth structure and at least one section of toothed structure; the toothed structure is meshed with the rack to enable the piston to displace backwards, and the smooth structure is matched with the first spring to push the piston to displace forwards.

Preferably, the manual drive assembly comprises a draw bar; and pulling the pull rod to abut against the piston, enabling the piston to move backwards, and inserting the first connecting piece into the second through hole to finish loading.

Preferably, the rotating assembly comprises a first valve and a second valve which can rotate along one side of the rotating assembly; the bottom of the first valve is provided with a fixed column which is positioned at the same height with the first linkage piece; the second valve is arranged above the first valve and extends into a gap between two adjacent cartridge cases;

the first linkage piece is abutted to the fixed column in a displacement mode to enable the first valve to rotate and drive the second valve arranged above the first valve to rotate, and the second valve is abutted to the cartridge case in a rotating and swinging mode to enable the cartridge case to displace along the radial direction of the gun body, so that the cartridge changing is completed.

Preferably, the front end of the first linkage piece is provided with a track part; the rail part is provided with a third groove with the same horizontal height as the fixed column; the third groove penetrates through the outer wall of the track part, and the extending direction of the third groove is intersected with the axial direction of the first linkage part to form an included angle;

the first linkage piece is axially displaced, the inner wall of the third groove is abutted and enabled to offset the fixing column, and the fixing column drives the first valve to overturn.

Preferably, the cartridge case is further coupled to a locating mechanism for ensuring that the first through hole is aligned with the cartridge case.

Preferably, the first limiting member is movably connected in the gun body; the lower end of the first limiting piece is connected with a second spring fixedly connected to the gun body; the trigger is provided with a V-shaped piece penetrating through the first limiting piece; and pulling the trigger, wherein the V-shaped part abuts against and presses down the first limiting piece, and the first limiting piece is separated from the second through hole.

Preferably, a first switch for controlling the driving mechanism to be switched on and off is further arranged in the gun body; pulling the trigger, wherein the V-shaped part abuts against the first switch; the first switch is also electrically connected with a second switch for controlling the on-off of the first switch, and the second switch is fixedly connected to the outer side wall of the gun body.

The implementation of the utility model has the following beneficial effects:

through the cooperation relation between the adjustment part, the inside space of rational utilization toy machine gun, the part of reducible equipment toy machine gun can also accelerate the assemble duration when reduce cost.

Drawings

The utility model will be further described with reference to the accompanying drawings and examples, in which:

FIG. 1 is a schematic view of a toy rifle of the present invention;

FIG. 2 is a schematic view of the structure of FIG. 1 from a top view;

FIG. 3 is a schematic view of a toy rifle of the present invention with the first shell omitted from the body;

FIG. 4 is an enlarged view of the gun body of FIG. 3 with the second shell omitted;

FIG. 5 is a schematic view of the internal structure of the upper portion of the body of a toy rifle of the present invention;

FIG. 6 is a schematic view of the internal structure of the lower portion of the body of a toy rifle of the present invention;

FIG. 7 is a schematic view of a first linkage member of a toy rifle of the present invention;

FIG. 8 is a schematic illustration of the construction of a single cartridge case of a toy rifle of the present invention;

FIG. 9 is a schematic view of a positioning structure of a toy rifle according to the utility model;

FIG. 10 is a schematic view of the reloading configuration of a toy rifle of the present invention;

fig. 11 is a schematic cross-sectional view of fig. 10.

Detailed Description

For a more clear understanding of the technical features, objects and effects of the present invention, embodiments of the present invention will now be described in detail with reference to the accompanying drawings. In the following description, it is to be understood that the orientations and positional relationships indicated by "front", "rear", "upper", "lower", "left", "right", "longitudinal", "lateral", "vertical", "horizontal", "top", "bottom", "inner", "outer", "leading", "trailing", and the like are configured and operated in specific orientations based on the orientations and positional relationships shown in the drawings, and are only for convenience of describing the present invention, and do not indicate that the device or element referred to must have a specific orientation, and thus, are not to be construed as limiting the present invention.

