JP4449044B2 - Gas gun - Google Patents

Description

  The present invention relates to a gas gun that can be used both as a blow-back type gas gun and a slide-fixed type gas gun by replacing a magazine loaded in a gas loading chamber of one gas gun.

  Conventionally, a gas gun for play (hereinafter simply referred to as “gas gun”) in which a plastic bullet (so-called “BB bullet”) is fired by gas pressure is well known. Further, among gas guns, a blowback type gas gun is known that can obtain a feeling of use similar to that of a real gun, and moves the slide backward by gas pressure each time a bullet is fired.

  As a conventional example of such a blowback type gas gun, Patent Document 1 describes a blowback type toy air gun in which a magazine having a magazine part and a gas accumulating chamber is detachably provided. The air gun of this document is a conventional blowback type air gun having a configuration closer to that of a real gun, but in order to realize the structure, the toy gun has an excessively complicated structure. ing.

In addition, as described above, the blowback type gas gun can have a structure closer to that of a real gun and has an advantage that the trigger is light. However, the energy efficiency is low and the bullet velocity is lower than that of the slide fixed type gas gun. However, there was a disadvantage that the On the other hand, the fixed-slide type gas gun has the advantages of high energy efficiency and high bullet speed and a large number of bullets, but has the disadvantage that the trigger is heavy and a structure close to an actual gun cannot be obtained. there were.
JP-A-8-136188

  As described above, the blowback type gas gun and the slide fixed type gas gun have their own advantages and disadvantages. However, in any case, the single fixed gas gun can be used for both the slide fixed type gas gun and the blowback type gas gun. A gas gun that allows the user to use the advantages of both gas guns has not been developed.

  The present invention has been made in view of the above-described circumstances. By replacing the blowback magazine and the slide fixing magazine into the magazine loading chamber of one gun body, it is possible to slide with one gun body. An object of the present invention is to provide a gas gun that can be used both as a stationary gas gun and a blowback gas gun.

  In order to solve the above problems, the gas gun according to claim 1 of the present invention is a gas gun which enables a blowback in which a slide provided on the upper portion of the gun body moves backward, and is loaded with a magazine provided on the gun body. The blowback magazine loaded in the chamber and the slide fixing magazine have a separate structure, and the blowback magazine operates a gas release valve that opens and closes the gas in the gas filling chamber. Means for regulating the operation of the regulator, a gas jet for moving the slide backward, and an air switch for switching whether the gas in the magazine is sent to the gas jet or to the bullet firing side And the slide fixing magazine does not include means for regulating the operation of the gas cut regulator, the gas outlet, and the air switch. By switching the blowback magazine and the slide fixing magazine into the magazine loading chamber of one gas gun and loading it, the operation of switching whether or not to perform blowback is performed, thereby making one gun body It can be used for both blow-back type guns and slide-fixed type guns.

The gas gun according to a second aspect of the present invention is the gas gun according to the first aspect, wherein the magazine is connected to a chamber provided in the gun body at the upper part of each of the blowback magazine and the slide fixing magazine. Gas passage
It has a structure in which the uppermost bullet filled in the upper part of the magazine in the magazine is seated in front of the gas passage,
The chamber of the gun body is retracted in conjunction with the pulling operation of the trigger, so that the bullet seated on the magazine side is loaded into the chamber.

  Furthermore, the gas gun according to claim 3 of the present invention has a regulating groove capable of accommodating a working portion of a gas cut regulator on the rear surface of the blowback magazine and the slide fixing magazine according to claim 1 or 2. The restriction groove of the blowback magazine has an inclined surface that presses and retracts the action part of the gas cut regulator when the magazine is inserted into the magazine loading chamber, and the restriction groove of the slide fixing magazine When inserted into the magazine loading chamber, it has a long shape that does not contact the action part of the gas cut regulator.

  According to the gas gun of the present invention, the slide fixing magazine and the blowback magazine are replaced and loaded into the magazine loading chamber of the gun main body, so that the single gun main body can be used to connect the slide fixing gun and the blowback gun. It becomes possible to enjoy both.

  In addition, when the slide fixing magazine and the blowback magazine are replaced, the gas cut regulator operates differently depending on the length of the regulation groove provided on the rear surface of each magazine and the presence or absence of the inclined surface. By determining whether or not to operate the gas release valve for opening and closing the gas in the filling chamber, it is possible to operate whether to slide back the slide or to fix the slide.

