CN113834380A - Toy gun - Google Patents

Abstract

The invention belongs to the technical field of toys, and particularly relates to a toy gun which comprises a gun body assembly, a gun barrel assembly, a launching assembly, a shell throwing assembly and a trigger assembly; the gun barrel assembly comprises a gun barrel support and a gun barrel, and a through hole is formed in the bottom of the gun barrel support; the ejection assembly comprises an ejection baffle piece which is matched with the upper opening of the gun barrel support and is connected to the gun barrel in a sliding manner, an ejection tappet which moves up and down and is connected below the gun barrel support, and a positioning assembly positioned below the ejection baffle piece; the upper end of the throwing shell support is provided with a top column which vertically and reciprocally penetrates through the through hole; the trigger component simultaneously triggers the launching component to launch the bullet and the ejection baffle piece moves along the bullet launching direction, and the ejection baffle piece triggers the ejection column to move upwards through the through hole through the positioning component to eject the cartridge case. The invention realizes the ejection action while ejecting the bullet, the experience effect of automatic continuous ejection is better, and the linkage action of the ejection baffle piece and the ejection lifter makes the situation that the bullet shell can not be ejected in the playing process difficult to occur.

Description

Toy gun

Technical Field

The invention belongs to the technical field of toys, and particularly relates to a toy gun.

Background

Non-automatic toy guns on the market are of the type that require manual cocking to compress air and then the trigger to release the air before each firing, thereby ejecting the bullet. However, existing non-automatic toy guns either do not have an ejection function; or the shell ejecting function is provided, but the shell ejecting structure is complex, a shell ejecting device is additionally designed on the gun barrel to eject the shell in order to realize the shell ejecting process, but when the toy gun of the type is used, the shell ejecting device is operated to eject the shell after the bullet is shot, and the shell is easy to be clamped at the shell ejecting window and cannot be ejected, so that the user experience of automatic continuous shooting of a player is seriously influenced.

Disclosure of Invention

In order to solve the above problems in the background art, the present invention provides a toy gun that allows a player to experience an operation similar to the ejection of a real gun, specifically, to eject a cartridge case while firing a bullet.

The invention adopts the following technical scheme: a toy gun comprises a gun body assembly, a gun barrel assembly fixedly connected in the gun body assembly, a launching assembly coaxially arranged with the gun barrel assembly, a shell throwing assembly movably connected in the gun body assembly, and a trigger assembly respectively connected with the launching assembly and the shell throwing assembly;

the gun barrel assembly comprises a gun barrel support for accommodating bullets and a gun barrel fixedly connected with one end of the gun barrel support, a through hole is formed in the bottom of the gun barrel support, and the gun barrel support is located between the gun barrel and the launching assembly;

the ejection assembly comprises an ejection baffle piece which is matched with the upper opening of the gun barrel support and is connected to the gun barrel in a sliding manner, an ejection tappet which moves up and down and is connected below the gun barrel support, and a positioning assembly positioned below the ejection baffle piece; the upper end of the throwing shell support is provided with a top column which vertically and reciprocally penetrates through the through hole; the trigger component simultaneously triggers the launching component to launch the bullet and the ejection baffle piece moves along the bullet launching direction, and the ejection baffle piece triggers the ejection column to move upwards through the through hole through the positioning component to eject the cartridge case.

Furthermore, the positioning assembly comprises a first positioning piece which moves up and down below the ejection baffle piece and a second positioning piece which is horizontally connected below the first positioning piece in a sliding manner;

the lower end of the shell throwing baffle piece is provided with a first wedge-shaped block, the upper end of the first positioning piece is provided with a second wedge-shaped block, the first wedge-shaped block is provided with a first inclined surface, and the second wedge-shaped block is provided with a second inclined surface; the ejection baffle piece moves towards the direction of the gun barrel support to enable the first inclined plane and the second inclined plane to move relatively, and the first wedge-shaped block and the second wedge-shaped block are clamped and limited; one end of the second positioning piece, which is far away from the gun barrel support, is provided with a linkage block extending upwards, and the first wedge-shaped block is in butt linkage with the linkage block.

