KR102496105B1 - low recoil shooting apparatus - Google Patents

Abstract

The present invention relates to a low reaction shooting gun and, more specifically, to a low reaction shooting gun, which can reduce recoil. To this end, the low reaction shooting gun according to the present invention comprises a hollow firing pipe, a recoil means, and a gunpowder cartridge. The firing pipe accommodates a projectile and has both ends opened. The recoil means has a firing main shaft, a recoil block, a support block and a reduction unit. The firing main shaft has the outer diameter being smaller than the inner diameter of the firing pipe such that a space may be formed to accommodate fluid at the gap from the inner diameter of the firing pipe, and is inserted into the firing pipe. The recoil block blocks one side of the space, and is mounted at one end of the firing main shaft to be slidably mounted on the inner diameter of the firing pipe in order to form a cartridge chamber at the gap from the projectile. The support block blocks the other side of the space such that the fluid may be accommodated in the space, and is mounted at the other end of the firing main shaft to be inserted into the inner diameter of the firing pipe. The reduction unit is mounted on the space to reduce the movement of the fluid pressurized by the recoil block. The gunpowder cartridge is mounted on one end of the firing main shaft to be exposed to the cartridge chamber to be exploded in the cartridge chamber to fire the projectile. According to the present invention, when the gunpowder cartridge is exploded in the cartridge chamber, the projectile is fired while the recoil block retreats because of reaction. Moreover, the water accommodated in the firing pipe passes through the reduction unit to absorb the reaction of the recoil block, thereby reducing the recoil. Therefore, impact applied to the user may be reduced.

Description

Low recoil shooting apparatus

The present invention relates to a low recoil firing gun, and more particularly, to a low recoil firing gun capable of reducing recoil.

A firing gun is used to dispose of explosives by firing a projectile from a long distance. After the user aims the gun at the target, the projectile is fired to remove the target.

At this time, the conventional firing gun has a problem in that a lot of shock is transmitted to the user due to severe recoil.

Registered Patent No. 10-0520910 (registration date: October 05, 2005) Registered Utility Model No. 20-0234862 (Registered on June 7, 2001) US Patent Publication No. US2020/0215559 (published on July 9, 2020) U.S. Patent No. US7305912 (registered on December 11, 2007) US Patent US6705194 (Registered on March 16, 2004)

The present invention is to solve the above problems. An object of the present invention is to provide a low recoil firing gun capable of reducing the impact applied to a user by reducing recoil.

A low-recoil firing gun according to the present invention includes a hollow firing tube, a recoil means, and a gunpowder cartridge. Both ends of the launch tube are opened to accommodate the projectile. The recoil means includes a firing main shaft, a recoil block, a support block, and a damping unit. The firing main shaft has an outer diameter smaller than the inner diameter of the firing tube and is inserted into the firing tube so that a space for receiving the fluid is formed between the firing main shaft and the inner diameter of the firing tube. The recoil block blocks one side of the space and is mounted on one end of the firing main shaft to form a breech between the projectile and is slidably mounted on the inner diameter of the firing tube. The support block blocks the other side of the space so that the fluid is accommodated in the space, and is mounted on the other end of the firing main shaft and inserted into the inner diameter of the firing tube. The attenuator is mounted in the space to attenuate the movement of the fluid pressurized by the recoil block. The gunpowder cartridge is mounted on one end of the main shaft to be exposed to the chamber so as to explode in the chamber in order to launch the projectile.

In addition, in the low recoil firing gun, it is preferable that the recoil block is fixedly coupled to the firing main shaft.

Also, in the low-recoil firing gun, the recoil block may be slidably mounted along the firing main axis.

Further, in the low recoil firing gun, it is preferable that the attenuator is pressurized by the recoil block to form the passage so that the fluid moving in the space passes through the narrow passage.

In addition, in the low recoil firing gun, it is preferable that the attenuation part can change the area of the passage.

In addition, in the low recoil firing gun, it is preferable that the discharge tube is formed with a discharge passage so that the fluid passing through the attenuator can be discharged to the outside.

In addition, in the low recoil firing gun, it is preferable that an air exhaust port is further formed in the firing tube to discharge air from the chamber.

In addition, the low recoil firing gun further includes a cradle for slidingly supporting the launch tube, and a damper having one end coupled to the launch tube and the other end coupled to the cradle to relieve sliding of the launch tube desirable.