  As described above, according to the gas gun of the present invention, there is one gun body, but the user has two kinds of magazines, a slide fixing magazine and a blowback magazine, and any magazine can be selected by the user. It is possible to enjoy a game that one gun body can be used for both a slide fixing gas gun and a blowback gas gun, and this cannot be experienced with conventional gas guns. Play experience is possible.

  Embodiments of the present invention will be described below with reference to the drawings. In the description of the present invention, the term “front” refers to the muzzle side of the gun body, and the term “rear” refers to the hammer side of the gun body.

  As shown in FIG. 1A, the gas gun according to the present embodiment has a magazine loading chamber 3 provided in the handle 2 of the gun body 1 and a slide fixing magazine 4 shown in FIG. The blowback magazine 5 shown in 1 (c) can be replaced and loaded. A magazine catch 3a provided in the middle of the magazine loading chamber 3 shown in FIG. 1A has a stopper function for fixing the magazine 4 or 5 inserted into the magazine loading chamber 3 at a fixed position. By pushing the catch 3a, the stopper function is released, whereby the magazine 4 or 5 can be extracted from the magazine loading chamber 3.

  As shown in FIG. 2 (a) or (c), the slide fixing magazine 4 and the blowback magazine 5 each have a magazine chamber 7 and a gas filling chamber 8 inside the magazine case 6. The lower open side is closed by a magazine base 9 fixed to the lower part of the magazine case 6 with a pin 6 a, and gas can be injected from a gas inlet 9 a provided in the magazine base 9.

  Further, as shown in FIG. 2A or 2C, the upper front of the magazine chamber 7 is a seating portion 10 of a bullet B, and a floor 11 supported by a spring SP1 is provided inside the magazine chamber 7. ing. The floor 11 moves up and down along a floor guide 12 provided on the front side of the magazine case 6 so that a bullet B can be inserted into the magazine chamber 7 from the seating portion 10 with the protruding portion 11a of the floor 11 pushed down with a fingertip. Thus, it is possible to load a plurality of bullets in the magazine chamber 7.

  On the other hand, as shown in FIG. 2 (a) or (c), a gas discharge path 13 is provided above the gas filling chamber 8 in each magazine 4, 5, and each magazine 4, A gas passage 14 reaching the uppermost portion of 5 is formed. The inlet of the gas discharge path 13 can be opened and closed by a gas discharge valve 15 whose rear end is exposed from the rear side surface of each magazine 4, 5, and the gas is generated by the spring force of the spring SP 2 provided in front of the gas discharge valve 15. The discharge valve 15 is urged in a direction to close the inlet of the gas discharge path 13.

  In addition, the gas passages 14 provided in the upper portions of the magazines 4 and 5 communicate with the seating portion 10 of the bullet B, and a packing collar 16 is fixed to the inner periphery of the gas passage 14 in the vicinity of the seating portion 10. An O-ring 17 is fixed to the periphery of the packing collar 16. With such a configuration, the uppermost bullet B of the magazine chamber 7 is pushed upward together with the lower bullet by the urging force of the spring SP1, and the gas passage 14 is closed while being held by the seating portion 10.

  The above description of the magazine structure is common to both the slide fixing magazine 4 and the blowback magazine 5, but the blowback magazine 5 has an air valve structure as shown in FIG. The difference is that the slide fixing magazine 4 does not have these structures, whereas the switch 18 and the gas outlet 19 are provided. Further, the later-described regulation grooves 21A and 21B provided on the rear surfaces of the magazines 4 and 5 also have different structures.

  That is, in the blowback magazine 5 shown in FIG. 2C, an inner peripheral step 14a is formed along the inner periphery of the gas passage 14 at a position spaced rearward from the packing collar 16 of the gas passage 14. A valve-structured air switch 18 that moves back and forth between the stepped portion 14a and the packing collar 16 is urged rearward by a spring SP3. The air switch 18 has an opening 18a in the peripheral portion of the valve body, and gas can be sent forward through the opening 18a. The air switch 18 moves forward to close the packing collar 16. In (see FIG. 9A), the gas passage 14 is closed. Further, as shown in FIGS. 2B and 2D, a gas outlet 19 through which the gas passage 14 can be ejected is formed on the rear surface of the corresponding magazine case 6 on the rear side of the gas passage 14. .

