CN216523393U - Novel shell-throwing laser training model gun - Google Patents

Abstract

The utility model discloses a novel shell-throwing laser training model gun which is characterized by comprising a model gun body, wherein the model gun body comprises a gun body, a sliding barrel, a shell-throwing mechanism, a gun barrel fixing seat and a cartridge clip, wherein the sliding barrel is arranged on the gun body; a laser emitting device is arranged in the gun barrel, when a trigger is pulled, the laser emitting device emits laser, and the laser is emitted through the gun barrel; the bullet temporary storage device is characterized in that a bullet limiting clamping piece is arranged at the rear part of the upper end of the cartridge clip, a bullet temporary storage cavity is formed between the bullet limiting clamping piece and the gun barrel fixing seat, a shell throwing window is arranged on one side of the sliding barrel, when the sliding barrel moves to the rearmost end under the action of the shell throwing mechanism, the shell throwing window corresponds to the bullet temporary storage cavity, and a bullet ejecting seat is arranged in the cartridge clip.

Description

Novel shell-throwing laser training model gun

Technical Field

The utility model relates to the field of toy training, in particular to a novel shell-throwing laser training model gun.

Background

At present, a toy model pistol on the market cannot imitate a real pistol, a bullet shell is thrown out from one side of a slide cylinder, the playability is low, and the requirements of playing and training cannot be met. In addition, the existing toy guns are used for shooting bullets for playing, the bullets are shot out from the gun barrel, and certain potential safety hazards are provided.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a novel shell-throwing laser training model gun aiming at the defects of the prior art, and solves the problems that the existing toy model gun cannot throw shells, is low in playability and has potential safety hazards.

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

a novel shell-throwing laser training model gun comprises a model gun body, wherein the model gun body comprises a gun body, a sliding barrel arranged on the gun body, a shell-throwing mechanism arranged in the gun body and matched with the sliding barrel, a gun barrel arranged at the front end in the sliding barrel, a gun barrel fixing seat arranged at the rear end of the gun barrel and a cartridge clip arranged in a handle of the gun body; a laser emitting device is arranged in the gun barrel, when the trigger is pulled, the laser emitting device emits laser, and the laser is emitted through the gun barrel; the bullet temporary storage device is characterized in that a bullet limiting clamping piece is arranged at the rear part of the upper end of the cartridge clip, a bullet temporary storage cavity is formed between the bullet limiting clamping piece and the gun barrel fixing seat, a shell throwing window is arranged on one side of the sliding barrel, when the sliding barrel moves to the rearmost end under the action of the shell throwing mechanism, the shell throwing window corresponds to the bullet temporary storage cavity, and a bullet ejecting seat is arranged in the cartridge clip.

A bullet top seat clamping groove is arranged on one side of the bullet top seat, a sliding barrel reset piece matched with the bullet top seat clamping groove is arranged on one side of the gun body corresponding to the bullet top seat clamping groove, and a bullet top seat ejection spring is arranged at the bottom of the bullet top seat.

An upper bullet push rod is arranged on the upper surface of the rear end inside the sliding barrel, an upper bullet push rod through groove is arranged in the middle of the upper end of the bullet limiting clamping piece, when the sliding barrel moves to the rearmost end, the bullet is pushed to the uppermost end by the bullet top seat, when the sliding barrel is reset, the bullet pushing rod passes through the groove by the bullet pushing rod to push the bullet to the bullet temporary storage cavity, when no bullet is in the cartridge clip, the bullet top seat moves to the uppermost end of the cartridge clip under the action of the bullet top seat ejection spring and exceeds the cartridge clip, so that the upper bullet push rod cannot pass through the upper bullet push rod through the groove, thereby the sliding cylinder can not reset to form an empty bin automatic on-hook state, at the moment, the sliding cylinder resetting piece is matched with the bullet top seat clamping groove, when the sliding cylinder resetting piece is pressed downwards, under the action of the bullet footstock clamping groove, the bullet footstock moves downwards, so that the upper end of the bullet footstock is lower than the upper end of the cartridge clip, and the sliding cylinder resets and returns to the chamber.

The ejection mechanism comprises a sliding barrel return spring sleeved on the gun barrel, a sliding barrel pull rod fixed at the lower part of the front end of the sliding barrel, and a sliding barrel pull rod driving device matched with the sliding barrel pull rod.

