KR100400187B1 - Bullet Trap of Grenade Discharging by Rifle - Google Patents

Abstract

The present invention relates to a grenade which is mounted on the barrel end of the rifle and fired with a real bullet. The tank includes a shell made of a metal shell filled with a fuse and a molding charge, and a trap housing for accommodating the bullet fixing unit while being coupled to the body. In the rifle grenade which is composed of a fixed insertion tube fitted to the muzzle and a wing bundle mounted to the outer surface of the end of the fixed insertion tube, and fired using a bullet fired from the rifle, the trap housing is fixed inwardly at one end thereof. The partition wall is integrally formed with a predetermined thickness at intervals, and the third screw part is formed inside the end portion of the partition wall, with a cylindrical fastening tube fixed to the first screw part on one side and an open inner space part on the other side. An inner space part formed of a cylindrical metal body having a predetermined size to form a second screw part inside the third screw part. The plug is coupled to the second screw portion of the trap housing body by accommodating the auxiliary bullet fixing part from the bottom, the gap ring for preventing the shape deformation from above, and the bullet fixing part, respectively, to seal the bullet fixing part accommodated in the inner space part. Assembled integrally, it is coupled between the bullet body and the fixed insertion pipe is a bullet fixing port of the bullet-gun fired grenades characterized in that the speed is fixed by slowing down the penetration of the bullet.

Description

Bullet Trap of Grenade Discharging by Rifle

The present invention relates to a grenade which is mounted on the barrel end of a rifle, which is a personal basic equipment, to be fired as a real bullet in order to neutralize a short-range regional target. In particular, it is assembled in a simple lightweight structure of a small size to reduce manufacturing costs and secure a bullet. The present invention relates to a bullet fixing hole of a bullet-gun-launched grenade which is formed of an integrated buffer structure to provide safety of bullet fixing, as well as to reduce weight and increase its range.

"Grenade" means a small gun that is fired by direct or indirect fire, mounted on the muzzle of a rifle, a personal weapon, for the purpose of killing a horse or destroying equipment, etc., for a local target in close range. It is a type of small-scale bomb that is filled with explosives or chemical moldings inside its body, and is a fire support weapon that is operated to complement the combat force of a small unit within the range between the maximum throwing distance of the grenade and the minimum range of the mortar, the common weapon. .

Such a grenade has a fixed structure inserted into the muzzle in the bullet structure, a wing bundle to fly toward a certain target by a propellant explosion of a separate shot barrel, and an impact from an impact point. It consists of a fuse, a molding charge exploded by the ignition of the fuse, and a metal warhead broken down into hundreds of fragments by the explosion of the molding agent.

Grenades having the above-described structure are mounted on the muzzle of the rifle, which is a personal equipment, and are fired, unlike the grenades that are thrown by hand and exploded within a limited range of distance, the range of the grenades is increased by more than the throwing distance of the grenades. It is a weapon that disarms a target within a certain radius by exploding and spreading the metal shell into hundreds of small fragments due to the explosion of a molding charge filled therein by extending the effective range.

These grenades are mainly used for killing kills, destroying armored vehicles, destroying bunkers and earthquakes, in-building attacks, targets in dense forests, targets for blind spots, complementary firearms, supporting fires, and assault fires. And for shielding, for night lighting and the like.

However, in the conventional conventional grenade, as shown in Figs. 1A and 1B, a separate launcher F or an adapter is attached to the muzzle of the barrel tip of the rifle R whose firing form is a personalization machine, and the rifles are about the same. Instead of firing a shot into the cabin, the rifle is loaded, the trigger is pulled by the rifle and the ball strikes the primer, and the detonator explodes the propellant to fly the Grenade (G) mounted on the muzzle at a certain distance. Let it be Later, at the point of impact, the Grenade (G) is ignited with a fuse mounted therein, which explodes the molding charge, fragments the bullet and scatters the target within a certain radius.