Furthermore, a third wedge block is arranged at one end, close to the projectile shell support, of the second positioning piece, a fourth wedge block is arranged on the projectile shell support, the third wedge block is provided with a third inclined surface, the fourth wedge block is provided with a fourth inclined surface, the projectile shell support moves downwards to enable the fourth inclined surface and the third inclined surface to move relatively, and the upper end of the fourth wedge block abuts against the lower end of the third wedge block.

Furthermore, a first elastic piece is vertically fixed between the lower end face of the ejection shell lifter and the inner bottom face of the gun body assembly, and a second elastic piece is horizontally fixed between one end of the ejection shell baffle piece, which is far away from the gun barrel support, and the front end face of the gun body assembly; after the bullet is loaded, the second elastic piece is in a stretching state, and the first elastic piece is in a compressing state.

Furthermore, a third elastic piece is vertically fixed between the first positioning piece and the middle connecting plate of the gun body assembly, and a fourth elastic piece is horizontally fixed between one end of the second positioning piece close to the linkage block and the front end face of the gun body assembly.

Further, still include upper cover smoothbore subassembly, the position symmetry that is close to the barrel on the smooth bore subassembly medial surface of upper cover is equipped with first horizontal sliding groove, and the lower extreme of upper cover smoothbore subassembly is equipped with spacing wedge groove, and the both sides face symmetry of throwing shell baffle spare is equipped with horizontal slider, and the symmetry is equipped with horizontal spout on the medial surface of body of a gun subassembly, and horizontal slider slides and sets up in horizontal spout, and horizontal slider runs through horizontal spout stretches into in the first horizontal sliding groove, and the both sides face symmetry of throwing the shell is equipped with vertical wedge, vertical wedge and spacing wedge phase-match, and is equipped with the vertical through-hole that matches with vertical wedge on the medial surface of body of a gun subassembly.

Furthermore, the both sides face symmetry of first locating piece is equipped with the locking arch, and the medial surface of body of a gun subassembly is equipped with the spacing groove that matches with the locking arch, and the protruding vertical removal of locking is at the spacing inslot.

Further, the transmission subassembly includes the cylinder barrel of axial connection in proper order, the cylinder piston, and the transmission spring, cylinder barrel and upper cover smoothbore subassembly fixed connection, the position symmetry that is close to the transmission subassembly on the medial surface of upper cover smoothbore subassembly is equipped with the horizontal sliding tray of second, the symmetry is equipped with the slip arch of sliding connection on the horizontal sliding tray of second on the both sides face of cylinder piston, the lower terminal surface that the cylinder piston is close to the open end is equipped with the fifth wedge, the one end of transmission spring is connected on the interior front end of cylinder piston, the other end butt is at the interior terminal surface of body of a gun subassembly.

Further, the trigger subassembly includes trigger, head rod, second connecting rod and joint spare, and the one end and the trigger of head rod are articulated, and the other end is articulated with joint spare, second connecting rod one end and trigger up end butt, the other end and the up end butt of first locating piece, and the interlude of second connecting rod is articulated with the barrel support, is equipped with on the joint spare to match spacing wedge joint portion with fifth wedge.

Furthermore, the upper cover smoothbore component is provided with a shell throwing window matched with the upper opening of the gun barrel support, and the shell throwing window is provided with a dust cover hinged to the upper cover smoothbore component.

Compared with the prior art, the invention has the beneficial effects that:

(1) according to the toy gun, the through hole is formed in the gun barrel support, the projectile baffle piece is arranged above the through hole, the projectile tappet is arranged below the through hole, the bullet shot by the shooting assembly is triggered through the trigger assembly, the projectile baffle piece is triggered to be linked with the projectile tappet, the projectile action is carried out while the bullet is shot, the experience effect of automatic continuous shooting is good, and the situation that the projectile cannot be thrown out by a player is not easy to occur due to the linkage effect of the projectile baffle piece and the projectile tappet in the playing process.