  Such a structure is a structure peculiar to the blowback magazine 5, and as shown in FIGS. 2A and 2B, the slide fixing magazine 4 does not have an air switch 18, and a gas outlet 19. Is completely closed by the closure lid 20. The operations of the air switch 18 and the gas outlet 19 will be described later.

  Further, as shown in FIG. 2B, a long regulating groove 21A is formed in the vertical direction on the side of the rear end of the gas release valve 15 exposed from the rear surface of the slide fixing magazine 4. On the other hand, the restriction groove 21B provided in the blowback magazine 5 shown in FIG. 2D is short, and an inclined surface 22 is formed at the lower end of the short restriction groove 21B. Since the inclined surface 22 of the regulating groove 21B relates to the operation of the gas cut regulator 36 described later, it will be described later.

  In the above configuration, as shown in FIGS. 2B and 2D, the upper members 4a and 5a of the magazine cases 6 of the magazines 4 and 5 are configured separately from the main body of each magazine case 6. By making the screws 4b and 5b detachable, the magazine case 6 for the slide fixing magazine 4 and the blowback magazine 5 is the same, and only the upper members 4a and 5a having different internal structures are used. By attaching the two, it is possible to produce two types of slide fixing magazines 4 and blowback magazines 5, thereby reducing the production cost.

  Here, the overall structure of the gun body 1 of this embodiment will be described. As shown in FIG. 3A, a cylindrical inner barrel 24 is provided inside the barrel 23 at the top of the gun body 1, and the inner body A buffer 43 on the front side and a chamber 25 on the rear side through a spring SP8 are provided in the inner peripheral enlarged diameter part behind the barrel 24. In addition, a cam 44 rotatably supported by a cam pin 44a is urged forward by a spring 44b at the lower portion of the buffer 43, whereby the buffer 43 is fixed in the inner barrel 24 by the action of the guide pin 43a. It is urged forward while stopped at the position.

  A slide 26 is provided behind the chamber 25, and a cylinder 27 is fixed to the inside of the rear portion of the slide 26 with a screw 27a. Further, a piston 28 extending in a two-stage manner (see FIG. 10A) is provided inside the cylinder 27, and the inner peripheral side rear end of the piston 28 is fixed to the rear portion of the cylinder 27 with a screw 27b. With such a configuration, the gas in the gas passage 14 passes through the gas inlet 28 a provided at the front end of the cylinder 27 and presses the piston 28, thereby causing the piston 28 to retreat in a two-stage manner along the cylinder 27. At the same time, the slide 26 moves backward.

  On the other hand, as shown in FIG. 3A, the hammer 29 is rotatably provided by a hammer pin 29a, and an upper end portion of the hammer strut 30 is locked to a locking pin 29b provided at the rear portion of the hammer pin 29a. The lower part of the hammer strut 30 is supported by the hammer spring SP4 and biased upward.

  Further, when the trigger 31 provided on the gun body 1 is pulled, the shear 33 that locks the hammer 29 is rotated by the action of the trigger bar 32, and when the shear 33 is released, the hammer spring SP4 is released. As shown in FIG. 8A, the hammer 29 is rotated by the spring force of the spring and the hammer 29 strikes the head of an F pin (abbreviation of a firing pin) 34 (see FIG. 3C) described later. In addition, the F pin 34 pushes the gas release valve 15 forward against the spring force of the spring SP <b> 2, thereby opening the gas release path 13.

  As shown in FIG. 3A, the trigger 31 is rotatably supported by a trigger pin 31a provided on the gun body 1, and is always attached to the front by a trigger spring 31b attached to the peripheral portion of the trigger pin 31a. It is energized. Further, a front end portion of the trigger bar 32 is rotatably supported on a pin 31c provided at the rear portion of the trigger 31, and the trigger bar 32 is biased upward by a trigger bar spring 32a.

  Further, as shown in FIG. 3A, the trigger locking piece 35 provided above the trigger pin 31a is engaged with the stopper 45 supported by the stopper pin 45a, and as shown in FIG. 7A. When the trigger 31 is turned to the fully pulled state, the next bullet B2 is held and the magazine 7 is placed in a standby state.

