CN215524350U - Manual-automatic integrated soft bullet gun toy - Google Patents

Abstract

The utility model discloses a manual-automatic integrated soft bullet gun toy which comprises a shell, a bullet loading mechanism, a launching mechanism and a manual/automatic switching mechanism, wherein the bullet loading mechanism, the launching mechanism and the manual/automatic switching mechanism are arranged in the shell; the bullet loading mechanism comprises a bullet belt shifting device, a bullet belt shifting tongue matched with a bullet belt and driving the bullet belt to move is arranged on the bullet belt shifting device, a bullet belt shifting device driving assembly matched with the bullet belt shifting device and driving the bullet belt shifting device to rotate is arranged at the rear end of the bullet belt shifting device, the front end of the bullet belt shifting device driving assembly is matched with the bullet belt shifting device, the rear end of the bullet belt shifting device driving assembly is matched with the launching mechanism, and the launching mechanism drives the bullet belt shifting device driving assembly, so that the bullet belt shifting device driving assembly drives the bullet belt shifting device to rotate, the bullet belt is converted into the next bullet position, and bullet loading is completed.

Description

Manual-automatic integrated soft bullet gun toy

Technical Field

The utility model relates to the field of children toys, in particular to a manual-automatic integrated soft bullet gun toy which can automatically feed bullets and can be manually and automatically launched.

Background

The soft bullet gun in the current market can not realize automatic bullet feeding, so that the bullet feeding, the loading and the shooting can be carried out only manually, continuous shooting can not be realized, the playing of the soft bullet gun is limited, and the playability is not high.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a manual-automatic integrated soft bullet gun toy aiming at the defects of the prior art and solves the problems that the prior soft bullet gun cannot automatically and continuously shoot, cannot realize manual and automatic free switching and has low playability.

The technical scheme provided by the utility model for realizing the purpose is as follows:

the manual-automatic integrated soft bullet gun toy comprises a shell, and a bullet loading mechanism, a launching mechanism and a manual/automatic switching mechanism which are arranged in the shell, wherein the bullet loading mechanism is arranged at the front part of the launching mechanism, and the manual/automatic switching mechanism is arranged at one side of the launching mechanism; the bullet loading mechanism comprises a bullet belt shifting device, a bullet belt shifting tongue matched with a bullet belt and driving the bullet belt to move is arranged on the bullet belt shifting device, a bullet belt shifting device driving assembly matched with the bullet belt shifting device and driving the bullet belt shifting device to rotate is arranged at the rear end of the bullet belt shifting device, the front end of the bullet belt shifting device driving assembly is matched with the bullet belt shifting device, the rear end of the bullet belt shifting device driving assembly is matched with the launching mechanism, and the launching mechanism drives the bullet belt shifting device driving assembly, so that the bullet belt shifting device driving assembly drives the bullet belt shifting device to rotate, the bullet belt is converted into the next bullet position, and bullet loading is completed.

The bullet belt poking device comprises a rotary cylinder, bullet belt poking pieces are arranged at the front end and the rear end of the rotary cylinder, the bullet belt shifting tongue is arranged on the bullet belt shifting piece, the lower end of the rotating cylinder is provided with a rotating cylinder top post which is arranged on the rotating cylinder, a plurality of top column clamping holes matched with the top column of the rotary cylinder are circumferentially arranged at equal intervals corresponding to the top column of the rotary cylinder, the driving component of the bullet belt shifting device comprises a rotary cylinder push disc arranged on the rear end surface of the rotary cylinder and a rotary cylinder driving piece matched with the rotary cylinder push disc, the rotary cylinder driving piece comprises a rotary cylinder driving pull plate with the rear end matched with the launching mechanism, and a rotary drum driving push rod with the front end matched with the rotary drum push disc, the rotary drum driving pull plate is movably connected with the rotary drum driving push rod, and when the rear end of the rotary cylinder driving pull plate moves backwards, the front end of the rotary cylinder driving pull plate pushes the rotary cylinder driving push rod to push the rotary cylinder push disc upwards slantwise.

The rotary drum push disc is uniformly provided with a plurality of push disc convex blocks matched with the rotary drum driving push rod, and the upper surfaces of the push disc convex blocks are provided with inclined planes.