Therefore, when the conventional conventional grenade (G) is to shoot a grenade between rifle shots, the launcher must be mounted on the muzzle of the rifle, the cartridge is removed from the chamber, and then replaced by a separate firing container. Can not be immediately fired because of the inconvenience of replacing it with real shots and unnecessary time due to the replacement, and it is impossible to secure combat quickness. Also, if a rifle is accidentally fired with bullets, the grenade explodes in front of the muzzle. There was a risk of damage to allies.

Although not shown in order to compensate for this problem, a separate firing device is provided under the barrel of the rifle, and the equipment that combines the function of the rifle and the grenade launcher has been developed and operated. As a result, the manufacturing cost is additionally increased, and the weight thereof is large, so that there is a limitation in carrying and handling, and in particular, the fire support is limited because it is provided to only a limited number of specific personnel.

On the other hand, the weight of the rifle, the basic equipment that is carried by the rifle is heavy, the reaction force is large, according to the excessive increase in the impact of the reaction amount to solve the problem of the conventional rifle, which was inconvenient to carry and handle, to improve the combat power Lightweight rifle is being developed or developed.

In this case, it is desirable to improve and reduce the structure of the rifle so that the grenade can be fired by the rifle, which is a basic equipment carried by the members of the rifle, but it is not economical to change the structure of the rifle because it requires a huge cost. Even if the device is improved by adding an additional device, the conventional problems will remain.

On the contrary, instead of improving the structure of the rifle, instead of improving the structure of the grenade being fired, regardless of the specific personnel, the grenade of the present invention is equipped with the grenade of the present invention and fired with a real bullet so that no separate launch device is required. Therefore, it can be said to be an efficient improvement plan.

Accordingly, the present inventors are not limited to the number of rifles carrying personal guns as well as the number of rifles carrying a machine gun, without having a separate launch device to solve the above problems that are operated by a limited number of people in close combat. All members of the small squadron have developed a bullet-locking grenade for bullet-grenade grenade that makes it easy to fire a grenade with a rifle, which is a basic equipment carried by anyone.

As a related art related art, a technique is known in which a bullet (10) of the grenades of US Patent No. 3,664, 263 is inserted in the barrel end of the rifle (R) and the bullet (B) fired from the rifle is fired. have.

As shown in Fig. 2, the technique includes a fuse 11 operating by an impact lamp on the front side, a metal warhead 12 filled with a molding agent made of a high explosive agent or a chemical agent exploded by ignition of the fuse and The circular elastic plate 16 and the metal plate 17 are alternately stacked in a plurality of layers to prevent the bullet from penetrating further to the front of the body while inserting a hard metal disc 18 in order to prevent the bullet from penetrating into the front of the body. The bullet body 10 of the grenade consisting of a fixed insertion pipe 13 accommodating the liner 14 and a fixed wing bundle 15 mounted outside the end of the fixed insertion pipe 13. It is a technique of firing the grenade by inserting into the barrel end of the rifle (R) by gradually decelerating the shot bullet (B) in the interior of the liner (14).

According to the prior art configured as described above, the process of firing the grenades and the action thereof will be described.

As shown in Figs. 3A to 3B, first, the barrel 10 of the barrel of the rifle R is inserted into the barrel 10 of the rifle grenade, and although not shown in the drawing, when the trigger of the rifle is pulled, the ball strikes the detonator of the bullet and ignites it. The ignited detonator explodes the charge, and the bullet B is separated from the casing by the gas pressure generated during the explosion, and the bullet is rotated along the inner steel wire of the barrel and is pushed forward to pop out of the barrel.

The bullet B protruding from the barrel is penetrated into the liner 14 while penetrating the surface of the cylindrical liner 14 in close contact with the end of the barrel.

The bullet holes B penetrated into the liner 14 are advanced through the elastic plate 16 and advanced through the metal plate 17 next to the elastic plate, which is continuous in the liner 14. By sequentially advancing through the plurality of elastic plates 16 and metal plates 17 alternately stacked and installed, the bullet B gradually decreases in speed and is fixed, and at the same time, penetrates the penetrating force 10. By being delivered to the body of the carcass 10 is flying toward the target by the transmitted kinetic energy.