The sliding barrel pull rod driving device comprises a sliding groove, a sliding seat which is matched with the sliding groove and slides forwards and backwards in the sliding groove is arranged in the sliding groove, a sliding seat reset spring is arranged at the front end of the sliding seat, and the front end of the sliding seat reset spring is fixed on the sliding groove.

The front part of the sliding seat is provided with a movable clamping tongue matched with the sliding cylinder pull rod, and the bottom of the rear end of the sliding cylinder pull rod is provided with a sliding cylinder pull rod clamping groove matched with the movable clamping tongue; and a trigger clutch piece is arranged at the rear part of the sliding seat and matched with the upper end of the trigger, the trigger is disengaged from the trigger after being pressed down, the trigger is re-matched with the trigger after being reset, and the upper end of the trigger is positioned at the rear end of the sliding seat.

The gun body is also provided with a cartridge clip release part, and a cartridge clip release part clamping groove is arranged on the cartridge clip corresponding to the cartridge clip release part.

The utility model has the beneficial effects that: the shell-throwing laser training model gun can simulate a real gun under the coordination of the sliding barrel, the cartridge clip and the shell-throwing mechanism, realizes shell-throwing action, is matched with the laser emitting device, emits laser when a trigger is pressed down, so that the laser is projected onto a shot object or a target, the live ammunition does not need to be emitted, the shooting of the target can be finished, and the shell-throwing action is realized when the trigger is pressed down; in addition, when no bullet exists in the cartridge clip, the automatic on-hook state of the empty magazine can be realized by simulating a real gun, and the playability is higher.

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 an exploded view of FIG. 1;

FIG. 4 is a schematic view of the bottom structure of the slide cylinder;

FIG. 5 is a schematic view of a cartridge holder;

FIG. 6 is a view of the structure of the combination of the slide slot, the slide seat, the movable latch, the clutch of the trigger and the trigger;

fig. 7 is a schematic view of the bottom structure of the slide cylinder pull rod.

In the figure: 1. gun body 2, slide 3, barrel 4, barrel fixing seat 5 cartridge clip

6. Laser emitting device 7, trigger 8, bullet limit fastener

9. Bullet temporary storage cavity 10, shell-throwing window 11 and bullet top seat

12. Bullet top seat clamping groove 13 sliding cylinder reset piece

14. Bullet top seat ejection spring 15, upward spring push rod 16, upward spring push rod through groove

17. Bullet 18, slide cylinder return spring 19, slide cylinder pull rod 20, chute

21. Slide 22, slide return spring 23, movable latch

24. Slide bar slot 25, trigger clutch 26, clip release

27. Clip release catch 28, clip release return spring

29. Laser emitting device trigger key 30, groove 31 and hammer

32. Sliding cylinder pull rod clamping part

The specific implementation mode is as follows:

example (b): referring to fig. 1 to 7, the embodiment provides a novel shell-throwing laser training model gun, which includes a model gun body, the model gun body includes a gun body 1, a slide barrel 2 disposed on the gun body 1, a shell-throwing mechanism disposed in the gun body 1 and cooperating with the slide barrel 2, a gun barrel 3 disposed at the front end inside the slide barrel 2, a gun barrel fixing seat 4 disposed at the rear end of the gun barrel 3, and a cartridge clip 5 disposed inside a handle of the gun body 1; a laser emitting device 6 is arranged in the gun barrel 2, when a trigger 7 is pulled, the sliding barrel 2 moves backwards, the laser emitting device 6 emits laser, and the laser is emitted through the gun barrel 3; the bullet limiting clamping piece 8 is arranged at the rear part of the upper end of the cartridge clip 5, a bullet temporary storage cavity 9 is formed between the bullet limiting clamping piece 8 and the gun barrel fixing seat 4, a shell throwing window 10 is arranged on one side of the sliding barrel, when the sliding barrel 2 moves to the rearmost end under the action of the shell throwing mechanism, the shell throwing window 10 corresponds to the bullet temporary storage cavity 9, and a bullet top seat 11 is arranged in the cartridge clip 5.

A bullet top seat clamping groove 12 is arranged on one side of the bullet top seat 11, a sliding barrel reset piece 13 matched with the bullet top seat clamping groove 12 is arranged on one side of the gun body 1 corresponding to the bullet top seat clamping groove 12, and a bullet top seat ejection spring 14 is arranged at the bottom of the bullet top seat 11.