The bullet belt comprises a plurality of bullet barrel assemblies which are detachably connected with each other, each bullet barrel assembly comprises a bullet barrel, bullet barrel connecting shafts which are respectively arranged on two sides of the bullet barrel, bullet barrel connecting shaft sleeves which are matched with the bullet barrel connecting shafts, and snap rings are arranged at the front part and the rear part of each bullet barrel; and a plurality of bullet belt poking tongues matched with the bullet belts are uniformly arranged on the bullet belt poking piece, and the bullet belt poking tongues are matched with the gaps between the bullet barrels.

The manual/automatic switching mechanism comprises a switching plate arranged on one side of the launching mechanism, and a deflector rod assembly arranged at the lower end of the switching plate and matched with the switching plate, wherein the deflector rod assembly comprises a deflector rod arranged outside the shell and a deflector rod shifting column fixedly connected with the deflector rod and matched with the switching plate; and a power switch is arranged on one side of the switching plate.

The launching mechanism comprises a manual loading device, a launching device and an automatic loading device, wherein the manual loading device and the automatic loading device are connected with the launching device; the manual loading device comprises a pulling plate, and a handle matched with the pulling plate is fixed at the rear end of the pulling plate; and a limiting plate matched with the emitting device is arranged in the middle of the lower end of the pulling plate, a pulling plate reset spring is arranged at the front end of the pulling plate, and a pulling plate fixing clamping groove matched with the upper end of the switching plate is arranged on the pulling plate corresponding to the switching plate.

The automatic loading device comprises a driving motor, a functional gear and a transmission gear set, wherein the transmission gear set is connected with the driving motor and the functional gear, the functional gear is matched with the launching device, the transmission gear set comprises a first-stage transmission gear and a second-stage transmission gear, the second-stage transmission gear is meshed with the functional gear, and the first-stage transmission gear is meshed with the driving motor.

The primary transmission gear is provided with a non-return clamping groove, one side of the primary transmission gear is provided with an anti-rotation piece matched with the non-return clamping groove, and the anti-rotation piece is matched with the non-return clamping groove to prevent the primary transmission gear from rotating; the function gear includes internal tooth and external tooth, second grade drive gear with the internal tooth meshes mutually, the external tooth cooperatees with emitter, be equipped with in function gear surface with emitter complex projection, in external tooth upper portion is equipped with the breach.

The launching device comprises a launching assembly and a triggering assembly, wherein the launching assembly comprises a base, a launching spring sleeved on the base, an inner air cylinder sleeved on the launching spring, and an outer air cylinder sleeved on the inner air cylinder; the trigger assembly comprises a trigger and a push plate connected with the trigger, a motor trigger switch connected to the rear part of the push plate is arranged on the push plate, a launch card column is arranged on the upper end of the push plate, a launch card column jacking block matched with the launch card column is arranged on the corresponding launch card column in the push plate, and a trigger clamping ring matched with the trigger is arranged at the front end of the push plate.

A first bulge matched with the manual loading device is arranged at the upper part of the rear end of the outer air cylinder, and a transmission rod matched with the automatic loading device is arranged at the lower part of the rear end; a second bulge is arranged at the upper part of the rear end of the inner air cylinder, a rack matched with the automatic loading device is arranged on one side of the bottom of the inner air cylinder, and a launching bayonet is arranged at the bottom of the inner air cylinder corresponding to the launching clamping column; the bottom of the outer air cylinder is provided with an outer air cylinder reset spring, and the front end of the bottom of the outer air cylinder is provided with a rotary cylinder driving piece ejector block matched with the bullet belt shifting device driving assembly.

The utility model has the following effective effects: the manual-automatic integrated soft bullet gun toy is provided with the automatic bullet loading mechanism matched with the bullet belt and is combined with the manual/automatic switching mechanism, so that the automatic continuous shooting of the soft bullet gun can be realized, and the manual and automatic shooting modes are provided, and the playability is higher.

The automatic bullet feeding mechanism adopts the cylindrical rolling bullet feeding assembly, and realizes the quick switching of the bullet barrels on the bullet belt through the rotation of the jacking rotary barrel, so that the structure has higher bullet feeding efficiency and is not easy to clamp.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

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

FIG. 3 is another schematic structural view of FIG. 2;

FIG. 4 is a schematic diagram of the exploded structure of FIG. 2;

FIG. 5 is a schematic structural view of a loading mechanism of the present invention;

FIG. 6 is a view showing the construction of a primary drive gear of the present invention;

fig. 7 is a schematic structural view of the functional gear of the present invention.