It is also noted that, unless expressly stated or limited otherwise, the terms "mounted," "connected," "secured," "disposed," and the like are intended to be inclusive and mean, for example, that they may be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. When an element is referred to as being "on" or "under" another element, it can be "directly" or "indirectly" on the other element or intervening elements may also be present. The terms "first", "second", "third", etc. are only for convenience in describing the present technical solution, and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated, whereby the features defined as "first", "second", "third", etc. may explicitly or implicitly include one or more of such features. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

The orientation in the present invention is defined as: the direction in which the bullet was fired was defined as the horizontal forward direction.

As shown in fig. 1, a toy machine gun in the present invention may include a barrel, a body 100 and a stock connected in sequence, the lower portion of the body 100 is provided with a grip, a trigger 7 and a magazine for decoration, respectively; the above structure and connection method can refer to the prior art, and are not repeated herein.

The gun body 100 radially penetrates to form an accommodating space 1 for the bullet chain 2 to penetrate through. Specifically, the front end of the gun body 100 radially penetrates through the outer wall of the gun body, an accommodating space 1 for the bullet chain 2 to penetrate through is reserved, the bullet chain 2 can be assembled in the accommodating space 1, and the bullet chain can move along the radial direction of the gun body 100 after soft bullets are shot, so that the bullet changing purpose is realized. The gun body 100 is further connected with the extending piece 11 on the accommodating space 1, and the extending piece extends towards two sides along the axial position of the gun body 100 respectively, so that the cross section area of the gun body 100 is increased, any two adjacent bullet shells 21 in the bullet chain 2 are horizontally arranged on the gun body 100 relatively, and the bullet changing process can be smoother.

The bullet chain 2 comprises a plurality of bullet shells 21 connected in series and soft bullets arranged on the bullet shells 21. The cartridge case 21 comprises a cartridge case body 211, a limiting assembly arranged on the cartridge case body 211 and a second connecting piece 213; the cartridge case body 211 is provided with a third through hole 2111 axially penetrating through the outer wall of the cartridge case body; the extruded air pushes the soft bullet to shoot through the third through hole 2111; specifically, the cartridge case body 211 is cylindrical in overall structure, a hollow channel is formed in the cartridge case body 211, the soft cartridge can be inserted into the hollow channel from the first end of the cartridge case body 211, a third through hole 2111 axially penetrating through the outer wall of the cartridge case body 211 is formed in the second end of the cartridge case body 211, and the ejection mechanism 3 can compress air and provide forward launching power for the soft cartridge through the third through hole 2111.

For better understanding of the present solution, the first cartridge case 21 described below refers to any one of the cartridge cases 21, and the second cartridge case 21 refers to the cartridge case 21 connected to the first cartridge case 21. One side of the second connecting piece 213 is fixedly connected to the side wall of the cartridge case 21, the outer wall of the other side of the second connecting piece is provided with a notch extending along the axial direction of the cartridge case, and the soft bullet is clamped to the second connecting piece 213 through the notch. Specifically, the second connecting member 213 is connected to a side wall of the first cartridge case 21, and its entire structure extends in a radial direction of the first cartridge case 21 for connecting the second cartridge case 21; the second connecting piece 213 is hollow and cylindrical, the side wall of the second connecting piece 213 is provided with a notch extending along the axial direction, the cross section of the second connecting piece 213 is arc-shaped, the second connecting piece 213 is made of plastic materials and has certain elasticity, and the second cartridge case 21 can be directly clamped on the second connecting piece 213 from the position of the notch of the arc, so that the connection between the cartridge cases 21 is realized; the circulation can realize the circulation among a plurality of cartridge cases 21; the connection between the second connecting member 213 and the first cartridge case 21 can be achieved by bonding, screwing, clipping or integral molding. Preferably, the second connecting members 213 are provided in two, axially arranged on the same side of the first cartridge case 21, so that the deformation of the second connecting members 213 is facilitated by reducing the volume of the second connecting members 213, and the cartridge case 21 is better fitted to the second connecting members 213. The limiting assembly comprises two first protruding pieces 212 extending along the radial direction of the first cartridge case 21, the two first protruding pieces 212 are both arranged on the side wall of the first cartridge case 21, and the positions of the two first protruding pieces 212 are respectively located at the front end and the rear end of the second connecting piece 213; after the second connecting member 213 of the first cartridge case 21 is engaged with the second cartridge case 21, the two first protruding members 212 provided on the second cartridge case 21 can abut against the second connecting member 213 of the first cartridge case 21, so as to limit the second cartridge case 21 from being separated from the first cartridge case 21 in the axial direction of the first cartridge case 21. Preferably, four first protruding members 212 are provided, respectively on two opposite sides of the first casing 21, to better limit the separation of the casing 21 from the second connecting member 213.