The liner 14 of the grenade according to the prior art acting as described above has the buffer plates 16 and the metal plates 17 alternately mounted therein, and sealed assembly with the disc 18 to fix the insertion tube 13. Since it is inserted into and fixed inside, its structure is complicated, and assembly and fixing are difficult, and accordingly, there is a problem in that parts and manufacturing costs are more required.

In addition, since the plurality of metal plates 16 and the buffer plates 15 are installed in the liner 14, not only the fixing length of the bullet is longer, but also the length of the fixed insertion tube 13 is longer, so that the bullet body 10 of the grenade grenade is extended. As the weight increases, handling is inconvenient, and the range of the grenades is also reduced when the grenades fly to the point of impact.

In addition, in the case in which the bullet B is fixed through the metal plates 16 and the buffer plates 15 sequentially, the force pushed forward of the bullet may be partially dispersed by the force that destroys the metal plates 16. The speed of the bullet and its kinetic energy are reduced so that there is a problem that cannot be concentrated by the force transmitted to the body of the bullet body 10.

On the other hand, when the bullet (B) penetrates the metal liner 14 and the metal plate 17, metal debris flows into the barrel inner steel wire of the rifle (R), which causes problems during the next shot firing. This has a problem of inconvenience.

Accordingly, the present invention was devised to solve the above-mentioned problems of the prior art, and an object of the present invention is to enable the grenade firing by the bullet firing of the rifle which is a personal basic equipment of the subunit member without having a separate launcher. It also provides bullet locks for bullet-launched grenades that greatly enhance the combat power of small troops.

Another object of the present invention is that the structure of the trap housing and the bullet fixing portion in which the bullet is fixed can be manufactured in a small size, as well as easy to assemble in a simple structure, made of a lightweight structure, the weight is also reduced and used and The present invention provides a bullet fixing port for live bullet grenade that is easy to handle and thus reduces manufacturing costs.

Another object of the present invention is that the structure of the bullet fixing trap (trap) is sealed in the trap housing by the integrated buffer structure of the buffer plate, the fibrous layer and the metal plate, so that no fragments are generated, thereby providing safety of bullet fixing. The tangential energy of the bullet is directly transmitted to the trap housing made of a light weight structure, thereby providing a bullet fixing hole for the bullet-gun-grenade grenade which increases its range.

Figure 1a is a view showing a state using a conventional conventional grenade mounted to a personalizer

Figure 1b is a state in which a grenade is mounted to the conventional personalization machine coupled to the launch device

Figure 2 is a partial cross-sectional view showing a grenade mounted to a personalizer according to the prior art

Figure 3a is an enlarged cross-sectional view showing a state before the bullet is fixed in the conventional grenade trap housing.

Figure 3b is an enlarged cross-sectional view showing a state in which the bullet is fixed in the conventional grenade trap housing.

Figure 4a is a perspective view of the grenades according to the present invention

4b is a partial cross-sectional view of the grenades in accordance with the present invention;

Fig. 5A is an exploded perspective view showing one embodiment of the grenade trap housing of the present invention.

FIG. 5B is an enlarged cross-sectional view of the trap housing of FIG. 5A

Figure 6a is an exploded perspective view showing another embodiment of the grenade trap housing of the present invention

6B is an enlarged cross-sectional view of the trap housing of FIG. 6A.

Figure 7a is an enlarged cross-sectional view showing the main portion showing the state before the bullet is fixed to the grenades trap housing of the present invention;

Figure 7b is an enlarged cross-sectional view showing the main portion showing the state in which the bullet is fixed to the grenades trap housing of the present invention.

<Description of Symbols for Main Parts of Drawings>

10: body 11: fuse 12: warhead

13: Fixed insertion pipe 14: Liner 15: Bundle of fixed wings

16: Elastic plate 17: Metal plate 18: Disc

100: body 200: trap housing 210: body

211: bulkhead 212: first screw portion 213: support jaw

214: second screw portion 215: stepped portion 216: third screw portion

220: fastening tube 230: internal space 240: bullet fixing part

241: buffer plate 242: fiber layer 243: metal plate

250: interval ring 251: hole 260: auxiliary bullet fixing part

261: metal plate 262: fiber layer 263: buffer plate

270: plug 271: hole 300: fixed insertion pipe

400: Wings Bundle R: Rifle B: Bullet

G: Grenade F: Launcher

Hereinafter, the technical configuration of the present invention will be described with reference to Figs. 4A to 6B.

