KR840001438Y1 - Gas rifle - Google Patents

Abstract

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Description

Gas gun

1 is a longitudinal sectional view of the present invention showing a state before the trigger.

Figure 2 is a longitudinal sectional view of the present invention showing a state after the trigger.

3 and 4 are longitudinal cross-sectional view of the present invention showing the operating state of the gas opening and closing valve.

5 is a partial perspective view showing the coupling state of the rotating rod and the moving piece installed in front of the piston chamber.

6 is an enlarged plan view of FIG.

7 is a top view of the magazine.

* Explanation of symbols for main parts of the drawings

1: piston chamber 2: piston

4: gas inlet room 5: gas opening and closing

8a: Pushing lever 8b: Towing rod

9: between operation 18: rotating rod

20: moving piece 22: magazine insertion request

23 magazine

The present invention relates to a gas gun capable of firing a bullet at the explosion pressure of a high pressure gas such as furophane gas or butane gas.

Conventionally, gas guns that are capable of firing bullets at the explosive pressure of such flammable gas have been known.

However, since the conventional gas gun introduced gas into a gas explosion chamber formed in a predetermined volume and then ignited it by a spark plug, the gas gun could not be blown away due to low gas pressure, and also loaded a bullet. In order to operate the barrel, it was necessary to move the barrel forward and back again, and there were many drawbacks such as a structure for introducing gas into the gas explosion chamber and a structure for loading a bullet.

However, most of all, the most fatal flaw of the conventional gas gun is that the low explosion pressure of the gas can not send the loaded bullet far away, and thus has not been practically used.

The present invention was devised to solve the above-mentioned shortcomings of the conventional gas gun, and formed a piston seal for compressing the gas in the gas gun body so that the gas introduced into the piston was exploded in a highly compressed state, and a bullet By improving the structure for loading the bar so that the bullet can be easily fired without the operation of the forward or reverse of the barrel, it will be described in more detail the structure according to the accompanying drawings.

The piston chamber 1 is formed above the gas gun, and the piston 2 having the inclined step 2a is elastically installed therein with a spring 3, and the gas inlet chamber 4 is formed below the piston gun. The gas opening / closing edge 5 having the concave inlet 5a is elastically installed by the spring 6 so that the piston chamber 1 and the gas inlet chamber 4 communicate with each other by the gas discharge hole 7.

The trigger 8 provided in the shaft below the gas inlet chamber 4 extends between the holding sections 8a and the traction section 8b, and the operation section 9 is inserted and connected to the traction garner 8b so that the trigger 8 The inclined upper end of the towing section 8b may be inserted into or detached from the catching groove 2b of the piston 2 in accordance with the operation of the traction rod 8b, and the tip of the blotting rod 8a may be connected to the gas opening / closing edge 5. do.

The butt plate 10 is formed in a hollow shape to accommodate the gas cylinder 11 and the battery 12 therein, and the tip of the gas pipe 16 connected to the gas cylinder 11 has a gas inlet formed at the bottom of the gas inlet chamber 4. Connected with (13) to allow the gas to flow into the inlet (5a) of the gas opening and closing valve (5), the high-pressure generation circuit 14 is built in the high pressure generation circuit (14) in the lower position of the gas inlet chamber (4) The spark plug 15 connected to (14) is allowed to be ignited by the battery.

In front of the piston chamber 1, an inclined surface 17 having the same inclination angle as that of the inclined step 2a at the tip of the piston 2 is formed, and the rotating rod 18 having the gas injection hole 19 at its tip is rotated. And the gear 18a formed above the pivot rod 18 and the gear 20a formed on the movable piece 20 are engaged with each other to rotate so that the pivot rod 18 rotates as the piston 2 advances. While allowing the gas injection hole (19) to open or close the muzzle (21).

In addition, a magazine 23 is formed at the front of the pivot rod 18, and a magazine 23 having a center groove 23a, a locking groove 23b, and a bullet tact groove 24 is formed in the magazine insertion request 22. By inserting the center groove 23a of the magazine 23 is to be coupled to the center steel ball 25 and the locking groove 23b to the lower steel ball 26, respectively.

27, which are not described in the drawing, is an operation switch connected to the high pressure discharge circuit 14, 28 is a spring installed below the operation section 9, 29 is a spring connected to the moving piece 20, and 30 and 31 are steel balls 25 26 is an elastic spring installed at the rear, 32 is a bullet and 33 is a protruding jaw formed at the tip of the moving piece 20.