(2) According to the toy gun, the first wedge-shaped block, the second wedge-shaped block, the third wedge-shaped block and the fourth wedge-shaped block are arranged, so that the stability of mutual clamping among all the parts in the loading process is realized, the abrasion among the parts is reduced, and the service life of the toy gun is prolonged.

(3) According to the toy gun, the first elastic piece, the second elastic piece, the third elastic piece and the fourth elastic piece are arranged, so that the characteristics of the return spring are fully utilized, and the toy gun is simpler and easier to operate when bullets are shot and the shells are thrown.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is an overall block diagram of a toy gun of the present invention;

FIG. 2 is an exploded view of the construction of the toy gun of the present invention;

FIG. 3 is a partial block diagram of the toy gun of the present invention;

FIG. 4 is a partial block diagram of the toy gun of the present invention;

FIG. 5 is a partial block diagram of a toy gun of the present invention;

FIG. 6 is a block diagram of a barrel assembly of the toy gun of the present invention;

FIG. 7 is a block diagram of a projectile baffle assembly of the toy gun of the present invention;

FIG. 8 is a diagram of a projectile tappet structure of the toy gun of the present invention;

FIG. 9 is a first positioning member configuration of the toy gun of the present invention;

FIG. 10 is a view of a second positioning member of the toy gun of the present invention;

FIG. 11 is an exploded view of the firing assembly of the toy gun of the present invention;

FIG. 12 is a block diagram of the upper cover slide chamber assembly of the toy gun of the present invention;

FIG. 13 is a block diagram of a magazine assembly of the toy gun of the present invention;

FIG. 14 is a bullet configuration view of the toy gun of the present invention;

wherein: 1-a gun body assembly, 11-a horizontal sliding groove, 12-a vertical through hole, 13-a pressing positioning piece, 2-a gun barrel assembly, 21-a gun barrel support, 211-a through hole, 22-a gun barrel, 3-a firing assembly, 31-a cylinder barrel, 311-a groove, 312-an air outlet hole, 32-a cylinder piston, 321-a sliding protrusion, 322-a fifth wedge block, 33-a firing spring, 34-a cylinder sealing member, 4-a shell-throwing assembly, 41-a shell-throwing baffle member, 411-a first wedge block, 4110-a first inclined plane, 4111-a first vertical plane, 412-a horizontal sliding block, 42-a shell-throwing support, 421-a support column, 422-a fourth wedge block, 4220-a fourth inclined plane, 423-a vertical wedge block, 43-a first positioning piece, 431-a second wedge block, 4310-a second slope, 4311-a second vertical face, 432-a locking protrusion, 44-a second positioning piece, 441-a linkage block, 442-a third wedge block, 4420-a third slope, 45-a first elastic piece, 46-a second elastic piece, 47-a third elastic piece, 48-a fourth elastic piece, 5-an upper cover slide chamber component, 51-a second transverse slide groove, 52-a first transverse slide groove, 53-a projectile window, 54-a dust cap, 55-a limiting wedge groove, 6-a trigger component, 61-a trigger, 62-a first connecting rod, 63-a second connecting rod, 64-a clamping piece, 641-a wedge clamping part, 7-a magazine component, 71-a magazine housing, 710-a bullet outlet, 711-clamping positioning groove, 72-magazine bottom plate, 73-magazine elastic piece, 74-bullet supporting plate, 8-bullet, 81-shell, 82-bullet, 820-bullet and 821-bullet.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that, in the description of the invention, it is noted that the terms "first", "second", and the like are used only for distinguishing the description, and are not to be construed as indicating or implying relative importance. It should be understood that the data so used may be interchanged under appropriate circumstances such that embodiments of the application described herein may be used. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

Furthermore, the terms "disposed," "connected," "disposed," and "communicating" are to be construed broadly. For example, "connected" may be a fixed connection, a detachable connection, or a unitary construction; can be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements or components. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