A carcass 100 made of a metal shell filled with a fuse and a molding filler therein, a trap housing 200 coupled to the carcass and accommodating the carcass fixing portion are provided, and a fixed insertion tube 300 fitted to the muzzle, and a fixed insert. In the hand grenade which is composed of a wing (400) mounted on the outer surface of the end of the tube, and fired using a bullet fired from the rifle,

The trap housing 200 has a predetermined thickness from one side end to the inside of the partition wall 211 is formed integrally with a predetermined thickness, one side of the cylindrical through the first screw portion 212 with the partition wall 211 therebetween. The fastening pipe 220 is fixed, and the other side forms an internal space portion 230 that is open, and a third screw portion 216 is formed inside the end thereof, and the second screw portion 214 is formed inside the third screw portion. It is made of a cylindrical metal body 210 of a predetermined size to form,

From the bottom of the inner space 230 to accommodate the auxiliary bullet fixing portion 260, the gap ring 250 and the bullet fixing portion 240 to prevent the shape deformation to the upper side, respectively,

The plug 270 is coupled to the second screw part 214 of the trap housing body 210 to seal the bullet fixing part accommodated in the inner space, and then integrally assembled, between the body 100 and the fixed insertion pipe 300. When coupled to the penetration of the bullet is characterized in that the speed is fixed to reduce.

The main structure of this invention is demonstrated concretely.

As shown in FIGS. 5A to 6B, the body 210 of the trap housing is integrally formed with a predetermined thickness at a predetermined distance from one end of the trap housing to an inner side, and the partition 211 is interposed therebetween. On one side, a circular groove is formed and a first screw portion 212 is formed on an inner surface thereof, so that the fastening tube 220 to which the carbon body 100 is coupled is fixed, and the other side of the inner space portion has a predetermined height from the upper surface of the partition wall. While forming the 230, a third screw portion 216 is formed on the inner side of the end thereof, and the fixed insertion tube 300 is coupled thereto, and a second screw portion 215 and the plug 270 are coupled to the inside of the end portion 215. 214 is formed of a cylindrical metal body 210 having a predetermined size, and is a structure for accommodating the bullet-fixing portions for cushioning by slowing down and fixing the speed of the bullet penetrating therein.

The body 210 of the trap housing 200 as described above is a member connected between the carbon body 100 and the fixed insertion tube 300 as a separate small component, one side of which is formed on the first screw portion 212 formed in the fastening tube. The fastening pipe 220 is fixed, and the rear end of the body 100 is screwed, and the other side of the third screw part 216 formed at the end of the fixed insertion tube 300 is screwed and assembled, and the third screw part 216. It is formed in the structure which forms the step part 215 which the barrel end of the rifle R directly contacts inward.

Therefore, due to the structure in which the bullets B are protruded from the barrel as soon as they protrude, the fixed length of the bullets can be shortened due to the structure that is firmly buffered and decelerated in the tank fixing portion accommodated in the body 210 of the trap housing, which will be described later. The body of the housing can be manufactured in a small size.

The fastening tube 220 is a member that is firmly assembled to one side of the body 210 of the trap housing as a cylindrical screw tube, the external thread is formed on the outer peripheral surface is coupled to the first screw portion 212 of the body, the inner peripheral surface A female thread part is formed to couple a male thread part (not shown) formed at the end of the body 100.

The inner space portion 230 is a structure for accommodating the bullet fixing part 240, the gap ring 250, and the secondary bullet fixing part 260 to deliver the kinetic energy of the bullet to the body while decelerating the bullet.

The inner space portion 230 forms a support jaw 213 inside the central portion of the cylindrical metal body 210 to divide the space portion by being supported by the spacing ring 250, to accommodate the bullet fixing portion 240 The space portion is formed to have a larger diameter than the space portion for accommodating the secondary bullet fixing portion 260.