An upper bullet push rod 15 is arranged on the upper surface of the rear end inside the sliding barrel 2, an upper bullet push rod through groove 16 is arranged in the middle of the upper end of the bullet limiting clamping piece 8, when the sliding barrel 2 moves to the rearmost end, the bullet 17 is pushed to the topmost end by the bullet top seat 11, when the sliding barrel 2 resets, the upper bullet push rod 15 pushes the bullet 17 to the bullet temporary storage cavity 9 through the upper bullet push rod through the upper bullet through groove 16, when the bullet 17 does not exist in the bullet clip 5, the bullet top seat 11 moves to the topmost end of the bullet clip 5 under the action of the bullet top seat ejection spring 14 and exceeds the edge of the upper end of the bullet clip 5, the upper bullet push rod 15 cannot pass through the upper bullet push rod through groove 16, so that the sliding barrel 2 cannot reset to form an empty-bin automatic hanging state, at the moment, the sliding barrel resetting piece 13 is matched with the bullet top seat clamping groove 12, when the sliding barrel resetting piece 13 is pressed downwards, the top seat 11 moves downwards under the action of the top seat clamping groove 12, so that the upper end of the bullet top seat 11 is lower than the edge of the upper end of the cartridge clip 5, and the sliding barrel 2 is reset to the chamber.

The ejection mechanism comprises a sliding barrel return spring 18 sleeved on the gun barrel 3, a sliding barrel pull rod 19 fixed at the lower part of the front end of the sliding barrel 2, and a sliding barrel pull rod driving device matched with the sliding barrel pull rod 19.

The slide cylinder pull rod driving device comprises a slide groove 20, a slide seat 21 which is matched with the slide groove 20 and slides back and forth in the slide groove 20 is arranged in the slide groove 20, a slide seat return spring 22 is arranged at the front end of the slide seat 21, and the front end of the slide seat return spring 22 is fixed on the slide groove 21.

A movable clamping tongue 23 matched with the sliding cylinder pull rod 19 is arranged at the front part of the sliding seat 21, and a sliding cylinder pull rod clamping groove 24 matched with the movable clamping tongue 23 is arranged at the bottom of the rear end of the sliding cylinder pull rod 19; and a trigger clutch 25 is arranged at the rear part of the sliding seat 21, the trigger clutch 25 is matched with the upper end of the trigger 7, and is disengaged from the trigger 7 after the trigger 7 is pressed down, the trigger 7 is re-matched with the trigger 7 after being reset, and the upper end of the trigger 7 is positioned at the rear end of the sliding seat 21.

The gun body 1 is also provided with a cartridge clip releasing piece 26, and the cartridge clip 5 is provided with a cartridge clip releasing piece clamping groove 27 corresponding to the cartridge clip releasing piece 26. A clip release return spring 28 is provided at the rear end of the clip release 26.

When the clip release 26 is depressed, the clip release 26 disengages from the clip release catch 27 and the clip 5 slides out of the handle under the force of gravity.

A trigger reset torsion spring is arranged at the trigger 7, and a movable latch reset torsion spring is arranged at the movable latch 23.

The gun barrel fixing seat 4 is provided with a laser emitting device trigger key 29, the inner wall of the sliding barrel 2 is provided with a groove 30 corresponding to the laser emitting device trigger key 29, when the sliding barrel 2 is at an original position, the groove 30 is positioned at the upper end of the laser emitting device trigger key 29, at the moment, the laser emitting device 6 does not work, when the sliding barrel 2 moves backwards, the laser emitting device trigger key 29 is separated from the groove 30, so that the laser emitting device trigger key 29 is pressed down, and the laser emitting device 6 works.

A hammer 31 is arranged at the rear end of the gun body 1.

The lower part of the front end of the sliding barrel 2 is provided with a sliding barrel push rod clamping part 33.

The working principle of the shell-throwing laser training model gun of the embodiment is as follows:

the cartridge clip is filled with a cartridge and placed into the handle, the trigger 7 is pressed, the upper end of the trigger 7 moves forwards, so that the slide seat 21 is pushed forwards through the trigger clutch piece 25, when the movable clamping tongue 23 is matched with the slide cylinder pull rod clamping groove 24, the upper end of the trigger 7 is separated from the trigger clutch piece 25, the slide seat 21 moves backwards under the action of the slide seat reset spring 22, the slide cylinder pull rod 19 is driven to move backwards, the slide cylinder 2 is driven to move backwards, and at the moment, the laser emitting device 6 is triggered to work and emit laser. When the sliding barrel 2 moves to the rearmost end, the ejection window 10 corresponds to the bullet temporary storage cavity 9, a bullet 17 located in the bullet temporary storage cavity 9 is ejected by the bullet 17 located in the bullet clamp 5 under the action of the bullet top seat 11 and the bullet top seat ejection spring 14, so that the ejection action is realized, at the moment, the bullet 17 located at the top in the bullet clamp 5 is located at the bullet limit clamping piece 8, the sliding barrel pull rod clamping groove 24 is separated from the movable clamping tongue 23, the sliding barrel 2 resets under the action of the sliding barrel reset spring 18, and the bullet 17 located at the top of the bullet clamp 5 is pushed into the bullet temporary storage cavity 9 by the bullet loading push rod 15 in the resetting process, so that the bullet loading is realized.