  Further, as shown in FIG. 6D, the shear 33 is rotatable about a shear shaft 33a, has a claw portion 33b that engages with a shear engagement portion 29c of the hammer 29, and has a claw of the shear 33. The stopped state of the hammer 29 can be maintained by the portion 33 b being locked to the shear locking portion 29 c of the hammer 29.

  Next, in describing the gas cut regulator 36 according to the present embodiment, each figure will be described. 3 to 19 show the internal structure of the gun body 1, and each figure (b) shows the structure related to the operation of the gas cut regulator 36 during each operation, and each figure (c). Shows a structure related to the operation of the F pin 34 in each operation. However, each figure (b) shows the state which looked perspectively the inner 38 holding the gas cut regulator 36 and the gas cut lever 37 for convenience of explanation.

  3 (b) and 3 (c), the structure related to the gas cut regulator 36 will be described. The inner 38 has a shaft hole 39 supported by the hammer pin 29a, and one side of the inner 38 (FIG. A gas cut regulator 36 and a gas cut lever 37 are provided on the back side of the sheet 3 (b).

  That is, as shown in FIG. 3B, a guide groove 40 that movably accommodates the gas cut regulator 36 is formed on one side of the inner 38, and the gas cut regulator 36 that is accommodated in the guide groove 40. As shown in FIG. 5 (a), the action portion 36b accommodated in the regulation groove 21A or 21B (see FIG. 5 (b)) provided in the rear surface of the magazine 4 or 5 loaded in the magazine loading chamber 3. (The action portion 36b is curved so as to follow an inclined surface formed at the lower portion of the guide groove 21A or 21B of the blowback magazine 5), and a claw portion 36a is formed at the upper portion on the opposite side. ing. The claw portion 36a faces the action portion 36b and is in a relationship of engaging with a claw portion 37a of a gas cut lever 37 described later. Further, the gas cut regulator 36 is urged in the direction of the action portion 36b by a spring SP5 accommodated in the end portion of the guide groove 40.

  On the other hand, as shown in FIG. 3B, a gas cut lever 37 is accommodated in a guide groove 41 formed in a direction orthogonal to the guide groove 40 of the gas cut regulator 36 so as to be movable up and down. A claw portion 37 a provided on the upper portion of the lever 37 is formed to engage with the claw portion 36 a of the gas cut regulator 36. The gas cut lever 37 is urged upward by a spring SP6 accommodated in the lower portion of the guide groove 41. The upper end of the gas cut lever 37 has an inclined surface 37b inclined forward, and this inclined surface 37b is inclined rearward of the recess 26a formed along the lower portion of the slide 26 as shown in FIG. It moves downward by being pressed by the surface 26b.

  Further, as shown in FIG. 3C, a guide groove 42 for movably accommodating the F pin 34 is formed on the other side of the inner 38, and the F pin 34 is formed as shown in FIG. 5A. The rear portion of the gas discharge valve 15 of the magazine 4 or 5 loaded in the magazine loading chamber 3 is provided in the direction of pressing.

  Further, as shown in FIG. 3C, a stepped locking portion 34 a is formed on the side portion of the F pin 34, and the F pin 34 is placed inside the guide groove 42 that accommodates the F pin 34. A spring SP7 that is biased toward the hammer 29 is housed, and the F pin 34 is biased in a direction that is repelled by pressing by the hammer 29.

  In addition, a part of the gas cut lever 37 protrudes from the lower part of the F pin 34, and a convex portion 37 c that engages with the locking portion 34 a of the F pin 34 is formed on the gas cut lever 37. In a state where the engaging portion 34a of the F pin 34 is not engaged, it is biased downward against the spring force of the spring SP6. However, as shown in FIG. When struck, the F pin 34 moves forward, and when the gas cut lever 37 moves upward by the spring force of the spring SP6, the convex portion 37c engages with the locking portion 34a of the F pin 34 to move the F pin 34 forward. It will be in the state held.

  The configuration of the slide fixing magazine 4 and the blowback magazine 5 used in this embodiment and the schematic configuration of the gun body 1 have been described above. The other configurations are described in the following description of the operation of this embodiment. I will explain it.

