The present invention relates to a toy gun and in particular to a shooting device of a toy gun.
The current toy gun which uses an air bottle as a power source to actuate bullets utilizes the air pressure generated by the air steel bottle to fire the bullets. Besides, a piercing pin is disposed correspondingly at the bottle mouth of the air steel bottle disposed in the gun body. When the air steel bottle is pushed into the gun body, the bottle mouth of the air steel bottle is pierced by the piercing pin and then the compressed air in the air steel bottle is released to provide the power to fire the plastic bullets.
However, when the compressed air in the above-mentioned air steel bottle enters the air chamber, the resulting firing power is usually insufficient. As a result, the bullets of larger size are particularly not suitable for a long-rang shooting due to inadequate firing power.
In view of this, the inventor pays special attention to research with the application of related theory and tries to improve and overcome the above disadvantages regarding the prior art, which becomes the improvement target of the inventor.
One objective of the present invention is to provide a shooting device of a toy gun, which is provided with a slide assembly, a latch, and a trigger linkage. The trigger can push against the trigger linkage by an external force to move the next bullet back to the magazine and seal the magazine. Also, the trigger pushes against the latch to release the slide assembly in order to provide sufficient shooting power.
To achieve the above objective, the present invention provides a shooting device of a toy gun, used to shoot bullets, comprising a gun body, a triggering structure, and a trigger. The gun body has an air cylinder, a chamber base connecting to the air cylinder, a barrel connecting to the chamber base, and a magazine receiving the bullets. The air cylinder has a receiving chamber to accommodate an air bottle. The chamber base has an air chamber communicating with the receiving chamber. The barrel has a bullet passage communicating with the air chamber and allowing the bullets to advance. The magazine communicates with the bullet passage and is disposed at a side of the barrel. The triggering structure is disposed the gun body and has a slide assembly driven by the air, a latch, and a trigger linkage. The slide assembly which is disposed movably between the air chamber and the bullet passage can push the bullets into the bullet passage. The latch which is disposed at a side of the slide assembly can latch the slide assembly. The trigger linkage which is disposed at a side of the magazine can load the bullets sequentially into the barrel. The trigger is pivoted on the gun body and is disposed between the latch and the trigger linkage. The trigger pushes against the trigger linkage by an external force to move the next bullet back to the magazine and seal the magazine. The trigger pushes against the latch to release the slide assembly.
Another objective of the present invention is to provide a shooting device of a toy gun, which changes the volume of the pressurized air in the air chamber by means of disposing a separating block in the air chamber to adjust the shooting power for the bullets.
Compared with the prior art, the shooting device of the toy gun of the present invention has a triggering structure disposed in the gun body in which the slide assembly is disposed movably between the air chamber and the bullet passage to push the bullets into the bullet passage, the latch disposed at a side of the slide assembly can latch the slide assembly, and the trigger linkage disposed at a side of the magazine can load the bullets sequentially into the barre. Thus, the trigger pushes against the trigger linkage by an external force to move the next bullet back to the magazine and seal the magazine; the trigger pushes against the latch to release the slide assembly. In this way, sufficient shooting power is obtained to enhance convenience and practicability of the present invention.
The detailed description and technical details of the present invention will be explained below with reference to accompanying drawings. However, the accompanying figures are only for reference and explanation, but not to limit the scope of the present invention.
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The gun body 10 has an air cylinder 11, a chamber base 12 connecting to the air cylinder 11, a barrel 13 connecting to the chamber base 12, and a magazine 14 receiving the bullets 2. The air cylinder 11 has a receiving chamber 110 to accommodate an air bottle 3. The chamber base 12 has an air chamber 120 communicating with the receiving chamber 110. The barrel 13 has a bullet passage 130 communicating with the air chamber 120 and allowing the bullets 2 to advance. Besides, the magazine 14 communicates with the bullet passage 130 and is disposed at a side of the barrel 13.
Preferably, the gun body 10 further comprises an indicator 15. One end of the indicator 15 penetrates into the air chamber 120 and the other end of the indicator 15 is exposed out of the chamber base 12. Thus, when the air chamber 120 is full of the pressurized air, the indicator 15 is pushed by the air to protrude away from the chamber base 12 to indicate that the pressurized air exists in the air chamber 120.
The triggering structure 20 is disposed in the gun body 10. The triggering structure 20 has a slide assembly 21 driven by the air, a latch 22, and a trigger linkage 23. The slide assembly 21 is disposed movably between the air chamber 120 and the bullet passage 130 and can push the bullets 2 into the bullet passage 130. Also, the latch 22 is disposed at a side of the slide assembly 21 and can latch the slide assembly 21. The trigger linkage 23 is disposed at a side of the magazine 14 and can load the bullets 2 sequentially into the barrel 13.
In addition, the trigger 30 is pivoted on the gun body 10 and disposed between the latch 22 and the trigger linkage 23. The trigger 30 can push against the trigger linkage 23 by an external force to move the next bullet 2 back to the magazine 14 and seal the magazine 14. The trigger 30 pushes against the latch 22 to release the slide assembly 21.
In detail, the shooting device 1 further comprises an air bottle piercing structure 40 combined with the air cylinder 11. The air bottle piercing structure 40 has a plug cover 41, a piercing pin 42 disposed through the plug cover 41, and a press assembly 43 flexibly assembled to the plug cover 41. The press assembly 43 can move the piercing pin 42 by another external force to pierce the air bottle 3.
In particular, the slide assembly 21 comprises a push cylinder 211 sleeved around the air chamber 120, a loading rod 212 combined with the push cylinder 211, and a spring 213 surrounding the push cylinder 211. One end of the loading rod 212 is disposed into the air chamber 120 when the spring 213 is not compressed. In the current embodiment, one end of the push cylinder 211 forms a screw hole 2110. Besides, one end of the loading rod 212 is a thread section 2121 having a plurality of threads. The loading rod 212 is screwed in the screw hole 2110 through the thread section 2121 and combined in the push cylinder 211.
Moreover, the outer surface of the push cylinder 211 forms an annular wall 2111. A blocking piece 121 is disposed at the chamber base 12 corresponding to the spring 213. One end of the spring 213 presses against the annular wall 2111 and the other end of the spring 213 presses against the blocking piece 121. The loading rod 212 is pushed by the air to move the push cylinder 211 towards the barrel 13 to compress the spring 213. Preferably, the blocking piece 121 is provided with a stop groove 1210 corresponding to the spring 213. The spring 213 is received in the stop groove 1210 when compressed.
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The embodiments disclosed above are only preferred embodiments of the present invention, but not to limit the scope of the present invention. The scope of the present invention should be embraced by the accompanying claims and includes all the equivalent modifications and not be limited to the previous description.
Number | Name | Date | Kind |
---|---|---|---|
20030047175 | Farrell | Mar 2003 | A1 |
20110120437 | Tippmann, Jr. | May 2011 | A1 |
20150241164 | Hsu | Aug 2015 | A1 |
20150300771 | Tseng | Oct 2015 | A1 |
20190113305 | Johnson | Apr 2019 | A1 |