As shown in fig. 1-14, the present invention provides a toy gun, comprising a gun body assembly 1, a barrel assembly 2 fixedly connected in the gun body assembly 1, a firing assembly 3 coaxially arranged with the barrel assembly 2, a ejection assembly 4 movably connected in the gun body assembly 1, and a trigger assembly 6 respectively connected with the firing assembly 3 and the ejection assembly 4; the gun barrel component 2 comprises a gun barrel support 21 for accommodating the bullet 8 and a gun barrel 22 fixedly connected with one end of the gun barrel support 21, a through hole 211 is formed in the bottom of the gun barrel support 21, and the gun barrel support 21 is located between the gun barrel 22 and the firing component 3; the ejection assembly 4 comprises an ejection baffle member 41 which is matched with the upper opening of the barrel bracket 21 and is slidably connected to the barrel 22, an ejection lifter 42 which is connected below the barrel bracket 21 in an up-and-down mode, and a positioning assembly which is positioned below the ejection baffle member 41; the upper end of the throwing shell tappet 42 is provided with a top column 421 which passes through the through hole 211 in a reciprocating manner; the trigger assembly 6 simultaneously triggers the firing assembly 3 to fire the cartridge and the ejection baffle 41 moves in the cartridge firing direction, and the ejection baffle 41 triggers the ejection pin 421 to move upward through the through hole 211 to eject the cartridge case through the positioning assembly.

The barrel support 21 in this embodiment is a U-shaped structure, a bullet is loaded into the U-shaped structure, the upper open end of the U-shaped structure is slidably provided with a ejection baffle piece 41, and the ejection baffle piece 41 slides on the barrel 22 to open or close the U-shaped opening; when the trigger assembly 6 triggers and launches the bullet, the release ejection baffle piece 41 moves along the bullet launching direction, the moving ejection baffle piece 41 drives the positioning assembly to move simultaneously, the positioning assembly releases the ejection lifter 42 to move upwards, and the ejection post 421 moves upwards to penetrate through the through hole 211 to eject the bullet shell 81.

Specifically, the positioning assembly of the present embodiment includes a first positioning member 43 that moves up and down below the ejection baffle member 41, and a second positioning member 44 that is horizontally slidably coupled below the first positioning member 43; a first wedge block 411 is arranged at the lower end of the shell throwing baffle 41, a second wedge block 431 is arranged at the upper end of the first positioning piece 43, the first wedge block 411 is provided with a first inclined surface 4110 and a first vertical surface 4111 opposite to the first inclined surface 4110, the second wedge block 431 is provided with a second inclined surface 4310 and a second vertical surface 4311 opposite to the second inclined surface 4310, and the first inclined surface 4110 and the second inclined surface 4310 are both inclined downwards along the bullet shooting direction; when the bullet is loaded, the ejection baffle 41 moves in the direction opposite to the bullet shooting direction to make the first inclined surface 4110 and the second inclined surface 4310 move relatively, and the first wedge block 411 gradually abuts against the second wedge block 431 and moves downwards until the first wedge block 411 is clamped and limited with the second wedge block 431, namely the first vertical surface 4111 is in contact with the second vertical surface 4311; when the first positioning block 43 moves downwards to release the ejection baffle 41, the ejection baffle 41 moves towards the bullet firing direction to make the first wedge 411 contact with the linkage 441, and the first wedge 411 drives the second positioning block 44 to move simultaneously to release the ejection lifter 42.

Specifically, in the present embodiment, a third wedge 442 is disposed at an end of the second positioning member 44 close to the projectile support 42, a fourth wedge 422 is disposed on the projectile support 42, the third wedge 442 has a third inclined surface 4420, the fourth wedge 422 has a fourth inclined surface 4220, and both the third inclined surface 4420 and the fourth inclined surface 4220 are inclined downward in a direction opposite to the bullet finding direction; when the bullet is loaded, the projectile lifter 42 moves downwards to make the fourth inclined surface 4220 and the third inclined surface 4420 move relatively, namely, the downward movement of the fourth inclined surface 4220 pushes the third wedge block 442 to move towards the bullet shooting direction until the upper end of the fourth wedge block 422 abuts against the lower end of the third wedge block 442.