According to the present invention, when the gunpowder cartridge explodes in the chamber, the projectile is fired while the recoil block retreats as a reaction. At this time, since the water contained in the launch tube passes through the attenuator and absorbs the reaction of the recoil block, recoil can be reduced.

1 is an embodiment of a low recoil firing gun according to the present invention;
2 is another embodiment of a low recoil firing gun according to the present invention;
3 is another embodiment of a low recoil firing gun according to the present invention.

Referring to FIG. 1, an embodiment of a low recoil firing gun according to the present invention will be described.

One embodiment of the low recoil firing gun according to the present invention includes a launch tube 10, a recoil means 20, a powder cartridge 30, and a holder 40.

The launch tube 10 accommodates the projectile 1 in the form of a hollow pipe with both ends open. At this time, the launch tube 10 is formed with a discharge passage 11 through which water can be injected or discharged, and an air exhaust port 13 through which air pressurized in the chamber 15 can be discharged. The discharge passage 11 is closed by the water injection stopper 12, and the air exhaust port 13 is closed by the exhaust stopper 14.

The recoil means 20 receives an explosive force that causes a reaction of the projectile 1 when the gunpowder cartridge 30 explodes in the chamber 15. To this end, the recoil means 20 includes a firing main shaft 21, a recoil block 23, a support block 25, and a damping unit 27.

The firing main shaft 21 has an outer diameter smaller than the inner diameter of the firing tube 10 and is inserted into the firing tube 10 so that a space in which water 18 is accommodated is formed between the firing main shaft 21 and the inner diameter of the firing tube 10. That is, when the firing main shaft 21 is inserted into the firing tube 10, a space is formed between the outer diameter of the firing main shaft 21 and the inner diameter of the firing tube 10, and the water 18 flows through the discharge passage 11 in the space. can be injected.

The recoil block 23 blocks one side of the space in which the water 18 is accommodated, and is mounted on one end of the firing main shaft 21 so that a chamber 15 is formed between the projectile 1 and the inner diameter of the firing tube 10 It is mounted so that it can slide along. In this embodiment, the recoil block 23 is mounted to slide along the inner diameter of the launch tube 10 and the outer diameter of the launch main shaft 21.

The support block 25 is mounted on the other end of the firing main shaft 21 and inserted into the inner diameter of the firing tube 10 so as to block the other side of the space where the water 18 is accommodated. In the case of this embodiment, the support block 25 is fixed to the inner diameter of the launch tube 10 and the outer diameter of the launch main shaft 21.

The attenuator 27 is formed by the inner diameter of the launch tube 10 and the launch main shaft 21 so as to dampen the movement of the water 18 when the water 18 accommodated in the space is pressurized and moved by the movement of the recoil block 23. It is mounted in the space formed between the outer diameter of. To this end, the attenuator 27 forms a narrow passage 28 to pass through the narrow passage 28 when water is moved by being pressed by the recoil block 23 . In the case of this embodiment, the attenuator 27 has a narrow passage 28 for this purpose and includes a damping plate 26 fixedly coupled to the outer diameter of the firing main shaft 21 and the inner diameter of the firing tube 10. In addition, the attenuator 27 includes an adjusting screw 29 inserted into the passage 28 so as to change the area of the passage 28 . That is, when the adjusting screw 29 is rotated, the depth of the adjusting screw 29 inserted into the passage 28 changes, so that the area of the passage 28 can be varied. This is to adjust the attenuation amount of the attenuation unit 27 .

The gunpowder cartridge 30 is mounted on one end of the firing main shaft 21 to be exposed to the chamber 15 so as to be exploded in the chamber 15 in order to launch the projectile 1. At this time, a wire 31 capable of supplying power so that the gunpowder cartridge 30 explodes is installed on the firing main shaft 21. So, when power is supplied from the wire 31, the gunpowder cartridge 30 explodes.

The launch tube 10 is mounted on the holder 40 so that the launch tube 10 can be mounted thereon.