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 (7)

1. A novel shell-throwing laser training model gun is characterized by comprising a model gun body, wherein the model gun body comprises a gun body, a sliding barrel arranged on the gun body, a shell-throwing mechanism arranged in the gun body and matched with the sliding barrel, a gun barrel arranged at the front end in the sliding barrel, a gun barrel fixing seat arranged at the rear end of the gun barrel and a cartridge clip arranged in a handle of the gun body; a laser emitting device is arranged in the gun barrel, when the trigger is pulled, the laser emitting device emits laser, and the laser is emitted through the gun barrel; the bullet temporary storage device is characterized in that a bullet limiting clamping piece is arranged at the rear part of the upper end of the cartridge clip, a bullet temporary storage cavity is formed between the bullet limiting clamping piece and the gun barrel fixing seat, a shell throwing window is arranged on one side of the sliding barrel, when the sliding barrel moves to the rearmost end under the action of the shell throwing mechanism, the shell throwing window corresponds to the bullet temporary storage cavity, and a bullet ejecting seat is arranged in the cartridge clip.

2. The novel projectile laser training model gun as claimed in claim 1, wherein a bullet top seat slot is provided on one side of the bullet top seat, a slide cylinder reset piece is provided on one side of the gun body corresponding to the bullet top seat slot, and a bullet top seat ejection spring is provided at the bottom of the bullet top seat.

3. The novel projectile laser training model gun as claimed in claim 2, wherein a loading push rod is provided on the upper surface of the rear end of the inside of the slide, a loading push rod passing groove is provided in the middle of the upper end of the bullet limit fastener, when the slide moves to the rearmost end, the bullet is pushed to the uppermost end by the bullet top seat, when the slide is reset, the loading push rod passes through the loading push rod passing groove to push the bullet to the bullet temporary storage cavity, when no bullet exists in the bullet clip, the bullet top seat moves to the uppermost end of the bullet clip under the action of the bullet top seat ejection spring and exceeds the bullet clip, so that the loading push rod cannot pass through the loading push rod passing groove, thereby the slide cannot reset to form an empty magazine automatic hanging state, when the slide reset piece is engaged with the bullet top seat slot, when the slide reset piece is pressed downward, the bullet top seat moves downward under the action of the bullet top seat slot, thereby the upper end of the bullet footstock is lower than the upper end of the bullet clip, and the sliding cylinder resets and returns to the chamber.

4. The novel hull-throwing laser training model gun according to claim 1, wherein the hull-throwing mechanism comprises a slide cylinder return spring sleeved on the gun barrel, a slide cylinder pull rod fixed at the lower part of the front end of the slide cylinder, and a slide cylinder pull rod driving device matched with the slide cylinder pull rod.

5. The laser training model gun as claimed in claim 4, wherein the slide rod driving device comprises a slide groove, a slide seat is arranged in the slide groove, the slide seat is engaged with the slide groove and slides back and forth in the slide groove, a slide seat return spring is arranged at the front end of the slide seat, and the front end of the slide seat return spring is fixed on the slide groove.

6. The novel hull-throwing laser training model gun according to claim 5, wherein a movable latch tongue matched with the slide cylinder pull rod is arranged at the front part of the slide seat, and a slide cylinder pull rod clamping groove matched with the movable latch tongue is arranged at the bottom of the rear end of the slide cylinder pull rod; and a trigger clutch piece is arranged at the rear part of the sliding seat and matched with the upper end of the trigger, the trigger is disengaged from the trigger after being pressed down, the trigger is re-matched with the trigger after being reset, and the upper end of the trigger is positioned at the rear end of the sliding seat.

7. The laser training model gun of claim 1, wherein a clip releasing member is further provided on the gun body, and a clip releasing member locking groove is provided on the clip corresponding to the clip releasing member.

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