Specifically, in the present embodiment, a first elastic member 45 is vertically fixed between the lower end surface of the ejection lifter 42 and the inner bottom surface of the gun body assembly 1, and a second elastic member 46 is horizontally fixed between one end of the ejection baffle member 41 away from the barrel support 21 and the front end surface of the gun body assembly 1; preferably, the first elastic member 45 and the second elastic member 46 are both return springs; after the bullet is loaded, the first wedge block 411 and the second wedge block 431 are connected in a clamping mode, so that the second elastic piece 46 is in a stretching state, and the third wedge block 442 and the fourth wedge block 422 are connected in a clamping mode, so that the first elastic piece 45 is in a compression state; further, it is conceivable that the sabot shutter member 41 slides in the bullet shooting direction by the pulling force of the second elastic member 46 after the first wedge block 411 and the second wedge block 431 are disengaged; when the third wedge 442 and the fourth wedge 422 are disengaged, the compression of the first elastic member 45 exerts an upward force on the projectile lifter 42, so that the projectile lifter 42 moves upward to eject the projectile.

Specifically, in this embodiment, a third elastic member 47 is vertically fixed between the first positioning member 43 and the middle connecting plate of the gun body assembly 1, and a fourth elastic member 48 is horizontally fixed between one end of the second positioning member 44 close to the linkage block 441 and the front end surface of the gun body assembly 1. Preferably, the third elastic member 47 and the fourth elastic member 48 are also return springs, and when the first wedge block 411 and the second wedge block 431 are in a state of being clamped with each other, the third elastic member 47 is in a compressed state or a normal state; when the third wedge 442 and the fourth wedge 422 are in a mutually engaged state, the fourth elastic member 48 is in a normal state.

Specifically, in this embodiment, horizontal sliding blocks 412 are symmetrically arranged on two side surfaces of the ejection baffle 41, horizontal sliding grooves 11 matched with the horizontal sliding blocks 412 are formed in the gun body assembly 1, vertical wedge blocks 423 are symmetrically arranged on two side surfaces of the ejection lifter 42, and vertical through holes 12 matched with the vertical wedge blocks 423 are formed in the gun body assembly 1. In order to eject the bullet and perform the ejection action, the horizontal slider 412 and the vertical wedge 423 perform the sliding action at the same time.

Specifically, in this embodiment, two lateral surfaces of the first positioning member 43 are symmetrically provided with locking protrusions 432, an inner lateral surface of the gun body assembly 1 is provided with a limiting groove matched with the locking protrusions 432, and the locking protrusions 432 vertically move in the limiting groove. The first positioning member 43 is only vertically movable and is not horizontally movable.

Specifically, the present embodiment further includes an upper cover slide chamber assembly 5, wherein the inner side surface of the upper cover slide chamber assembly 5 near the position of the barrel 22 is symmetrically provided with first transverse sliding grooves 52, the inner side surface of the upper cover slide chamber assembly near the position of the firing assembly 3 is provided with a second transverse sliding groove 51, and the lower end of the upper cover slide chamber assembly 5 is provided with a limiting wedge groove 55 matched with the vertical wedge 423; the horizontal sliding block 412 on the ejection baffle piece 41 extends out of the horizontal sliding groove 11 and then extends into the first transverse sliding groove 52, and the horizontal sliding block 412 is driven to slide along the barrel 22 in the sliding process of the upper cover slide chamber assembly 5, so that the ejection baffle piece 41 is driven to slide along the barrel in the direction opposite to the bullet shooting direction, and the first wedge-shaped block 411 and the second wedge-shaped block 431 are clamped and limited; meanwhile, the upper cover slide chamber assembly 5 abuts against the vertical wedge block 423 to move downwards through the limiting wedge groove 55 in the sliding process, so that the third wedge block 442 and the fourth wedge block 422 are clamped. .

