KR101997752B1 - Firearm with short-stroke gas piston system - Google Patents

Abstract

The present invention relates to a firearm including a short-stroke type gas piston system. The firearm including a gas piston system for moving a breechblock backwards with gas pressure in case of the percussion of the firearm includes: a gas block combined with a gun barrel; a piston having a long shape with a protrusion part formed in the middle, and having one end inserted into the gas block; a piston guide container into which the other end of the piston is inserted; and a piston located between the piston and the piston guide container and limited from moving forward because of the protrusion part of the piston. The piston is moved backwards by gas pressure in the percussion of the firearm to strike a breechblock case connected with the breechblock to make the breechblock move backwards, and the piston spring is limited from being moved backwards due to a guide container protrusion part formed inside the piston guide container, so when the piston is moved backwards, the piston spring is compressed to provide elastic force for returning the piston, and a plurality of piston protrusions, which are adjacent to the inner edge of the gas block, are formed at an end of the piston at a predetermined distance from each other along the outer edge. According to the present invention, a firearm can be lighter and a line of sight can be easily aligned during a consecutive firing interval without soot accumulated, and there is no need to replace an aged piston ring.

Description

Firearms with short-stroke gas piston system

The present invention relates to a firearm having a gas stroke system of a short stroke.

The gas piston type is a gas-operated type, which uses the movement of a gas-pressured piston in an automated machine to retract a bunch of bolts while releasing the locks locked in the chamber to discharge the shell casings and the retracted cage assembly to move forward. A shot inserted into the chamber is bitten by a bolt. The gas piston type has a long stroke type and a short stroke type.

Conventional long stroke method is characterized by the use of a long and heavy piston while moving a lot of distance back and forth together with a piston and a bunch of pneumatic, and is mainly used in K2 rifle.

K2 rifle has to set heavy weight of gross piston and gas piston in order to alleviate the impact when shooting, so it is difficult to reduce the weight of the rifle in the future and slow the firing speed. In addition, the piston connected to the bolt moves a lot of distance back and forth, and the reaction point of the reaction is shifted from the concentric, shoulder shoulder point between the firing shot shakes up and down, difficult to align the line of sight.

In the conventional short stroke type firearm, the explosion gas exerts pressure on the piston after the trigger and pushes the piston rod coupled to the rear as the piston is retracted, and the piston rod compresses the spring while closing the grommet at the end of the piston rod. Retreat. The piston rod stops retreating, but the bunch of gutters that have started retreating continues to retreat by inertia and draws out the chamber casings and discharges them.

1A is a diagram showing the configuration of a conventional short stroke type firearm. 1B is a view showing a conventional short stroke piston and the like.

When triggered, the high-pressure explosion gas flows into the gas block 2 along the gas hole 1a of the barrel 1, and pushes the piston 10 to the rear by applying pressure. The piston 10 is in close contact with the inner wall of the gas block 2 through two or more piston rings 11 to prevent leakage of high pressure gas,

The piston 10, which has started to retract, pushes the piston rod 12 coupled to the rear, and the piston rod 12 retreats the claw contacting the end of the piston rod 12 while compressing the spring 13. The spring 13 is supported and compressed between the piston rod 12 and the piston guide 14.

The piston 10 stops the retreat while reaching the expansion section in which the piston ring 11 is not in close contact in the gas block 2, and the explosive gas is released into the space between the piston rings 11 to lose pressure. At the same time, the piston rod 12 stops the retreat, but the bunch of gutters that started the retreat continues to retreat by inertia, and draws out the casings of the chamber and discharges them.

In the conventional short stroke type firearm, the piston ring 11 is attached to the piston 10 to prevent the high-pressure gas from leaking to the outside, but the piston ring 11 is composed of separate parts to increase the number of parts, As the number of shots increases, bullets accumulate on the piston 10 and the gas block joint (part of the piston ring 11) to affect the firing speed and function. In addition, when the number of shots is accumulated, replacement is necessary due to aging of the piston ring 11. In addition, since the piston ring 11 should be in close contact with the inner wall of the gas block 2, precise tolerance adjustment is required, and the manufacturing cost is increased.