Optionally, the front end of the soft bullet can be connected with the sucking disc; after the soft projectile is ejected, the sucker can be attached to objects made of smooth materials, such as ceramic chips, glass and the like, so that interestingness is improved.

As shown in the figure, the pop-up mechanism 3 includes a fixing rod 31, a first spring 32 and a piston 33 sequentially passing through the fixing rod 31, and a cylinder and a first linkage 35 sleeved on the piston 33; the piston 33 is provided with a first connecting piece 331 which is abutted against the driving mechanism 4; the driving mechanism 4 and the first spring 32 cooperate to make the piston 33 move in the cylinder as the piston 33; the front end of the cylinder is provided with a first through hole, and the piston 33 extrudes air when moving to the front end of the cylinder to push the soft bullet to launch; the first linkage member 35 is connected to the first connection member 331, and is axially displaced along the gun body 100 simultaneously with the piston 33.

Specifically, the fixing rod 31 extends in the axial direction of the gun body 100, and is fixed inside the gun body 100; the spring and the piston 33 are sequentially sleeved on the fixed rod 31; the piston 33 is provided with a first connecting piece 331, the first connecting piece 331 extends along the radial direction of the piston 33 and is abutted against the driving mechanism 4; the driving mechanism 4 can drive the piston 33 to displace backwards through the first connecting piece 331, and the moving direction of the piston is the same as the axial direction of the gun body 100; the end of the fixing rod 31 is provided with a third protrusion for preventing the spring from being separated, and the third protrusion extends along the radial direction of the fixing rod 31; when the piston 33 is displaced backwards, the spring is in a compressed state under the action of the third protruding part and the piston 33; when the spring is not forced down by external force, the spring restores the original device and drives the piston 33 to displace forward.

The cylinder is connected in the gun body 100 and sleeved on the piston 33, and the front end of the cylinder is abutted to the elastic chain 2; specifically, the front end of the cylinder is provided with a first through hole which is communicated with a third through hole 2111 on the cartridge case 21, when the piston 33 moves forwards in the cylinder, air can be compressed and can pass through the first through hole and the third through hole 2111, and soft bullet launching is further promoted; preferably, the outer diameter of the cylinder is slightly larger than the outer diameter of the piston 33 for better compression. The first linkage piece 35 is arranged below the piston 33, can be used as one of transmission pieces between the driving mechanism 4 and the piston 33, and can drive the bullet changing mechanism 5 to switch the bullet shell 21; the first linkage member 35 is connected to the first connection member 331, and follows the axial displacement of the piston 33 along the gun body 100. Specifically, the first linkage member 35 is a square planar structure, and has a second through hole 351 radially penetrating through the first linkage member at the tail portion thereof, the first connection member 331 can extend into the second through hole 351 and be fixedly connected therewith, and the first linkage member 35 and the piston 33 simultaneously perform axial displacement along the gun body 100.