Specifically, in this embodiment, the launching assembly 3 includes an air cylinder 31, an air cylinder piston 32, and a launching spring 33, which are axially connected in sequence, the air cylinder 31 is fixedly connected with the upper cover slide chamber assembly 5, that is, the upper cover slide chamber assembly 5 slides and is loaded with air, and the air cylinder 31 is driven to move to compress air; sliding protrusions 321 matched with the second transverse sliding grooves 51 are symmetrically arranged on the side face of the cylinder piston 32, a fifth wedge-shaped block 322 is arranged on the lower end face, close to the opening end, of the cylinder piston 32, one end of the launching spring 33 is connected to the inner front end of the cylinder piston 32, and the other end of the launching spring abuts against the inner end face of the gun body assembly 1.

Specifically, in this embodiment, the opening end of the cylinder tube 31 is provided with symmetrical grooves 311, the front end surface of the cylinder tube 31 is provided with an air outlet 312, and the sliding protrusion 321 on the cylinder piston 32 is matched with the groove 311 on the opening end of the cylinder tube 31, that is, the sliding protrusion 321 stops sliding when sliding into the groove 311.

Specifically, the launching assembly 3 in this embodiment further includes a cylinder seal 34, the cylinder seal 34 is connected to the front end surface of the cylinder piston 32, and the gap between the outer wall of the cylinder piston 32 and the inner wall of the cylinder bore 31 is sealed by the cylinder seal 34, so as to increase the sealing performance of the launching assembly 3.

Specifically, trigger subassembly 6 in this embodiment includes trigger 61, head rod 62, second connecting rod 63, and joint 64, and head rod 62's one end is articulated with trigger 61, and the other end is articulated with joint 64, and second connecting rod 63 one end and trigger 61 up end butt, the other end and the up end butt of first locating piece 43, and the interlude of second connecting rod 63 is articulated with barrel support 21, is equipped with on the joint 64 to match spacing wedge joint portion 641 with fifth wedge 322. When the trigger 61 is pulled, the first connecting rod 62 drives the clamping piece 64 to rotate, so that the wedge-shaped clamping part 641 on the clamping piece 64 is separated from the clamping connection with the fifth wedge-shaped block 322, and the shooting assembly 3 acts to shoot bullets; meanwhile, the trigger 61 jacks up one end of the second connecting rod 63, so that the other end of the second connecting rod 63 applies a downward acting force on the upper end face of the first positioning piece 43 to drive the first positioning piece 43 to move downwards, and the first wedge-shaped block 411 and the second wedge-shaped block 431 are disengaged from each other to release the ejection lifter 42 to perform ejection.

Specifically, the upper cap smoothbore component 5 in this embodiment is provided with a shell ejection window 53 matching with the upper opening of the barrel holder 21, and the shell ejection window 53 is provided with a dust cover 54 hinged to the upper cap smoothbore component 5 to prevent dust from entering the shell ejection window 53.

Specifically, the toy gun of the present embodiment further includes a magazine assembly 7, the magazine assembly 7 includes a magazine housing 71, a magazine base 72, a magazine elastic member 73, and a magazine supporting plate 74; the top of the magazine case 71 is provided with a bullet outlet 710, and the outer side of the front side surface of the magazine case 71 is provided with a clamping positioning groove 711; one end of the magazine elastic piece 73 is fixedly connected with the magazine bottom plate 72, and the other end is fixedly connected with the bullet supporting plate 74; the gun body assembly 1 is provided with a pressing positioning piece 13 for locking or unlocking the magazine assembly 7, and the pressing positioning piece 13 is matched with the clamping positioning groove 711.

Specifically, the bullet 8 in this embodiment is a soft-shelled bullet, which includes a case 81 and a bullet body 82, the case 81 has a hollow tubular shape, and the bullet body 82 includes a bullet head 820 and a bullet body 821. The cartridge case 81 is made of PVC material, the bullet 820 is made of rubber material, and the bullet 821 is made of sponge material or foam material.