In the figure: 1. the shell 2 is a rotating cylinder 3, a bullet belt poking piece 4, a rotating cylinder top column

5. Rotary drum top column reset spring 6, top column clamping hole 7, rotary drum push disc

8. Bullet belt 9, rotary drum driving pull plate 10, rotary drum driving push rod

11. Push plate lug 12, bullet barrel 13 and bullet barrel connecting shaft

14. Bullet tube connecting shaft sleeve 15, snap ring 16, bullet belt toggle tongue

17. Switch board 18, deflector rod 19, switch board deflector rod 20, power switch

21. Power switch toggle clamping groove 22, pulling plate 23, handle 24 and limiting plate

25. Pulling plate return spring 26, pulling plate fixing clamping groove 27 and driving motor

28. Functional gear 29, primary transmission gear 30 and secondary transmission gear

31. Check slot 32, anti-rotation part 33, internal tooth 34 and external tooth

35. Convex column 36, notch 37, anti-rotation part top column 38 and base

39. Firing spring 40, inner cylinder 41, outer cylinder 42, trigger 43, push plate

44. Motor trigger switch 45, emission clamping column 46, emission clamping column top block

47. Trigger ring 48, first projection 49, drive rod 50, second projection

51. Rack 52, emission bayonet 53, outer air cylinder return spring 54, projection

55. First projection sliding groove 56, second projection sliding groove 57 and projection clamping groove

58. The barrel drive member ejector pad is rotated.

Detailed Description

Example (b): referring to fig. 1 to 7, the present embodiment provides a manual-automatic soft bullet gun toy, which includes a housing 1, and a bullet loading mechanism, a launching mechanism and a manual/automatic switching mechanism arranged inside the housing, wherein the bullet loading mechanism is arranged at the front of the launching mechanism, and the manual/automatic switching mechanism is arranged at one side of the launching mechanism; the bullet feeding mechanism comprises a rotary cylinder 2, bullet driving pieces 3 are arranged at the front end and the rear end of the rotary cylinder 2, a rotary cylinder top column 4 is arranged at the lower end of the rotary cylinder 2, a rotary cylinder top column reset spring 5 is arranged at the lower end of the rotary cylinder top column 4, a plurality of top column clamping holes 6 matched with the rotary cylinder top column 4 are circumferentially arranged on the rotary cylinder 2 at equal intervals corresponding to the rotary cylinder top column 4, and an inward inclined plane is arranged at the edge of each top column clamping hole 6; be equipped with rotatory section of thick bamboo driving piece in rotatory section of thick bamboo 2 rear end, in rotatory 2 rear end faces of a section of thick bamboo, be equipped with rotatory section of thick bamboo driving piece complex rotatory section of thick bamboo pushes away set 7, rotatory section of thick bamboo driving piece front end and rotatory section of thick bamboo push away set 7 and cooperate, the rear end with firing mechanism cooperatees, drives rotatory section of thick bamboo driving piece by firing mechanism to make rotatory section of thick bamboo driving piece promote rotatory section of thick bamboo and push away set 7, make rotatory section of thick bamboo 2 rotatory, and then dial piece 3 through the bullet area and convert bullet area 8 to next bullet position, accomplish and play.

The rotary drum driving piece comprises a rotary drum driving pull plate 9 with the rear end matched with the launching mechanism, and a rotary drum driving push rod 10 with the front end matched with the rotary drum push disc 7, the rotary drum driving pull plate 9 is movably connected with the rotary drum driving push rod 10, and when the rear end of the rotary drum driving pull plate 9 moves backwards, the front end of the rotary drum driving pull plate 9 pushes the rotary drum driving push rod 10 to push the rotary drum push disc 7 obliquely upwards.

A plurality of pushing disc convex blocks 11 matched with the rotating cylinder driving push rod 10 are uniformly arranged on the rotating cylinder pushing disc 7, and inclined planes are arranged on the upper surfaces of the pushing disc convex blocks 11.