The trigger 7 is arranged below the first linkage piece 35 and is connected with the first linkage piece 35 through a first limiting piece 8; one end of the first limiting member 8 is inserted into the second through hole 351 formed in the first linkage member 35 to limit the displacement of the piston 33; pulling the trigger 7 to pull the first limiting member 8 to be separated from the second through hole 351 and/or triggering the driving mechanism 4 to launch the soft bullet; specifically, the first limiting member 8 is movably connected in the gun body 100 and can move up and down between the first limiting member 8 and the trigger 7; the first limiting part 8 is vertically connected with the first linkage piece 35, the upper end of the first limiting part 8 can be inserted into the second through hole 351 in the first linkage piece 35, and the first linkage piece 35 is fixedly connected with the piston 33, so that the displacement of the piston 33 is limited; the trigger 7 is arc-shaped in overall structure, the trigger 7 is provided with a V-shaped part 71 penetrating through the first limiting part 8, the V-shaped part 71 comprises a horizontal part 711 and an inclined part 712 which are arranged at an included angle, the first ends of the horizontal part 711 and the inclined part 712 are respectively connected to the trigger 7, and the second ends of the horizontal part 711 and the inclined part 712 are connected with each other to form a connecting end; a fourth through hole is formed in the first limiting piece 8, and the connecting end of the V-shaped piece 71 can pass through the fourth through hole, so that the inclined part 712 is abutted against the first limiting piece 8 and is arranged at an included angle; when the player pushes the trigger 7, the trigger 7 is displaced backward, the connecting end of the V-shaped member passes through the fourth through hole, and the inclined portion 712 thereof acts on the first restriction member 8 to displace it downward to release the restriction of the piston 33, and the piston 33 can be displaced forward; the lower end of the first limiting part 8 is connected with a second spring 81, and the second spring 81 is fixedly connected in the gun body 100;

when the first restriction member 8 is not subjected to the force of the trigger 7, the second spring 81 can return the first restriction member 8 to displace upward and reinsert it into the second through hole 351 connected to the first linkage member 35; it can be understood that the first limiting member 8 can be accurately inserted into the second through hole 351 after releasing the trigger 7 by adjusting the elastic potential energy of the first spring 32, the second spring 81 and the driving force of the driving mechanism 4. The trigger 7 is further connected to a third spring 72, and the third spring 72 is fixed in the gun body 100, extends in the axial direction of the gun body, and is used for releasing the hand of a player after pressing the trigger 7, restoring the trigger 7 to the initial state, and making the inclined portion 712 not act on the first restriction member 8.

As shown in the figures, a bullet changing mechanism 5 for driving the bullet chain 2 to switch ammunition is arranged below the bullet chain 2, and comprises a rotating assembly 51, the first linkage piece 35 is in displacement contact with the rotating assembly 51 to drive the rotating assembly to rotate, the rotating assembly 51 is in rotation contact with the outer wall of the bullet case 21 and pushes the bullet case to be displaced along the radial direction of the gun body 100, and then the bullet case is switched to the next bullet case 21. Specifically, the rotating assembly 51 includes a first valve 511 and a second valve 512, both the first valve 511 and the second valve 512 can rotate along one side thereof, and the first valve 511 can abut against and drive the second valve 512 to rotate when rotating; the second valve 512 is arranged above the first valve 511 and extends into the gap between two adjacent cartridge cases 21; the bottom of the first valve 511 is also provided with a fixed column 5111; when the first linking member 35 is displaced to abut against the fixed column 5111, the first valve 511 is driven to rotate, the first valve 511 drives the second valve 512 to rotate, and the second valve 512 is rotated and swung to abut against the cartridge case 21 and displace along the radial direction of the gun body 100, so that the first cartridge case 21 is switched to the second cartridge case 21.