  Next, the case where the above blowback magazine 5 is used for the gun body 1 of the gas gun of this embodiment will be described. In order to use the blowback magazine 5, as shown in FIG. 4A, the blowback magazine 5 is pushed into the magazine loading chamber 3 of the gun body 1 from below and mounted as shown in FIG. 5A. State.

  When the blowback magazine 5 is not installed in the magazine loading chamber 3, the gas cut regulator 36 is projected forward by the spring force of the spring SP5 as shown in FIG. The claw portion 37a of the lever 37 is held in a state of being engaged with the claw portion 36b of the gas cut regulator 36b.

  Next, when the blowback magazine 5 is pushed into the magazine loading chamber 3 as shown in FIG. 5A, the gas cut regulator 36 is connected to the blowback magazine 5 as shown in FIG. It contacts the inclined surface 22 of the regulation groove 21B (see FIG. 2D) provided on the rear surface and is pushed backward by being pressed. When the gas cut regulator 36 moves backward as described above, the gas cut lever 37 is released from the holding state by the gas cut regulator 36 and becomes operable.

  Next, as shown in FIG. 6A, when the slide 26 is pulled backward to release the hand, or the hammer 29 is manually raised, as shown in FIG. 29c is held by the claw portion 33b of the shear 33, and preparation for launching is completed.

  Even when the blowback magazine 5 is mounted in the magazine loading chamber 3, the bullet B is fired by double action by pulling the trigger 31 without operating the slide 26 or the hammer 29 as described above. It is also possible to do. However, the pull of the trigger 31 becomes heavy in the double action. This double action will be described when a slide fixing magazine 4 described later is used.

  In the above state, when the trigger 31 is pulled to the end as shown in FIG. 7A, the chamber 25 is moved backward by the rotation of the cam 44, so that the bullet B is loaded into the chamber 25. Closely contacts an O-ring 17 provided in the gas passage 14. On the other hand, as shown in FIG. 7D, when the trigger bar 32 is actuated by the pulling operation of the trigger 31 and the shear 33 is unlocked by the rotation of the shear 33, FIG. As shown, the hammer 29 is rotated by the spring force of the hammer spring SP4.

  Then, as shown in FIG. 8C, when the hammer 29 strikes the F pin 34 and the F pin 34 moves forward, the convex portion of the gas cut lever 37 urged upward by the spring force of the spring SP6. When 37c engages with the locking portion 34a of the F pin 34, the F pin 34 is kept in the advanced state. Further, when the gas release valve 15 is pressed by the advancement of the F pin 34 as shown in FIG. 8A, the gas release path 13 is opened, and the gas in the gas filling chamber 8 passes through the gas release path 13. Then, it is discharged into the gas passage 14 and passes through the opening 18a of the air switch 18 so as to press the bullet B from behind, so that the bullet B is fired.

  Next, as shown in FIG. 9A, the bullet B is fired to open the chamber 25, and the gas from the gas filling chamber 8 continues to be released into the gas passage 14. As a result, before and after the air switch 18 , An internal pressure difference occurs in which the rear internal pressure becomes higher than the front internal pressure. The internal pressure difference causes the air switch 18 to move forward and contact the rear inner periphery of the packing collar 16 to prevent forward gas discharge. Therefore, the gas flows only backward.

  Next, as shown in FIG. 10A, the gas that has flowed to the rear of the gas passage 14 causes the two-stage piston 28 to move backward, and the slide 26 fixed to the piston 28 moves backward. As shown in b), the rear inclined surface 26 b provided at the lower portion of the slide 26 presses the upper end inclined surface 37 of the gas cut lever 37 and pushes down the gas cut lever 37. Further, when the gas cut lever 37 is pushed down in this way, the convex portion 37c of the gas cant lever 37 is disengaged from the engaging portion 34a of the F pin 34 as shown in FIG. The holding of the F pin 34 is released, and the F pin 34 returns to the original retracted position by the spring force of the spring SP7. As the F pin 34 moves backward, as shown in FIG. 10A, the gas discharge valve 15 closes the gas discharge path 13 by the spring force of the spring SP2, and the gas discharge from the gas filling chamber 8 stops.