The working principle of the invention is as follows: when a player uses the toy gun, firstly, the upper cover slide chamber component is pulled along the direction opposite to the bullet shooting direction, in the process, the upper cover slide chamber component 5 simultaneously drives the cylinder barrel 31 to move, the ejection baffle piece 41 to move in the direction opposite to the bullet shooting direction and the ejection lifter 42 to move downwards, at the moment, air between the cylinder barrel 31 and the cylinder piston 32 is compressed, and the wedge-shaped clamping part 641 on the clamping piece 64 is clamped with the fifth wedge-shaped block 322 on the cylinder piston 32; the first wedge block 411 on the ejection baffle piece 41 is clamped with the second wedge block 431 on the first positioning piece 43; the third wedge-shaped block 442 on the second positioning piece 44 is clamped with the fourth wedge-shaped block 422 on the ejection jack 42 to finish the loading action of the bullet 8; when the bullet is fired, the trigger 61 is pulled, the trigger 61 drives the clamping piece 64 to rotate through the first connecting rod 62, so that the wedge-shaped clamping portion 641 on the clamping piece 64 is separated from the clamping connection with the fifth wedge-shaped block 322, and the firing assembly 3 acts to fire the bullet; meanwhile, the trigger 61 jacks up one end of the second connecting rod 63, so that the other end of the second connecting rod 63 applies a downward acting force on the upper end surface of the first positioning piece 43, the first positioning piece 43 is driven to move downward, after the first wedge-shaped block 411 and the second wedge-shaped block 431 are disengaged from each other, the ejection baffle piece 41 continues to slide along the direction in which the bullet is shot by the barrel 22 under the pulling force of the second elastic piece 46, the first wedge-shaped block 411 abuts against the linkage block 441 and drives the second positioning piece 44 to slide together in the direction in which the bullet is shot, the second positioning piece 44 slides to enable the third wedge-shaped block 442 and the fourth wedge-shaped block 422 to disengage from each other, and under the action of the first elastic piece 45, the ejection lifter 42 moves upward to drive the ejection column 421 to penetrate through the through hole 221 to eject the bullet case, and the bullet is ejected; the cyclic action realizes the purpose of automatic continuous shooting.

The present invention has been further described with reference to specific embodiments, but it should be understood that the detailed description should not be construed as limiting the spirit and scope of the present invention, and various modifications made to the above-described embodiments by those of ordinary skill in the art after reading this specification are within the scope of the present invention.

Claims (10)

1. A toy gun is characterized by comprising a gun body assembly, a gun barrel assembly fixedly connected in the gun body assembly, a launching assembly coaxially arranged with the gun barrel assembly, a shell throwing assembly movably connected in the gun body assembly, and a trigger assembly respectively connected with the launching assembly and the shell throwing assembly;

the gun barrel assembly comprises a gun barrel support for accommodating bullets and a gun barrel fixedly connected with one end of the gun barrel support, a through hole is formed in the bottom of the gun barrel support, and the gun barrel support is located between the gun barrel and the firing assembly;

the ejection shell assembly comprises an ejection shell baffle piece which is matched with the upper opening of the barrel support and is connected to the barrel in a sliding mode, an ejection shell support which is connected below the barrel support in an up-and-down mode, and a positioning assembly located below the ejection shell baffle piece; the upper end of the throwing shell support is provided with a top column which vertically and repeatedly penetrates through the through hole; the trigger assembly simultaneously triggers the launching assembly to launch the bullet and the ejection baffle piece to move along the bullet launching direction, and the ejection baffle piece triggers the ejection column to move upwards through the through hole through the positioning assembly to eject the cartridge case.

2. The toy gun of claim 1, wherein the positioning assembly includes a first positioning member that moves up and down below the projectile barrier member, and a second positioning member that is horizontally slidably connected below the first positioning member;

the lower end of the shell throwing baffle piece is provided with a first wedge-shaped block, the upper end of the first positioning piece is provided with a second wedge-shaped block, the first wedge-shaped block is provided with a first inclined plane, and the second wedge-shaped block is provided with a second inclined plane; the ejection baffle piece moves towards the direction of the gun barrel support to enable the first inclined plane and the second inclined plane to move relatively, and the first wedge-shaped block and the second wedge-shaped block are clamped and limited; one end of the second positioning piece, which is far away from the gun barrel support, is provided with a linkage block extending upwards, and the first wedge-shaped block is in butt linkage with the linkage block.