In this embodiment, after opening the exhaust plug 14, the projectile 1 is inserted into the launch tube 10. Then, water 18 is injected through the discharge passage 11. Then, the recoil block 23 slides to one end of the firing main shaft 21. At this time, the air in the chamber 15 is discharged through the air exhaust port 13. A stopper 19 is formed on the inner circumferential surface of the launch tube 10 to limit the sliding of the recoil block 23. In this embodiment, the stopper 19 may be formed on the outer circumferential surface of the main shaft 21. Therefore, the amount of water 18 flowing into the discharge passage 11 and the position of the rebound block 23 can be set. When all of the water 18 is injected, the air exhaust port 13 is closed with the exhaust stopper 14. Then, after aiming the low-recoil firing gun of this embodiment at the target, power is supplied through the wire 31. Then, the gunpowder cartridge 30 explodes and the projectile 1 is launched. At this time, the recoil block 23 also slides, and the water 18 is pressurized by the sliding of the recoil block 23, passes through the attenuator 27, and is discharged through the discharge passage 11. At this time, the water 18 is attenuated while passing through the attenuator 27 to reduce recoil. Here, the amount of attenuation can be adjusted using the adjusting screw 29.

2 is another embodiment of a low recoil firing gun according to the present invention.

In this embodiment, the recoil block 23, the firing main shaft 21, and the support block 25 are integrally coupled. In addition, the firing main shaft 21 may slide on the damping plate 26 of the damping unit 27. So, when the gunpowder cartridge 30 explodes, the firing main shaft 21, the recoil block 23, and the support block 25 slide integrally. In this case, when the support block 25 is out of the launch tube 10, the water 18 accommodated in the launch tube 10 is discharged to the other end of the launch tube 10 opened by the support block 25.

3 is another embodiment of a low recoil firing gun according to the present invention.

In the case of this embodiment, the firing gun further includes a damper 50, and the firing tube 10 is slidably mounted on the cradle 40. Here, the damper 50 has one end coupled to the launch tube 10 and the other end coupled to the cradle 40 to relieve the sliding of the launch tube 10 when the launch tube 10 slides.

When the gunpowder cartridge 30 explodes, when the launch tube 10 slides by reaction, the sliding of the launch tube 10 can be reduced because the damper 50 is coupled to the launch tube 10.

1: projectile 10: launch tube
11: discharge passage 12: water injection stopper
13: air exhaust port 14: exhaust plug
15: chamber 18: water
19: stopper 20: recoil means
21: firing spindle 23: recoil block
25: support block 26: damping plate
27: attenuation unit 28: narrow passage
29: adjusting screw 30: gunpowder cartridge
31: wire 40: cradle
50: damper

Claims (8)

A hollow launch tube with both ends open to accommodate the projectile;
A chamber is formed between the launching main shaft, the outer diameter of which is smaller than the inner diameter of the launching tube and inserted into the launching tube, and one side of the space is blocked so that a space in which the fluid is accommodated is formed between the launching tube's inner diameter and the launching body. A recoil block mounted on one end of the firing main shaft to be slidably mounted on the inner diameter of the firing tube, and a recoil block installed on the other end of the firing main shaft to block the other side of the space so that the fluid is accommodated in the space. A recoil unit having a support block inserted into the inner diameter of the recoil block and a damping unit mounted in the space to damp the movement of the fluid pressurized by the recoil block;
And a gunpowder cartridge mounted on one end of the firing main shaft to be exposed to the chamber so as to explode in the chamber in order to launch the projectile,
The low recoil firing gun, characterized in that the recoil block slides to pressurize the fluid by receiving the explosive force of the cartridge in the chamber. According to claim 1,
The recoil block is a low recoil firing gun, characterized in that fixedly coupled to the firing main shaft. According to claim 1,
The low recoil firing gun, characterized in that the recoil block is mounted to be slidable along the firing main shaft. The method of claim 1, wherein the damping unit
A low recoil firing gun characterized in that the passage is formed so that the fluid that is pressed by the recoil block and moves in the space passes through the narrow passage. The method of claim 4, wherein the damping unit
A low recoil firing gun, characterized in that the area of the passage can be varied. According to any one of claims 1 to 5,
The low recoil firing gun, characterized in that the discharge passage is formed in the launch tube so that the fluid passing through the damper can be discharged to the outside. The method of claim 6, wherein the launch tube
A low recoil firing gun, characterized in that an air exhaust port is further formed to discharge air from the chamber. According to claim 6,
A cradle for slidingly supporting the launch tube;
A low-recoil firing gun, characterized in that it further comprises a damper having one end coupled to the launch tube and the other end coupled to the cradle to relieve sliding of the launch tube.

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