  Further, as shown in FIG. 11A, the slide 26 continues to move backward due to the inertia of the piston 28 and the expansion of the gas even after the release of the gas stops as described above. When the slide 26 is retracted to the final end, as shown in FIG. 11D, the hammer 29 is raised beyond the holding position of the shear 33 by the pressing action of the slide 26, and the shear 33 is moved by the spring force of the spring 33c. Return to the position holding 29.

  Next, as shown in FIG. 12 (a), when the gas pushing the piston 28 is fully expanded, the internal pressure in the cylinder 27 decreases, and when the tension of the spring SP3 exceeds the internal pressure, the air switch 18 moves backward, The gas inlet to the front (the inner periphery of the packing collar 16) is opened again. On the other hand, when the internal pressure of the cylinder 27 is weakened, as shown in FIG. 13A, the slide 26 and the piston 28 are moved forward by the tension of the hammer spring SP4, and the gas in the cylinder 27 passes through the opening (packing collar) of the air switch 18. 16 is discharged forward. Further, the hammer 29 keeps the state held by the shear 33. At that time, in order to shoot the next bullet B2, the trigger 31 is once returned to return to the state shown in FIG.

  As described above, when the blowback magazine 5 is loaded in the magazine loading chamber 3 of the gas gun, the gas in the magazine 5 reaches the gas passage 14 from the gas discharge passage 13 to the opening 18a ( (See FIG. 2 (c)) After pressing the bullet B in the chamber 25, the slide 26 is moved backward to the piston 28 side, so the gas use efficiency is not good, but blowback like an actual gun is performed. It has the advantage of enjoying action.

  Next, the case where the above-described slide fixing magazine 4 is used for the gas gun of this embodiment will be described. In order to use the slide fixing magazine 4, the slide fixing magazine 4 is pushed into the magazine loading chamber 3 as shown in FIG.

  When the slide fixing magazine 4 is pushed into the magazine loading chamber as shown in FIG. 15A, unlike the case of the blowback magazine 5 described above, as shown in FIG. Since the regulator 36 is accommodated in the regulation groove 21 </ b> A (see FIG. 2B) provided on the rear surface of the magazine 4, it does not come into contact with the regulator 36, so that the gas cut regulator 36 is not pushed backward. Thus, the gas cut regulator 36 keeps the state in which the gas cut lever 37 is held without moving backward, so that the claw portion 36a of the gas cut regulator 36 and the claw portion 37a of the gas cut lever 37 are kept in mesh with each other, The gas cut lever 37 cannot be operated.

  In this state, as shown in FIG. 16A, when the trigger 31 is pulled, in the double action, the trigger bar 32 retracts the hook 46 along the guide passage 47 and raises the hammer 29 interlocked with the hook 46. Causes a double action. On the other hand, a single-action operation in which the hammer 29 is manually fired for each shot is also possible. In this single action, since the trigger 31 is pulled from the state where the hammer 29 is manually raised, there is an advantage that the operation of pulling the trigger 31 becomes light.

  Next, by pulling the trigger 31 as described above, as shown in FIG. 17A, when the chamber 25 is retracted by the action of the guide pin 43 a interlocked with the cam 44, the seat 31 of the slide fixing magazine 4 is moved. The chamber 25 enters the periphery of a certain bullet B, and the bullet B is loaded into the chamber 25, and the chamber 25 and the O-ring 17 of the gas passage 14 of the slide fixing magazine 4 are brought into close contact with each other. In the operation of pulling the trigger 31, the angle at which the hammer 29 occurs is small in the double action, so that the hammer 29 is not held by the shear 33. Next, as shown in FIG. 17D, when the trigger 31 is pulled to the end, the hook 46 is released from the trigger bar 32, and immediately thereafter, the hammer 29 moves forward vigorously.

  After the hammer 29 has advanced vigorously as described above, as shown in FIGS. 18A and 18C, the hammer 29 strikes the head of the F pin 34 to advance the F pin 34 and release the gas. By opening the gas discharge valve 15 of the passage 13, the gas in the gas filling chamber 8 is discharged to the gas passage 14 side, and the bullet B in the chamber 25 is fired forward.