In addition, the conventional short stroke type firearms have a gas regulator is difficult to adjust the firing speed when the silencer is mounted, there is a disadvantage that the spring 13 is exposed to the outside is vulnerable to contamination.

Figure 2a to 2c is a view showing a bolt used in a conventional short-stroke firearms, Figure 2a shows a lock, Figure 2b shows a lock, Figure 2c is a combination of the lock and the lock The state is shown.

In a conventional short stroke type firearm, a bolt ring 21 is attached to the bolt 20 in order to prevent the release gas from flowing out. In addition, a groove portion 31 is formed in the cage 10.

When the number of shots is increased, a problem arises in that bullets accumulate in the bolt ring 21 attached to the bolt 20, and when the bolt ring 21 is aging, replacement is required.

In addition, there is a problem in that the structure of the cage (30) is complicated by the groove 31 formed in the cage (30).

Republic of Korea Patent Application No. 10-2017-7036904

Therefore, the present invention has been invented in view of the above circumstances, and realizes a short stroke gas piston system that realizes light weight of the gun, easy alignment of aiming lines between consecutive shots, no accumulation of ammunition, and no need for replacement due to aging of the piston ring. The purpose is to provide a firearm provided.

In addition, an object of the present invention is to provide a firearm equipped with a gas stroke system of a short stroke that can guarantee the durability of the ball gasket by changing the design of the gasket and the gasket of the conventional firearm.

According to the present invention for realizing the object as described above, a firearm having a gas piston system for retracting the bolt by the gas pressure during the fire of the firearm, the gun includes a gas block coupled to the barrel; A piston having a long shape and having a stepped portion formed in the middle thereof, and having one end inserted into the gas block; A piston guide cylinder into which the other end of the piston is inserted; A piston spring located between the piston and the piston guide cylinder and limited in forward movement by the stepped portion of the piston; It includes, and when the gun is fired by the gas pressure, the piston retreats and hits the claw connected to the bolt, the bolt is retracted, the piston spring is rearward by the guide tube step formed in the inner diameter of the piston guide cylinder Movement is limited so that when the piston retracts, the piston spring compresses to provide an elastic force to return the piston.

In addition, one end of the piston is formed with a plurality of piston projections which are in close contact with the inner diameter of the gas block along the outer circumference at predetermined intervals.

In addition, the other end of the piston is formed with a hemispherical protrusion, and the hemisphere hitting the piston is formed with a hemispherical groove having a shape corresponding to the other end of the piston.

In addition, the rear end of the piston guide cylinder has a shape in which the lower portion is cut in order to prevent interference with the barrel nut attached to the barrel when retracted.

In addition, a cylindrical stop positioned between the guide cylinder stepped portion of the piston guide cylinder and the piston spring; Further comprising a contact with said piston spring when said stopping said piston spring is compressed.

In addition, the gasket is not formed with a gush ring for preventing gas leakage, and the gutter part is not formed with the gasket.

According to the present invention, it is possible to provide a firearm equipped with a gas piston system which realizes light weight of the firearm and facilitates alignment of the line of sight between consecutive fires, no accumulation of ammunition and no need for replacement due to aging of the piston ring.

In addition, it is possible to provide a firearm having a gas piston system that can ensure the reliability and durability of the ball gasket by changing the design of the gasket and the gasket of the conventional firearm.