The bullet changing mechanism 5 further comprises a bottom box 52, and the rotating assembly 51 is arranged in the bottom box 52; the bottom boxes 52 are respectively provided with three through grooves which radially penetrate through the bottom boxes and are sequentially arranged along the axial direction; two first valves 511 and two second valves 512 are respectively arranged in the through grooves; specifically, the first valve 511 is disposed in the first through groove 521 and the second through groove 522, and the fixing post 5111 extends outward from the through groove after assembly, so that the first valve 511 can be driven to rotate by abutting against the fixing post 5111 when the first linkage member 35 is displaced; a second linkage member is arranged between the two first valves 511, so that one valve rotates while the other valve rotates; the second valve 512 is provided with a fourth protruding member 5121 extending along the radial direction thereof for better pushing the cartridge case 21 to displace; the fourth projection 5121 extends outside the through slot after assembly to abut the cartridge case 21 when the second valve 512 is rotated; the second valves 512 are respectively arranged in the second through groove 522 and the third through groove 523, after assembly, the fourth protruding piece 5121 extends into a gap between two adjacent cartridge cases 21, because the space is limited, the cartridge case 21 is provided with the second protruding piece 214 extending along the radial direction of the cartridge case 21 on the side wall thereof, and the fourth protruding piece 5121 abuts against the second protruding piece 214 when the second valve 512 rotates, so as to ensure that the fourth protruding piece 5121 can be transmitted to the cartridge case 21 for displacement; a third linkage is provided between the two second valves 512, so that one valve rotates while the other valve rotates.

The front end of the first linkage piece 35 is provided with a track portion 353; the rail portion 353 is provided with a third groove 3532 having the same horizontal height as the fixed column 5111; the third groove 3532 penetrates through the outer wall of the track portion 353, and the extending direction of the third groove intersects with the axial direction of the first linkage piece 35 to form an included angle; the first link member 35 is axially displaced, the inner wall of the third groove 3532 abuts against and deflects the fixed post 5111, and the fixed post 5111 drives the first valve 511 to turn over. Specifically, the surface of the track portion 353 is provided with a second groove 3531 and a third groove 3532 which are recessed inwards and are respectively arranged on two radial sides of the track portion 353; the second groove 3531 extends along the axial direction of the first linkage piece 35, and the extending direction of the third groove 3532 intersects with the axial direction of the first linkage piece 35 to form an included angle; one end of each of the second groove 3531 and the third groove 3532 extends to penetrate the front end of the rail portion 353; when the first linkage member 35 displaces, the fixing column 5111 of the first valve 511 disposed in the first through slot 521 can enter the third groove 3532, and the fixing column 5111 of the first valve 511 disposed in the second through slot 522 can enter the second groove 3531, because the extending direction of the third groove 3532 is inclined to the displacement direction of the first linkage member 35, the fixing column 5111 of the first valve 511 disposed in the first through slot 521 abuts against the inner wall of the third groove 3532, and the first valve 511 disposed in the first through slot 521 turns upwards under the action force fed back by the inner wall; the first valve 511 arranged in the second through groove 522 turns upwards along with the cooperation of the second linkage member, and then the second valve 512 arranged in the second through groove 522 turns upwards in an abutting mode; the second valve 512 arranged in the third through groove 523 is turned upwards under the cooperation of the third link; the second valve 512 is turned over in the circumferential direction of the gun body 100 with its one side as a base point, abuts against the outer wall of the cartridge case 21 at the time of turning over, and is pushed and switched to the next cartridge case 21.

The second linkage member may include a seventh spring and an eighth spring connected thereto, the seventh spring and the eighth spring extending in the axial direction of the gun body 100; the seventh spring is arranged in the first through groove 521 and connected with the first valve 511 therein, and the eighth spring is arranged in the second through groove 522 and connected with the first valve 511 therein; when the first valve 511 in the first through groove 521 is turned upwards by the acting force of the rail portion 353, the seventh spring and the eighth spring are both in a stretching state by utilizing the characteristic of the rotation torsion of the springs, so that the first valve 511 in the second through groove 522 is synchronously turned upwards; under the pressure without external force; the seventh spring and the eighth spring return to the initial state, and the first valve 511 disposed in the first through groove 521 and the second through groove 522 is also turned downward and returned. The third link is the same, and the description thereof is omitted.