The bullet belt 8 comprises a plurality of bullet barrel assemblies which are detachably connected with each other, each bullet barrel assembly comprises a bullet barrel 12, bullet barrel connecting shafts 13 which are respectively arranged on two sides of the bullet barrel 12, and bullet barrel connecting shaft sleeves 14 which are matched with the bullet barrel connecting shafts 13, and the bullet barrel connecting shafts 13 of two adjacent bullet barrels are matched with the bullet barrel connecting shaft sleeves 14 to realize the mutual connection of the bullet barrels 12; snap rings 15 are arranged at the front part and the rear part of the bullet barrel 12; a plurality of bullet belt toggle tongues 16 matched with the bullet belts 8 are uniformly arranged on the bullet belt toggle piece 3, and the bullet belt toggle tongues 16 are matched with the bullet barrel 12 in a gap.

The manual/automatic switching mechanism comprises a switching plate 17 arranged on one side of the launching mechanism, and a deflector rod assembly arranged at the lower end of the switching plate 17 and matched with the switching plate 17, wherein the deflector rod assembly comprises a deflector rod 18 arranged outside the shell and a switching plate deflector rod column 19 fixedly connected with the deflector rod 18 and matched with the switching plate 17; a power switch 20 is disposed on one side of the switch board 17.

A power switch toggle slot 21 is arranged on the switching board 17 corresponding to the power switch 20.

The launching mechanism comprises a manual loading device, a launching device and an automatic loading device, wherein the manual loading device and the automatic loading device are connected with the launching device; the manual loading device comprises a pulling plate 22, and a handle 23 matched with the pulling plate is fixed at the rear end of the pulling plate 22; a limiting plate 24 matched with the emitting device is arranged at the lower end of the pulling plate 22, a lug 54 matched with the pulling plate 22 is arranged at the upper part of the rear end of the limiting plate 24, a lug clamping groove 57 matched with the lug 54 is arranged at the middle part of the lower end surface of the pulling plate 22, a pulling plate reset spring 25 is arranged at the front end of the pulling plate 22, and a pulling plate fixing clamping groove 26 matched with the upper end of the switching plate 17 is arranged on the pulling plate 22 corresponding to the switching plate 17.

The automatic loading device comprises a driving motor 27, a functional gear 28 and a transmission gear set, wherein the transmission gear set is connected with the driving motor 27 and the functional gear 28, the functional gear 28 is matched with the launching device, the transmission gear set comprises a primary transmission gear 29 and a secondary transmission gear 30, the secondary transmission gear 30 is meshed with the functional gear 28, and the primary transmission gear 29 is meshed with the driving motor 27.

A non-return clamping groove 31 is formed in the primary transmission gear 29, a rotation preventing part 32 matched with the non-return clamping groove 31 is arranged on one side of the primary transmission gear 29, and the rotation preventing part 32 is matched with the non-return clamping groove 31 to prevent the rotation of the primary transmission gear 29; functional gear 28 includes internal tooth 33 and external tooth 34, secondary drive gear 30 with internal tooth 33 meshes mutually, external tooth 34 cooperatees with emitter, be equipped with in functional gear 28 surface with emitter complex projection 35, in external tooth 35 upper portion is equipped with breach 36.

A rotation preventing member ejection post 37 matched with the rotation preventing member 32 is arranged at the bottom of the switching plate 17, when the switching plate 17 moves downwards, the rotation preventing member 32 is disengaged from the non-return slot 31, and when the switching plate 17 moves upwards, the rotation preventing member 32 is matched with the non-return slot 31 to prevent the first-stage transmission gear 29 from rotating.

The launching device comprises a launching assembly and a triggering assembly, wherein the launching assembly comprises a base 38, a launching spring 39 sleeved on the base 38, an inner air cylinder 40 sleeved on the launching spring 39 and an outer air cylinder 41 sleeved on the inner air cylinder 40; the trigger assembly comprises a trigger 42 and a push plate 43 connected with the trigger 42, a motor trigger switch 44 connected to the rear part of the push plate 43, a launch card column 45 is arranged at the upper end of the push plate 43, a launch card column jacking block 46 matched with the launch card column 45 is arranged on the push plate 43 corresponding to the launch card column 45, and a trigger clamping ring 47 matched with the trigger 42 is arranged at the front end of the push plate 43.