The bullet fixing part 240 is formed by sequentially stacking the buffer plate 241, the high strength fiber layer 242, and the metal plate 243, and the initial stage in which the bullet holes B penetrate into the trap housing 200. It is a structural part that decelerates and speeds up the speed of the bullet first.

The buffer plate 241 is a circular plate made of a rubber material that is deformable and recoverable. The buffer plate 241 is a portion through which the bullet penetrates first, and seals the through hole of the bullet by restoring force after penetrating the fragments. To prevent them from entering the barrel.

The fiber layer 242 is formed by integrally stacking a plurality of layers of aramid-based Kevlar fiber reinforced plastic, a high-strength composite fiber material, which is a kind of bulletproof material, with a predetermined thickness, thereby preventing fragments during penetration. It is a member that has a penetration resistance against what is to be penetrated, and also generates a entanglement by the rotational force of the bullet to reduce and cushion the speed of the bullet, and to securely fix the bullet inside the trap housing.

The Kevlar fiber laminated on the fiber layer 242 uses aramid fibers, which are made of high-strength composite fibers, which are lighter in weight than metallic materials, and thus are light in weight, thereby reducing the total weight of the grenades, thereby increasing flight distance. There is this.

The metal plate 243 is made of metal and is made of a circular plate made of aluminum having a predetermined thickness. The metal plate 243 transmits its kinetic energy to the body 210 of the trap housing when the bullet penetrates through the fiber layer 242. It is a member that further slows down the speed of the bullet.

The gap ring 250 is installed to prevent the body 210 from being damaged due to the shape displacement of the bullet fixing part 240 while preventing the transfer of the shape displacement of the fiber layer and the metal plate generated while the bullet is introduced into the body. It is a member that transmits the kinetic energy of injecting bullet into the body of the trap housing.

As another embodiment of the spacing ring 250, a hole 251 of a diameter larger than the diameter of the bullet (B) is formed at the center thereof, such that the support jaw 213 is located at the inner central portion of the body 210 of the trap housing. It is supported on the formed upper surface. The reason for forming the holes is to prevent breakage of the body portion in which the supporting jaw is formed while distributing kinetic energy concentrated in the support jaw of the body through the holes.

The secondary bullet fixing part 260 is formed by sequentially stacking the metal plate 261, the high strength fiber layer 262, and the buffer plate 263, and the speed of the bullet bullet passing through the bullet fixing part 240. It is a structure that not only significantly slows down and buffers more safely, but also finally fixes the bullet.

The metal plate 261 functions the same as the metal plate 243 of the bullet fixing part 240, while the fiber layer 262 is stacked in 8 layers of Kevlar fiber to reliably slow down the bullet passing through the spacer ring 250. do.

The buffer plate 263 is a member for protecting the body 100 together with the partition wall 211 of the body while blocking the impact of the bullet so as not to be transmitted to the body.

In the above, the fiber layer 242 of the bullet fixing part 240 is 10-ply Kevlar fiber, and the fiber layer 262 of the auxiliary bullet fixing part 260 is integrally laminated in a multi-ply laminated state of 8-ply Kevlar fiber. The thickness of the fiber layer 242 of the bullet fixing part is formed to be thicker than the thickness of the fiber layer 262 of the auxiliary bullet fixing part 260. This is to surely decelerate and buffer the kinetic energy of the bullet at initial penetration.

The plug 270 is perforated with a hole 271 through which the bullet holes B can pass through without resistance, and is coupled to the second screw portion 214 of the trap housing body 210 in an inner space thereof. It is a member for sealing the received bullet fixing portion, the spacer ring, the secondary bullet fixing portion with an integral buffer structure.

On the other hand, the stepped portion 215 is formed between the third screw portion 216 to which the fixed insertion pipe 300 of the trap housing 200 is coupled and the second screw portion 214 to which the plug 270 is coupled. When the rifle grenade is loaded into the rifle, the barrel end of the rifle R contacts the stepped portion 215 via the fixed insertion pipe 300, thereby setting the loading position of the grenade.