3. The toy gun of claim 2, wherein a third wedge is disposed on the second positioning member at an end close to the ejector casing support, a fourth wedge is disposed on the ejector casing support, the third wedge has a third inclined surface, the fourth wedge has a fourth inclined surface, the ejector casing support moves downward to move the fourth inclined surface and the third inclined surface relatively, and an upper end of the fourth wedge abuts against a lower end of the third wedge.

4. The toy gun of claim 1, wherein a first resilient member is vertically secured between a lower end surface of the ejection ram and an inner bottom surface of the body assembly, and a second resilient member is horizontally secured between an end of the ejection barrier member distal from the barrel mount and a front end surface of the body assembly; after the bullet is loaded, the second elastic piece is in a stretching state, and the first elastic piece is in a compressing state.

5. The toy gun of claim 2, wherein a third elastic member is vertically fixed between the first positioning member and the intermediate connecting plate of the gun body assembly, and a fourth elastic member is horizontally fixed between one end of the second positioning member adjacent to the linkage block and the front end surface of the gun body assembly.

6. The toy gun of claim 1, further comprising an upper cover smoothbore assembly, wherein first transverse sliding grooves are symmetrically formed in the inner side surface of the upper cover smoothbore assembly, the position, close to the gun barrel, of the upper cover smoothbore assembly, a limiting wedge groove is formed in the lower end of the upper cover smoothbore assembly, horizontal sliding blocks are symmetrically arranged on two side surfaces of the shell throwing baffle piece, horizontal sliding grooves are symmetrically formed in the inner side surface of the gun body assembly, the horizontal sliding blocks are arranged in the horizontal sliding grooves in a sliding mode, the horizontal sliding blocks penetrate through the horizontal sliding grooves and extend into the first transverse sliding grooves, vertical wedge blocks are symmetrically arranged on two side surfaces of the shell throwing lifter, the vertical wedge blocks are matched with the limiting wedge grooves, and vertical through holes matched with the vertical wedge blocks are formed in the inner side surface of the gun body assembly.

7. The toy gun of claim 2, wherein the first positioning member has locking protrusions symmetrically disposed on both sides thereof, the body assembly has a limiting groove formed on an inner side thereof, the limiting groove being matched with the locking protrusions, and the locking protrusions vertically move in the limiting groove.

8. The toy gun of claim 6, wherein the firing assembly includes an air cylinder barrel, an air cylinder piston, and a firing spring that are axially connected in sequence, the air cylinder barrel is fixedly connected with the upper cover slide chamber assembly, a second transverse sliding groove is symmetrically arranged on an inner side surface of the upper cover slide chamber assembly near the firing assembly, sliding protrusions which are slidably connected on the second transverse sliding groove are symmetrically arranged on two side surfaces of the air cylinder piston, a fifth wedge-shaped block is arranged on a lower end surface of the air cylinder piston near the opening end, one end of the firing spring is connected to an inner front end of the air cylinder piston, and the other end of the firing spring abuts against an inner end surface of the gun body assembly.

9. The toy gun of claim 2, wherein the trigger assembly includes a trigger, a first connecting rod, a second connecting rod, and a joint member, wherein one end of the first connecting rod is hinged to the trigger, the other end of the first connecting rod is hinged to the joint member, one end of the second connecting rod is abutted to the upper end face of the trigger, the other end of the second connecting rod is abutted to the upper end face of the first positioning member, the middle section of the second connecting rod is hinged to the barrel support, and the joint member is provided with a wedge-shaped joint portion which is matched with and limited by the fifth wedge-shaped block.

10. The toy gun of claim 6, wherein the upper cap smoothbore assembly is provided with a shell ejection window matching the upper opening of the barrel holder, the shell ejection window being provided with a dust cap hinged to the upper cap smoothbore assembly.

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