A first bulge 48 matched with the manual loading device is arranged at the upper part of the rear end of the outer air cylinder 41, and a transmission rod 49 matched with the automatic loading device is arranged at the lower part of the rear end; a second bulge 50 is arranged at the upper part of the rear end of the inner air cylinder 40, a rack 51 matched with the automatic loading device is arranged at one side of the bottom of the inner air cylinder 40, and an emission bayonet 52 is arranged at the bottom surface of the inner air cylinder 40 corresponding to the emission clamping column 45; an outer cylinder return spring 53 is provided at the bottom of the outer cylinder 41, and a rotary cylinder drive member ejector block 58 engaged with the rotary cylinder drive link 9 is provided at the front end of the bottom of the outer cylinder 41.

A first protrusion sliding groove 55 is formed in the lower end surface of the limiting plate 24, the first protrusion 48 is located in the first protrusion sliding groove 55 and slides in the first protrusion sliding groove 55, a second protrusion sliding groove 56 is formed in the rear portion of the lower end surface of the pulling plate 22, and the second protrusion 50 is located in the second protrusion sliding groove 56 and slides in the second protrusion sliding groove 56.

The working principle of the embodiment is as follows:

the shifting rod 18 rotates backwards to be horizontal, the shifting rod 18 rotates to drive the switching plate shifting column 19 to rotate upwards, the switching plate 17 moves upwards under the action of the switching plate shifting column 19, the upper end of the switching plate 17 is matched with the pulling plate fixing clamping groove 26, so that the pulling plate 22 is fixed, and the switching plate 17 moves upwards, so that the anti-rotation part 32 is separated from the support of the anti-rotation part ejection column 37 and moves forwards to be matched with the non-return clamping groove 31 to prevent the first-stage transmission gear 29 from rotating, meanwhile, the power switch shifting clamping groove 21 moves upwards to turn on the power switch 20, and the automatic mode is switched to; when the trigger 42 is pulled, the trigger 42 drives the push plate 43 to move backwards and triggers the motor trigger switch 44, the driving motor 27 starts to work, the transmission gear set drives the function gear 28 to rotate under the action of the driving motor 27, when the external gear 34 rotates to the rack 51, the external gear 34 is meshed with the rack 51 to drive the internal air cylinder 40 to move backwards, the launching spring 39 is compressed, the boss 35 is matched with the transmission rod 49 to drive the external air cylinder 41 to move backwards, the external air cylinder reset spring 53 is stretched, meanwhile, the rotary cylinder driving piece ejector block 58 moves backwards to move the rear end of the rotary cylinder driving pull rod 9 backwards, so that the front end of the rotary cylinder driving pull rod 9 pushes the rotary cylinder driving push rod 10 upwards, the rotary cylinder driving push rod 10 pushes the rotary cylinder to rotate upwards through the push plate bump 11, and simultaneously, the rotary cylinder ejector column 4 is separated from the matching of the ejector column clamping hole 6 until the rotary cylinder 2 rotates to the next ejector column clamping hole 6 to be matched with the rotary cylinder ejector column 4, the functional gear 28 continues to rotate, after the convex column 35 rotates to a certain position, the transmission rod 49 is separated from the convex column 35 firstly, the outer air cylinder 41 is reset under the action of the outer air cylinder reset spring 53, and the rotating cylinder drives the push rod 10 to reach the next push disc convex block 11, so that automatic bouncing is completed; when the function gear 28 rotates to the notch, the external teeth 34 are disengaged from the rack 51, the internal air cylinder 40 is ejected forwards under the action of the ejection spring 39, so that soft projectiles are ejected under the action of air pressure, and the process is circulated, and automatic continuous shooting is realized.