Referring to Figure 7a or 7b the operation of the present invention configured as described above is as follows.

First, when the trigger of the rifle is pulled, the ball strikes the detonator of the bullet and the primer is ignited and the bullet (B) is propelled forward while rotating along the inner line of the barrel with the pressure of the explosion gas generated by the explosion of the propellant. At this time, the bullet (B) has a kinetic energy and as soon as it is separated from the barrel of the rifle (R) enters the penetration state entering the bullet fixing unit 240 accommodated in the body of the trap housing 200.

In general, whether penetration is determined by the speed of the bullet, the angle of attack, and the physical properties of the material to be hit by the bullet. This penetration action is to press the pressure from the bullet and push the material in and penetrate the inside. Acts in the order of crushing of the material falling off.

This penetration acts as a resistance to penetration against the kinetic energy of the bullet that is going to penetrate, to resist the impact of trying to absorb explosive energy without cracking or rupturing of the material being hit, and to crack or destroy the material. This is done through the process of resistance to crushing.

By the penetration action as described above, the bullet passing through the hole 271 of the plug 270 when the bullet (B) enters the bullet fixing part 240 accommodated in the trap housing 200 is penetrated through the buffer plate 241 Intrusive. At this time, since the buffer plate 241 is a material that is smoothly deformed and returned, a hole corresponding to the size of the bullet box B is formed in the buffer plate 241 at the time when the bullet hole B penetrates the buffer plate 241. After B) has been completely penetrated, return to its original shape and seal the hole.

Subsequently, the bullet B penetrating into the buffer plate 241 and penetrates into the buffer layer 241 impinges on the fiber layers 242 in which Kevlar fibers are stacked in multiple layers. The bullet B is primarily impacted by the kinetic energy of the bullet. It absorbs and slows down the speed of the bullet and transfers the kinetic energy into the body of the trap housing.

At this time, the bullet is hitting the fiber layer 242 composed of multiple layers of Kevlar fiber, a high-strength fiber composite material. When the bullet touches the filament of the Kevlar fiber, the front face is stretched under the tensile stress and concave, and the rear face is convex. It penetrates into the interior while deforming the shape.

The penetrating bullets are entangled by the resistance to the rotational force of the bullets in a multi-layered high strength fiber layer, thereby absorbing the kinetic energy with the resistance to the impact of the bullets and reducing the speed.

Thereafter, while passing through the metal plate 243, the kinetic energy of the bullet is transmitted to the body of the trap housing 200, and the kinetic energy transmitted to the body 210 of the trap housing is directly transmitted to the bullet body of the grenade. .

When the fiber layer 242 of the bullet fixing part is compressed by the bullet (B) to cause a shape displacement, the gap ring 250 blocks the shape displacement, so that the shape displacement is not transmitted to the outer body of the trap housing 210. Do not do it. At this time, the spacing ring 250 is supported by the support jaw 213 so as not to cause further deformation.

In addition, the speed of the bullet passing through the gap ring by the secondary bullet fixing part 260 composed of the metal plate 261, the fiber layer 262, the buffer plate 263 accommodated inside the gap ring 250 further advances. By slowing down further, the kinetic energy is significantly reduced, thereby fixing the bullet.

As such, the kinetic energy of the bullet is transferred to the body of the trap housing of the grenade while gradually decelerating the speed of the bullet inserted at high speed, and the kinetic energy of the bullet B is integrated with the trap housing 200. By passing it to the shell of the grenade in a short time, the grenade is released from the barrel of the rifle (R) with the pressure of the exhaust gas following the grenade, and is pushed forward and is flying. Flies forward at the same speed.

On the other hand, the buffer plate 263 of the secondary bullet fixing part absorbs the impact force from the bullet (B), and the body 100 filled with a fuse and a molding filler, as well as the partition wall 211 of a predetermined thickness formed on the body. It will be a protective function.