Preferably, a positioning mechanism 6 is further disposed in the accommodating space 1 of the gun body 100 for positioning the switched cartridge case 21 and ensuring that the ejection mechanism 3 is aligned with the cartridge case 21; the positioning mechanism 6 comprises a swinging piece 63 and a fourth spring 61 connected to the swinging piece 63; the first end of the swinging piece 63 is rotatably connected to the gun body 100, and the second end of the swinging piece 63 is provided with a clamping part 62; one end of the fourth spring 61 is fixedly connected to the gun body 100, and the other end thereof is connected to the upper end of the clamping portion 62; the first protruding piece 212 arranged on the cartridge case 21 is further provided with an inwardly recessed first groove for matching with the clamping portion 62; the clamping portion 62 can be embedded in the first groove to fix and align the cartridge case 21 to the muzzle position; since the first protrusion 212 is higher than the first groove in level, the fourth spring 61 can prevent the blocking portion 62 from being blocked by the first protrusion 212. When the cartridge case 21 is switched, the first protruding part 212 can abut against the clamping part 62 and make it swing upwards, and the fourth spring 61 is in a compressed state; until the wheel rotates to the first groove of the next cartridge case 21, the clamping part 62 is embedded into the first groove of the next cartridge case 21 under the action of the fourth spring 61, so as to play a positioning role.

The driving mechanism 4 comprises a motor 412 and a driving component 41 and/or a manual driving component 42; in the present invention, the motor 412 driving assembly 41 and the manual driving assembly 42 are arranged in the gun body 100, so that the player can switch to the electric mode or the manual mode according to the requirement.

The motor 412 driving assembly 41 comprises a gear assembly 411, a motor 412 and a storage battery 413 connected with the motor 412; specifically, the motor 412 is provided with a first gear on its rotating shaft, and the first gear is connected with the gear assembly 411 and drives it to rotate; the first link member 35 is provided with a rack 352 at the lower part thereof, and is engaged with the gear assembly 411; when the gear assembly 411 rotates, the gear assembly abuts against and drives the rack 352, and the first linkage piece 35 drives the piston 33 to displace backwards; it will be appreciated that when the piston 33 moves rearwardly, air may be vented into the cylinder through the first through-hole of the cylinder. The gear assembly 411 may include a second gear 4111 connected to the rack 352; the second gear 4111 is provided with at least one smooth structure for displacing the first linkage member 35 and the piston 33 forward by cooperating with the first spring 32 and at least one toothed structure for engaging the rack 352 of the first linkage member 35 to displace the first linkage member 35 and the piston 33 backward; when the motor 412 is powered on with the battery 413, the motor 412 can drive the gear assembly 411 to rotate, the tooth-shaped structure of the second gear 4111 engages with the rack 352 to displace the piston 33 backwards, and the piston 33 acts on the first spring 32 to compress the same; when the second gear 4111 rotates to a smooth structure, the second gear 4111 is disconnected from the rack 352, the first spring 32 recovers to an initial state and pushes the piston 33 to move forward, so that air in the cylinder is pressed, and one shot is completed; the matching relationship between the parts is adjusted, so that the soft bullets can be launched continuously when the motor 412 rotates continuously in a circulating manner, and continuous shooting is realized. It is understood that the gear assembly 411 is further provided with a plurality of gears as transmission parts between the first gear and the second gear 4111 for adjusting the timing of the engagement with the piston 33 and the first spring 32. The battery 413 may be fixedly attached to the gun holder or magazine and connected to the motor 412 by an electrical cord.

A first switch 73 is arranged at the circumferential position of the trigger 7 and used for controlling the switch of the motor 412; the first switch 73 is fixedly connected in the gun body 100, and the connecting end of the V-shaped part 71 can be abutted to the first switch 73 when the trigger 7 is pulled so as to control the motor 412 to work; the first switch 73 is also electrically connected with a second switch 74 for switching to a manual mode or an electric mode, the second switch 74 is fixedly connected to the outer side wall of the gun body 100, and a player can control the on-off of the first switch 73 through the second switch 74.