The shifting rod 18 is rotated forwards to be horizontal, the shifting rod 18 rotates to drive the switching plate shifting column 19 to rotate downwards, the switching plate 17 moves downwards under the action of the switching plate shifting column 19, the upper end of the switching plate 17 is separated from the matching with the pulling plate fixing clamping groove 26, the pulling plate 22 can move freely, and due to the fact that the switching plate 17 moves downwards, the anti-rotation part 32 moves backwards under the action of the anti-rotation part ejection column 37 and is separated from the matching with the non-return clamping groove 31, meanwhile, the power switch shifting clamping groove 21 moves downwards, the power switch 20 is closed, and at the moment, the manual mode is switched; the pulling plate 22 is pulled through the handle 23, so that the limit plate 24 is driven to move backwards, the front end of the first protrusion sliding groove 55 is matched with the first protrusion 48 to drive the outer air cylinder 41 to move backwards, the front end of the second protrusion sliding groove 56 is matched with the second protrusion 50 to drive the inner air cylinder 40 to move backwards, and when the pulling plate 22 is pulled to the bottom, the emission bayonet 52 at the bottom of the inner air cylinder 40 is buckled on the emission bayonet 45 to finish loading; the outer air cylinder 41 moves backwards, the outer air cylinder reset spring 53 is stretched, meanwhile, the rotating cylinder driving piece ejector block 58 moves backwards, the rear end of the rotating cylinder driving pull rod 9 moves backwards, the front end of the rotating cylinder driving pull rod 9 pushes the rotating cylinder driving push rod 10 upwards, the rotating cylinder driving push rod 10 upwards passes through the push disc lug 11 to push the rotating cylinder to rotate, meanwhile, the rotating cylinder ejector post 4 is separated from the ejector post clamping hole 6 until the rotating cylinder 2 rotates to the next ejector post clamping hole 6 to be matched with the rotating cylinder ejector post 4, the handle 23 is released, the pull plate 22 is reset under the action of the pull plate reset spring 25, the outer air cylinder 41 is reset under the action of the outer air cylinder reset spring 53, and the rotating cylinder driving push rod 10 reaches the next push disc lug 11 to finish automatic bouncing; the trigger 42 is pulled, the trigger 42 drives the push plate 43 to move forwards, the connecting end of the emission card column 45 and the push plate 43 is lifted upwards under the action of the emission card column jacking block 46, due to the lever principle, the matching end of the emission card column 45 and the emission bayonet 52 moves downwards, the emission card column 45 is separated from the emission bayonet 52, the inner air cylinder 40 is popped out under the action of the emission spring 39, and manual emission is completed.

However, the above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not intended to limit the scope of the present invention, so that other embodiments described in the present invention and equivalent variations thereof are included in the scope of the present invention.

Claims (10)

1. The manual-automatic integrated soft bullet gun toy is characterized by comprising a shell, a bullet loading mechanism, a launching mechanism and a manual/automatic switching mechanism, wherein the bullet loading mechanism, the launching mechanism and the manual/automatic switching mechanism are arranged in the shell; the bullet loading mechanism comprises a bullet belt shifting device, a bullet belt shifting tongue matched with a bullet belt and driving the bullet belt to move is arranged on the bullet belt shifting device, a bullet belt shifting device driving assembly matched with the bullet belt shifting device and driving the bullet belt shifting device to rotate is arranged at the rear end of the bullet belt shifting device, the front end of the bullet belt shifting device driving assembly is matched with the bullet belt shifting device, the rear end of the bullet belt shifting device driving assembly is matched with the launching mechanism, and the launching mechanism drives the bullet belt shifting device driving assembly, so that the bullet belt shifting device driving assembly drives the bullet belt shifting device to rotate, the bullet belt is converted into the next bullet position, and bullet loading is completed.

2. The toy soft bullet gun as claimed in claim 1, wherein said bullet string driving means comprises a rotary barrel, bullet string driving members are provided at the front and rear ends of the rotary barrel, said bullet string driving tongues are provided on the bullet string driving members, a rotary barrel top post is provided at the lower end of the rotary barrel, a plurality of top post engaging holes are circumferentially provided at equal intervals on the rotary barrel corresponding to the rotary barrel top post, said bullet string driving assembly comprises a rotary barrel pushing plate provided at the rear end surface of the rotary barrel and a rotary barrel driving member engaged with the rotary barrel pushing plate, said rotary barrel driving member comprises a rotary barrel driving pulling plate having a rear end engaged with the launching mechanism and a rotary barrel driving pushing rod having a front end engaged with the rotary barrel pushing plate, said rotary barrel driving pulling plate is movably connected with the rotary barrel driving pushing rod, and when the rear end of the rotary barrel driving pulling plate moves backward, the front end of the rotary drum driving pull plate pushes the rotary drum driving push rod to push the rotary drum push disc obliquely upwards.