According to the bullet fixing port of the bullet grenade grenade of the present invention configured and operated as described above, by allowing the grenade to be fired by the grenade firing of the rifle which is the basic equipment of the squadron member without having a separate launch device. Greatly improves the combat strength of small troops,

In particular, it is possible to reduce the size by making the end of the barrel directly in contact with the trap housing, and the structure of the bullet fixing portion in which the bullet is fixed is easy to assemble and the weight is reduced, so that the weight is reduced and used and Not only is it easy to handle, it is also effective in reducing the manufacturing cost.

In addition, by plugging the structure of the bullet fixing portion (trap) consisting of a buffer plate, a fibrous layer and a metal plate with a one-piece buffer structure, not only fragments are generated when the bullet is penetrated, not only provides safety of bullet fixing, The kinetic energy of is transmitted directly to the trap housing, thereby increasing the range.

As described above, the present invention can manufacture the trap housing and the bullet fixing part in a small size and light weight structure, thereby reducing the assembly and component costs, easy to use and handle, and also reduce the weight and range It is a very useful invention having various effects such as being increased.

Claims (7)

A carcass 100 made of a metal shell filled with a fuse and a molding filler therein, a trap housing 200 coupled to the carcass and accommodating the carcass fixing portion are provided, and a fixed insertion tube 300 fitted to the muzzle, and a fixed insert. In the hand grenade which is composed of a wing (400) mounted on the outer surface of the end of the tube, and fired using a bullet fired from the rifle, The trap housing 200 has a predetermined thickness from one side end to the inside of the partition wall 211 is formed integrally with a predetermined thickness, one side of the cylindrical through the first screw portion 212 with the partition wall 211 therebetween. The fastening pipe 220 is fixed, and the other side forms an internal space portion 230 that is open, and a third screw portion 216 is formed inside the end thereof, and the second screw portion 214 is formed inside the third screw portion. It is made of a cylindrical metal body 210 of a predetermined size to form, From the bottom of the inner space 230 to accommodate the auxiliary bullet fixing portion 260, the gap ring 250 and the bullet fixing portion 240 to prevent the shape deformation to the upper side, respectively, The plug 270 is coupled to the second screw part 214 of the trap housing body 210 to seal the bullet fixing part accommodated in the inner space, and then integrally assembled, between the body 100 and the fixed insertion pipe 300. Tan ball fasteners of the bullet-gun fired grenades, characterized in that coupled to reduce the speed of penetration of the bullet. According to claim 1, wherein the support ring 213 is formed on the inner surface of the center portion of the body of the trap housing 200, the spacing ring 250 is mounted, the inner space 230, the bullet fixing unit 240 and the auxiliary bullet Divided into a space for accommodating the fixing portion 260, the bullet fixing port of the bullet-gun firing grenade characterized in that the diameter of the bullet fixing portion 240 is formed with a diameter larger than the diameter of the secondary bullet fixing portion 260. . According to claim 2, The spacing ring 250 has a hole 251 having a diameter larger than the diameter of the bullet in the center of the bullet-gun bullet-gun, characterized in that formed. According to claim 1 or 2, wherein the bullet fixing part 240 is laminated to the buffer plate 241, the high-strength fiber layer 242, and the metal plate 243 in sequence, the secondary bullet fixing part 260 The bullet fixing port of the live bullet grenade, characterized in that the metal plate (261), the high-strength fiber layer 262, and the buffer plate (263) were laminated in this order. 5. The ballistic firing of claim 4, wherein the fiber layer 242 of the bullet fixing part is stacked in 10 layers of Kevlar fibers, and the fiber layer 262 of the auxiliary bullet fixing part is laminated in 8 layers of Kevlar fibers. Bullet socket of the grenades. [6] The bullet fastener of claim 5, wherein the Kevlar fiber, which is a high-strength composite fiber material laminated on the fiber layers 242, 262, is an aramid fiber. The stepped portion 215 is formed between the third screw portion 216 to which the fixed insertion tube 300 of the trap housing 200 is coupled and the second screw portion 214 to which the plug 270 is coupled. Tanza fasteners of the bullet-grenade grenade characterized in that formed.