1A is a diagram showing the configuration of a conventional short stroke type firearm.
1B is a view showing a conventional short stroke piston and the like.
Figures 2a to 2c is a view showing a gasket used in the conventional gas-directed firearms, Figure 2a shows a gull, Figure 2b shows a gull, Figure 2c is a state in which the gutter and the gutter is coupled It is shown.
3 is a perspective view illustrating a state in which components for the gas piston system are assembled according to an embodiment of the present invention.
4 is an exploded view illustrating a disassembled state of the components for the gas piston system of FIG. 3.
FIG. 5 is a schematic cross-sectional view with the components for the gas piston system of FIG. 3 assembled; FIG.
6 illustrates a piston in a gas piston system according to an embodiment of the present invention.
7 is a schematic cross-sectional view showing a state before the piston is moved in the gun having the gas piston system of the present invention.
8 is a schematic cross-sectional view showing a state in which a piston is moved by the firing gas in the gun having the gas piston system of the present invention.
9A to 9C are diagrams showing the gaskets and the like used in the gun having the gas piston system of the present invention, FIG. 9A shows the gasket, FIG. 9B the gasket, and the FIG. 9C the gasket and the gasket. The combined state is shown.

Hereinafter, the configuration and operation of the preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Here, in adding reference numerals to the elements of each drawing, it should be noted that the same elements are denoted by the same reference numerals as much as possible even if they are shown in different drawings.

3 is a perspective view illustrating a state in which components for the gas piston system are assembled according to an embodiment of the present invention. 4 is an exploded view illustrating a disassembled state of the components for the gas piston system of FIG. 3. FIG. 5 is a schematic cross-sectional view with the components for the gas piston system of FIG. 3 assembled; FIG. 6 illustrates a piston in a gas piston system according to an embodiment of the present invention. 7 is a schematic cross-sectional view showing a state before the piston is moved in the gun having the gas piston system of the present invention. 8 is a schematic cross-sectional view showing a state in which a piston is moved by the firing gas in the gun having the gas piston system of the present invention.

3 to 7, in the firearm 200 of the present invention, the piston bunch 100 moves a very short distance by the gas pressure when the firearm is triggered, so that the short stroke type retreats by hitting the lock 260. The gas piston system is adopted.

The piston bundle 100 includes a piston 110, a piston guide tube 120, a piston spring 130, a stop 140.

The piston 110 is assembled such that one end is inserted into the gas block 220 coupled to the barrel 210. The gas regulator 225 is coupled to the gas block 220.

The piston 110 has a long cylindrical shape, and one end is formed with a piston protrusion 111 along the outer periphery. The plurality of piston protrusions 111 are formed spaced apart at predetermined intervals. Grooves are formed between the adjacent piston protrusions 111. When the piston 110 is assembled to the gas block 220, the piston protrusion 111 is positioned to be in close contact with the inner diameter of the gas block 220, but between the piston protrusion 111 and the inner diameter of the gas block 220. There are some gaps in.

The piston 110 is spaced apart from the piston protrusion 111 by a predetermined distance to form the stepped part 112. The other end 113 of the piston 110 is formed of a hemispherical protrusion.

The piston guide cylinder 120 is formed in a cylindrical shape as a part for guiding the movement of the piston 110. The piston guide cylinder 120 prevents inflow of dust and foreign matter from the piston 110 and serves to support the piston 110 and the piston spring 130.

The other end of the piston 110 is inserted into the piston guide cylinder 120. The piston guide cylinder 120 has a cutout portion 121 in which a lower portion thereof is cut in order to prevent interference with the barrel nut 222 when the piston guide retracts due to gas pressure. The piston guide cylinder 120 may be formed of a plastic material for weight reduction.

An inner diameter of the piston guide cylinder 120 is formed with a guide cylinder step portion 122 for limiting the rear movement of the piston spring (130).

The piston spring 130 is positioned between the piston 110 and the piston guide cylinder 120 to return the piston 110 to its initial position before shooting when the piston 110 is retracted by the gas pressure generated during the triggering. Provide elastic force. More specifically, the piston spring 130 is located between the stepped portion 112 and the guide tube stepped portion 122 of the piston 110. The stepped portion 112 of the piston 110 serves to limit the forward movement of the piston spring 130.