The manual drive assembly 42 includes a pull rod 421; pulling the pull rod 421 against the piston 33, the piston 33 is displaced backward, and the first connector 331 is inserted into the second through hole 351, completing the loading. Specifically, the pull rod 421 is disposed above the piston 33, and extends along the axial direction of the gun body 100 and is disposed in the gun body 100; a first end of the spring is arranged to leak outside the gun body 100 and can be pulled by a player, and a second end of the spring is connected with one end of a fifth spring 422; the other end of the fifth spring 422 is fixed in the gun body 100; the pull rod 421 is provided with a fifth boss 4211 extending along the radial direction thereof; the upper side wall of the piston 33 is also provided with a third connecting piece 332 matched with the fifth boss 4211; when the player pulls the pull rod 421, the fifth boss 4211 may abut against the third connecting member 332 and pull the piston 33 to displace backward, the fifth spring 422 is stretched until the first connecting member 331 disposed on the lower side wall of the piston 33 is locked into the first linking member 35, and the pull rod 421 is reset under the action of the fifth spring 422, thereby completing the loading; when the trigger 7 is pulled, the inclined part 712 of the trigger 7 can act on the first limiting part 8 to make the first limiting part displace downwards, so that the limitation on the piston 33 is released, and the piston 33 can displace forwards to shoot a bullet, thereby completing one shooting; with this cycle, multiple single shots can be achieved.

It is to be understood that the foregoing examples, while indicating the preferred embodiments of the utility model, are given by way of illustration and description, and are not to be construed as limiting the scope of the utility model; it should be noted that, for those skilled in the art, the above technical features can be freely combined, and several changes and modifications can be made without departing from the concept of the present invention, which all belong to the protection scope of the present invention; therefore, all equivalent changes and modifications made within the scope of the claims of the present invention should be covered by the claims of the present invention.

Claims (10)

1. A toy machine gun, which comprises a gun barrel, a gun body (100) and a gun stock which are connected in sequence,

the bullet gun is characterized in that the gun body (100) penetrates through the gun body in the radial direction to form an accommodating space (1) penetrating through a bullet chain (2), and the bullet chain (2) comprises a plurality of bullet shells (21) connected in series and soft bullets arranged on the bullet shells (21); the gun body (100) is also provided with a trigger (7), an ejection mechanism (3) and a driving mechanism (4);

the ejecting mechanism (3) comprises a fixed rod (31), a first spring (32) and a piston (33) which are sequentially arranged on the fixed rod (31) in a penetrating manner, and a cylinder and a first linkage piece (35) which are sleeved on the piston (33); the piston (33) is provided with a first connecting piece (331) which is abutted against the driving mechanism (4); the piston (33) moves in the cylinder by the cooperation of the driving mechanism (4) and the first spring (32); the front end of the cylinder is provided with a first through hole, and the piston (33) extrudes air when moving to the front end of the cylinder to push the soft bullet to launch; the first linkage piece (35) is connected with the first connecting piece (331) and synchronously moves axially along the gun body (100) with the piston (33);

the trigger (7) is connected with the first linkage piece (35) through a first limiting piece (8), and one end of the first limiting piece (8) is inserted into a second through hole (351) formed in the first linkage piece (35) so as to limit the displacement of the piston (33); pulling the trigger (7) to pull the first limiting piece (8) to be separated from the second through hole (351) and/or triggering the driving mechanism (4) to launch the soft bullet;

the ammunition changing mechanism (5) for driving the ammunition chain (2) to be switched is arranged below the ammunition chain (2), the ammunition changing mechanism comprises a rotating assembly (51), the first linkage piece (35) is in displacement butt joint and drives the rotating assembly (51) to rotate, the rotating assembly (51) is in butt joint with the outer wall of the cartridge case (21) and pushes the cartridge case to be displaced along the radial direction of the gun body (100), and then the cartridge case is switched to the next cartridge case (21).