According to the present invention configured as described above, the gas inlet hole 13 is opened by the gas opening and closing valve 5 installed in the gas inlet chamber 4 as shown in FIGS. 1 and 3 in the state of not pulling the trigger. And the gas discharge hole 7 is closed and the direction of the gas injection hole 19 formed in the front pivot rod 18 of the piston chamber 1 is orthogonal to the muzzle direction, so the muzzle 21 is turned by the pivot rod 18. It is blocked.

The operation of radiating the bullet 32 placed on the magazine 23 by inserting the magazine 23 in such a state will be described.

First, each bullet 32 is placed in the bullet tact groove 24, and then the magazine 23 is inserted into the magazine insertion demand 22, and the steel balls 25 and 26 are inserted into the center groove 23a and the locking groove 23b. ) Are combined.

In the state in which the magazine 23 is fitted to the magazine insertion request 22, the bullet 32 placed in the upper bullet mounting groove 24 is coincident with the muzzle 21, and the magazine 23 is each steel ball 25 ( 26) If an artificial force is not applied by the ballistic force of the springs 30 and 31 provided at the rear, the spring 30 will not rotate.

When the trigger 8 is pulled in a state where the magazine is inserted into the magazine insertion request 22, the trigger 8 and the pushed-in press section 8a are rotated so that the gas opening and closing edge 5 of which the tip is elastically installed in the gas inlet chamber 4 ), The gas opening and closing edge 5 is advanced by pressing the spring (6) provided at its tip.

When the gas opening and closing valve 5 moves forward, the gas opening and closing valve 5 opens the gas discharge hole 7 while closing the gas inlet hole 13 as shown in FIG. Only gas is discharged to the piston chamber 1 through the gas discharge hole (7).

At the same time, the traction rod 8b addressed to the trigger 8 simultaneously moves the operation section 9 downward, and when the operation section 9 moves downward, the traction rod 8b is caught in the locking groove 2b of the piston 2. Since the inclined upper end of the operation section 9 is released from the locking groove 2b of the piston 2, the piston 2 compresses the gas introduced into the piston chamber 1 by the ballistic force of the spring 3 and muzzles. It advances toward (21) direction and stops, while the inclination step 2a of the front end of the piston 2 is caught by the inclined surface 17 of the front of the piston chamber 1. As shown in FIG.

When the piston 2 is advanced in the direction of the muzzle 21, the tip of the piston 2 reverses the protruding jaw 33 of the movable piece 20 protruding into the piston chamber 1, and the movable piece 20 moves backward. 5 and 6, the gear 20a of the movable piece 20 and the gear 18a of the pivoting rod 18 are engaged with each other, so that the pivoting rod 18 also rotates so that the direction of the gas injection hole 19 is lowered. The direction of the muzzle 21 coincides with the direction. (At this time, the rotation angle of the rotating rod can be precisely adjusted by the moving distance of the moving piece.)

At the same time, the switch 27 is operated by the towing section 8b so that the ignition plug 15 is ignited, and a certain amount of gas introduced into the piston chamber 1 is released in a highly compressed state by the piston 2. The released gas is injected into the gas injection hole 19 with a strong force to radiate the bullet 32 placed in the magazine 23.

After the bullet 32 is emitted, rotate the magazine 23 so that another bullet 32 matches the muzzle 21, reverse the piston 2, and then operate the bullet 32 in the same operation as described above. It can emit.

In this way, the present invention can blow the loaded bullet 32 away by highly compressing the gas introduced into the piston chamber 1 by the piston 2 and then causing it to be expelled by the spark plug 15. Since the bullet 32 can be loaded by a simple operation of inserting the magazine 23 into the 22, the conventional gas gun is a practical design that can completely solve the Ninin defect.

Claims (2)

In the well-known thing in which the gas cylinder 11 and the battery 12 were accommodated in the inside of the butt | plate 10 formed in hollow shape, the piston 2 is elastically installed in the piston chamber 1, and the downward latching groove 2b is The gas opening / closing side 5 having a recessed portion 5a is provided in the gas inlet chamber 4 so that the gas opening / closing side 5 is inserted into the upper end of the operating section 9 fitted to the towing section 8b. The gas inlet hole 13 and the gas outlet hole 7 can be opened or closed while advancing and retreating by the space 8a. A moving piece 20 and a rotating rod 18 are installed in front of the piston chamber 1, Gas gun, characterized in that. 2. The moving piece 20 according to claim 1, wherein the gas injection hole 19 is drilled through the rotating rod 18, and the gear 18a formed thereon and the gear 20a formed on the moving piece 20 are engaged with each other. Gas gun that allows the rotating rod (18) to rotate and open or close the muzzle (21) as it advances.