3. The toy soft bullet gun as claimed in claim 2, wherein a plurality of protrusions are uniformly formed on the push plate of the rotary cylinder, and the protrusions are provided with inclined surfaces.

4. The toy automatic soft bullet gun of claim 1, wherein the bullet belt comprises a plurality of bullet cartridge assemblies detachably connected with each other, the bullet cartridge assemblies comprise bullet cartridges, bullet cartridge connecting shafts respectively arranged at two sides of the bullet cartridges, and bullet cartridge connecting shaft sleeves matched with the bullet cartridge connecting shafts, and snap rings are arranged at the front and rear parts of the bullet cartridges; and a plurality of bullet belt poking tongues matched with the bullet belts are uniformly arranged on the bullet belt poking piece, and the bullet belt poking tongues are matched with the gaps between the bullet barrels.

5. The toy soft bullet gun of claim 1, wherein said manual/automatic switching mechanism comprises a switch plate disposed at one side of said firing mechanism, a lever assembly disposed at a lower end of said switch plate and engaged with said switch plate, said lever assembly comprising a lever disposed outside said housing and a switch plate lever post fixedly connected to said lever and engaged with said switch plate; and a power switch is arranged on one side of the switching plate.

6. The toy manual-automatic soft bullet gun according to claim 5, wherein said firing mechanism comprises a manual loading device, a firing device and an automatic loading device, wherein said manual loading device and said automatic loading device are connected to said firing device; the manual loading device comprises a pulling plate, and a handle matched with the pulling plate is fixed at the rear end of the pulling plate; and a limiting plate matched with the emitting device is arranged in the middle of the lower end of the pulling plate, a pulling plate reset spring is arranged at the front end of the pulling plate, and a pulling plate fixing clamping groove matched with the upper end of the switching plate is arranged on the pulling plate corresponding to the switching plate.

7. The toy figure of claim 6, wherein the automatic loading device comprises a driving motor, a functional gear, and a transmission gear set connecting the driving motor and the functional gear, the functional gear is engaged with the launching device, wherein the transmission gear set comprises a primary transmission gear and a secondary transmission gear, the secondary transmission gear is engaged with the functional gear, and the primary transmission gear is engaged with the driving motor.

8. The manual-automatic soft bullet gun toy according to claim 7, wherein the primary transmission gear is provided with a non-return slot, and one side of the primary transmission gear is provided with a rotation preventing member engaged with the non-return slot, and the rotation preventing member is engaged with the non-return slot to prevent the rotation of the primary transmission gear; the function gear includes internal tooth and external tooth, second grade drive gear with the internal tooth meshes mutually, the external tooth cooperatees with emitter, be equipped with in function gear surface with emitter complex projection, in external tooth upper portion is equipped with the breach.

9. The toy manual-automatic soft bullet gun of claim 6, wherein said firing device comprises a firing assembly and a triggering assembly, wherein said firing assembly comprises a base, a firing spring mounted on the base, an inner cylinder mounted on the firing spring, and an outer cylinder mounted on the inner cylinder; the trigger assembly comprises a trigger and a push plate connected with the trigger, a motor trigger switch connected to the rear part of the push plate is arranged on the push plate, a launch card column is arranged on the upper end of the push plate, a launch card column jacking block matched with the launch card column is arranged on the push plate corresponding to the launch card column, and a trigger clamping ring matched with the trigger is arranged at the front end of the push plate.

10. The toy hand-automatic soft bullet gun according to claim 9, wherein a first protrusion is provided at the upper portion of the rear end of said outer air cylinder for engaging with said manual loading device, and a transmission rod is provided at the lower portion of the rear end for engaging with said automatic loading device; a second bulge is arranged at the upper part of the rear end of the inner air cylinder, a rack matched with the automatic loading device is arranged on one side of the bottom of the inner air cylinder, and a launching bayonet is arranged at the bottom of the inner air cylinder corresponding to the launching clamping column; the bottom of the outer air cylinder is provided with an outer air cylinder reset spring, and the front end of the bottom of the outer air cylinder is provided with a rotary cylinder driving piece ejector block matched with the bullet belt shifting device driving assembly.

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