2. The toy machine gun of claim 1, wherein the cartridge case (21) includes a cartridge case body (211) provided with a hollow passage, a limit stop assembly provided on the cartridge case body (211), and a second connecting member (213); the cartridge case body (211) is provided with a third through hole (2111) which axially penetrates through the outer wall of the cartridge case body; the extruded air pushes the soft bullet to shoot through the third through hole (2111);

one side fixed connection of second connecting piece (213) in the lateral wall of shell case (21), the outer wall of its opposite side is equipped with along its axial direction extension's breach, soft bullet passes through the breach joint in second connecting piece (213).

3. Toy machine gun according to claim 1, characterized in that the drive mechanism (4) comprises an electric motor (412) drive assembly (41) and/or a manual drive assembly (42).

4. A toy machine gun according to claim 3, characterized in that the motor (412) drive assembly (41) comprises a gear assembly (411), a motor (412) connected to the gear assembly (411) and a battery (413) for powering the motor (412); the first linkage piece (35) is provided with a rack (352) which is meshed with the gear assembly (411); the motor (412) drives the gear assembly (411) to drive the first linkage piece (35) to axially displace, and further drives the piston (33) to axially displace;

the gear assembly (411) comprises a second gear (4111) connected with the rack (352), and the second gear (4111) is provided with at least one section of smooth structure and at least one section of toothed structure; the toothed structure engages the rack (352) to displace the piston (33) backwards, the smooth structure cooperating with the first spring (32) to urge the piston (33) forwards.

5. Toy machine gun according to claim 4, characterized in that the manual drive assembly (42) comprises a pull rod (421); pulling the pull rod (421) to abut against the piston (33), the piston (33) is displaced backward, and the first connecting piece (331) is inserted into the second through hole (351), completing the loading.

6. Toy machine gun according to claim 1, characterized in that said rotating group (51) comprises a first valve (511) and a second valve (512) rotatable along one side thereof; the bottom of the first valve (511) is provided with a fixed column (5111) which is positioned at the same height as the first linkage piece (35); the second valve (512) is arranged above the first valve (511) and extends into a gap between two adjacent cartridge cases (21);

the first linkage piece (35) is in displacement and abutted with the fixed column (5111) to enable the first valve (511) to rotate and drive the second valve (512) arranged above the first valve to rotate, and the second valve (512) is in rotary swinging and abutted with the cartridge case (21) to enable the cartridge case to be displaced along the radial direction of the gun body (100) so as to finish cartridge changing.

7. The toy machine gun of claim 6, wherein the front end of the first linkage member (35) is provided with a track portion (353); the rail part (353) is provided with a third groove (3532) with the same horizontal height as the fixed column (5111); the third groove (3532) penetrates through the outer wall of the track part (353), and the extending direction of the third groove intersects with the axial direction of the first linkage piece (35) to form an included angle;

the first linkage piece (35) is axially displaced, the inner wall of the third groove (3532) abuts against and enables the fixed column (5111) to be offset, and the fixed column (5111) drives the first valve (511) to turn over.

8. Toy machine gun according to claim 2, characterized in that the cartridge case (21) is further connected with a positioning mechanism (6) for ensuring the alignment of the first through hole with the cartridge case (21).

9. The toy machine gun of claim 1, wherein the first restraint (8) is movably connected within the gun body (100); the lower end of the first limiting piece (8) is connected with a second spring (81) fixedly connected with the gun body (100); the trigger (7) is provided with a V-shaped piece (71) penetrating through the first limiting piece (8); -pulling the trigger (7), the V-shaped element (71) abutting and pressing down the first limiting element (8), the first limiting element (8) being disengaged from the second through hole (351).

10. The toy machine gun according to claim 9, characterized in that a first switch (73) for controlling the opening and closing of the drive mechanism (4) is further provided in the gun body (100); -pulling the trigger (7), the V-shaped element (71) abutting the first switch (73); the first switch (73) is also electrically connected with a second switch (74) for controlling the on-off of the first switch (73), and the second switch (74) is fixedly connected to the outer side wall of the gun body (100).

Images