The stop 140 has a cylindrical shape and is attached to the guide tube stepped portion 122 of the piston guide cylinder 120 and positioned at the rear end of the piston spring 130. When the piston 110 is retracted by the gas pressure, the piston spring 130 is compressed and rotation of the piston spring 130 may occur. When the piston spring 130 is in direct contact with the piston guide cylinder 120 made of plastic, the piston guide cylinder 120 may be easily worn by the rotation of the piston spring 130. Stop 140 is made of metal, the piston spring 130 is not in direct contact with the guide barrel step 122 to prevent the wear of the guide barrel step 122 to replace the guide barrel step 122 The cycle can be extended. Stop 140 is selected in consideration of the tension of the piston spring (130).

Piston bundle 100 of the present invention is formed of a structure in which the piston 110, the piston guide cylinder 120, the piston spring 130, the stop 140 is assembled, the structure is simple and easy to assemble and disassemble, maintenance There is an easy advantage.

Referring to FIG. 7, the gas generated when the gun 200 is triggered flows into the gas block 220 through the barrel opening 211 formed in the barrel 210. The gas block 220 has a gas block opening 221 communicating with the barrel opening 211.

The generated gas introduced into the gas block 220 is blocked by the piston protrusion 111 to generate gas pressure, and the gas pressure pressurizes the piston 110. The piston protrusion 111 may adjust the firing speed of the gun by varying the number, width, and interval of the protrusion while preventing the gas from flowing out by using the vortex phenomenon of the gas generated inside the protrusion.

In addition, the piston 110 of the present invention prevents the outflow of the generated gas by the piston protrusion 111, thereby eliminating the need for the piston ring used in the conventional gun. Thus, there is no need to replace the piston ring as in the prior art, which facilitates the maintenance of the gun.

In a conventional firearm, the piston ring 11 (see FIG. 1) is assembled so as to come into close contact with the inner diameter of the gas block to form gas pressure, so that the shot medium generated during shooting is difficult to assemble and the piston ring 11 or gas block. Accumulate in the battery and cause malfunctions and impair durability.

In the firearm 200 of the present invention, the piston protrusion 111 provides a gas pressure, but is assembled so as to be slightly spaced apart from the inner diameter of the gas block 220 to facilitate the assembly and prevent accumulation of bullets in the gas block 220. . Accordingly, the gun 200 according to the present invention may maintain a constant firing rate by alleviating the accumulation of ammunition generated in the gas block 220.

7 and 8, while the piston 110 retreats due to gas pressure, the other end 113 of the piston 110 hits the bolt 260 and the bolt 260 connected to the bolt 250. Retreat. When the piston 110 retreats, some gas in the gas block 220 may be discharged to the outside through the opening formed in the gas block 220.

The piston guide 245 is fastened to the front of the upper body 240 to guide the straight movement of the piston 110, and prevents the piston 110 and the upper body 240 from contacting the wear of the upper body 240 prevent.

The other end 113 of the piston 110 is formed with a hemispherical protrusion, and a hemispherical groove 261 having a shape corresponding to the other end 113 of the piston 110 is formed in the portion of the bolt 260 hit by the piston 110. ) Is formed.

Accordingly, surface contact is made possible when the piston 110 hits the cage 260, so that the force of the piston 110 can be well transmitted to the cage 260 and the piston 110 by the hit And it can prevent the damage of the gutter 260.

In addition, the short stroke method, the movement distance of the piston 110 is short, so there is little recoil to realize a lighter weight of the gun and facilitate the alignment of the aiming line between the firing shots.

9A to 9C are diagrams showing the gaskets and the like used in the gun having the gas piston system of the present invention, FIG. 9A shows the gasket, FIG. 9B the gasket, and the FIG. 9C the gasket and the gasket The combined state is shown.

Compared with the conventional firearms of FIGS. 2A to 2C, in the firearm according to the present invention, the null ring 21, which is attached to the conventional knocker 20, is omitted. In addition, the groove part 31 formed in the conventional locksmith 30 is abbreviate | omitted to the locksmith 260. FIG.

As a result, the structure of the bolt 250 and the bolt 260 is simple and much easier to maintain.

In addition, the firing gas is not transmitted directly to the bolt when shooting, thereby ensuring durability without causing malfunction due to accumulation of ammunition.

It will be apparent to those skilled in the art that the present invention is not limited to the above embodiments and can be practiced in various ways without departing from the technical spirit of the present invention. will be.

100: bundle of pistons
110: piston
111: piston projection
112: stepped portion
113: the other end
120: piston guide cylinder
121: incision
122: guide tube step
130: piston spring
140: stop
210: barrel
211: barrel opening
220: gas block
221 gas opening
222: Barrel Nut
225: Gas Regulator
240: upper body
245: Piston Guide
250: bolt
260: Norse House
261: hemispherical groove

Claims (6)

In a firearm equipped with a gas piston system for retracting the bolt by the gas pressure during the fire of the firearm,
A gas block 220 coupled to the barrel;
A piston having a long shape and having a stepped portion formed in the middle thereof, and having one end inserted into the gas block 220;
A piston guide cylinder into which the other end of the piston is inserted;
A piston spring located between the piston and the piston guide cylinder and limited in forward movement by the stepped portion of the piston;
Including,
When the gun is triggered by the gas pressure, the piston retreats and hits the cage connected with the bolt, so that the bolt is retracted,
The piston spring is limited in the rear movement by the guide cylinder stepped portion formed in the inner diameter of the piston guide cylinder, the piston spring is compressed when the piston is retracted to provide an elastic force for returning the piston,
One end of the piston is formed with a plurality of piston protrusions 111 which are in close contact with the inner diameter of the gas block 220 is spaced at predetermined intervals along the outer periphery,
The piston protrusion 111 is formed to protrude closer to the gas block 220 than the outer diameter portion 110a of one end of the piston inserted into the gas block 220, so that the gas block 220 when the gun is triggered. The generated gas introduced into the firearm is provided with a gas piston system capable of generating a gas pressure for pressurizing the piston while being blocked by the piston protrusion (111). delete In a firearm equipped with a gas piston system for retracting the bolt by the gas pressure during the fire of the firearm,
A gas block coupled to the barrel;
A piston having a long shape and having a stepped portion formed in the middle thereof, and having one end inserted into the gas block;
A piston guide cylinder into which the other end of the piston is inserted;
A piston spring located between the piston and the piston guide cylinder and limited in forward movement by the stepped portion of the piston;
Including,
When the gun is triggered by the gas pressure, the piston retreats and hits the cage connected with the bolt, so that the bolt is retracted,
The piston spring is limited in the rear movement by the guide cylinder stepped portion formed in the inner diameter of the piston guide cylinder, the piston spring is compressed when the piston is retracted to provide an elastic force for returning the piston,
The other end of the piston is formed of a hemispherical protrusion,
And a gas piston system having a hemispherical groove having a shape corresponding to the other end of the piston, in the bolt house hit by the piston. In a firearm equipped with a gas piston system for retracting the bolt by the gas pressure during the fire of the firearm,
A gas block coupled to the barrel;
A piston having a long shape and having a stepped portion formed in the middle thereof, and having one end inserted into the gas block;
A piston guide cylinder into which the other end of the piston is inserted;
A piston spring located between the piston and the piston guide cylinder and limited in forward movement by the stepped portion of the piston;
Including,
When the gun is triggered by the gas pressure, the piston retreats and hits the cage connected with the bolt, so that the bolt is retracted,
The piston spring is limited in the rear movement by the guide cylinder stepped portion formed in the inner diameter of the piston guide cylinder, the piston spring is compressed when the piston is retracted to provide an elastic force for returning the piston,
And a rear end portion of the piston guide cylinder having a gas piston system having a shape in which a lower portion is cut in order to prevent interference with a barrel nut attached to the barrel when retracted. The method of claim 1,
A cylindrical stop positioned between the guide cylinder stepped portion of the piston guide cylinder and the piston spring;
More,
And a gas piston system in contact with the piston spring when the stopping piston spring is compressed. The method of claim 1,
The bolt is not formed with a key ring for preventing gas leakage,
The gun is not provided with a groove portion in the bolt house.

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