  At this time, since the gas cut lever 37 is held by the gas cut regulator 36 in the slide fixing magazine 4 as described above, the gas cut lever 37 does not rise even if the F pin 34 moves forward. Since the pin 34 is not held, as shown in FIGS. 19A and 19C, the gas release valve 15 and the F pin 34 are returned backward by the spring force of the spring SP2, and the gas release valve 15 is retracted. As a result, the gas discharge path 13 is closed. Further, the hammer 29 is pushed by the F pin 34 and returns to the home position. In this state, once the trigger 31 is returned to shoot the next bullet B2, the state returns to the state shown in FIG.

  As described above, when the slide fixing magazine 4 is loaded in the gas gun, the air switch 18 is not provided like the blowback magazine 5, so that the gas in the magazine reaches the gas passage 14 from the gas discharge passage 13. The bullet B in the chamber 25 can be pressed directly, and the gas release valve 15 can be opened and closed instantly, and the gas does not escape to the piston 28 as in the blowback magazine 5. The bullet speed is improved and the number of bullets per short time can be increased.

  The gas gun of the present invention replaces the blowback magazine and the slide fixing magazine into the magazine loading chamber of one gun body, and loads the slide fixed gas gun and the blowback gas gun with one gun body. It can be used as a gas gun that can be used for both.

(A) is a whole sectional view showing an internal structure of a gas gun according to the present invention, (b) is a sectional view showing an internal structure of a slide fixing magazine, and (c) shows an internal structure of a blowback magazine. It is sectional drawing. (A) is sectional drawing which shows the internal structure of the magazine for slide fixation, (b) is a fragmentary figure which shows the rear surface upper part of the magazine of (a), (c) shows the internal structure of the magazine for blowbacks. It is sectional drawing, (d) is the fragmentary figure which shows the rear surface upper part of the magazine of (c). (A) is a whole sectional view which shows the situation where the magazine is not loaded in the magazine loading chamber in the gas gun according to the present invention, (b) is a side view of the structure for operating the gas cut regulator, and (c) is F It is a side view which shows the structure which act | operates a pin. (A) is a whole sectional view of a gas gun showing a state where a blowback magazine according to the present invention is inserted into a magazine loading chamber, (b) is a side view showing a structure for operating a gas cut regulator, (c) ) Is a side view showing a structure for operating the F pin. (A) is a whole sectional view of a gas gun showing a state in which a blowback magazine according to the present invention is inserted into a magazine loading chamber, and (b) is a portion showing a relationship between a regulation groove and an inclined surface of the magazine and a gas cut regulator. It is a figure, (c) is a side view which shows the structure which act | operates F pin. (A) is a whole sectional view of a gas gun showing a situation where a blowback magazine according to the present invention is inserted into a magazine loading chamber and pulling a trigger, and (b) is a side view showing a structure for operating a gas cut regulator. (C) is a side view showing the structure for operating the F pin, and (d) is a partial view showing the situation around the hammer and the slide in the operating state of the trigger. (A) is a whole sectional view of a gas gun showing a situation where a blowback magazine according to the present invention is inserted into a magazine loading chamber and a trigger is pulled off, and (b) is a side view showing a structure for operating a gas cut regulator. (C) is a side view showing the structure for operating the F pin, and (d) is a partial view showing the situation around the hammer and the slide in the operating state of the trigger. (A) is a whole sectional view showing a situation where a bullet is fired in a gas gun according to the present invention, (b) is a side view showing a structure for operating a gas cut regulator, and (c) is for operating an F pin. It is a side view which shows the structure to do. (A) is a whole sectional view showing a situation after a bullet is fired in a gas gun according to the present invention, (b) is a side view showing a structure for operating a gas cut regulator, and (c) is for operating an F pin. It is a side view which shows the structure to do. (A) is a whole sectional view showing a situation after a bullet is fired in a gas gun according to the present invention, (b) is a partial view showing a relationship between a structure for operating a gas cut regulator and a slide, and (c). Is a side view showing a structure for operating an F pin, and (d) is a partial view showing a situation around a hammer and a slide. (A) is the whole sectional view showing the situation where the slide is performing the blowback in the gas gun according to the present invention, (b) is a partial view showing the relationship between the structure for operating the gas cut regulator and the slide, c) is a side view showing the structure for operating the F pin, and (d) is a partial view showing the situation around the hammer and the slide. (A) is the whole sectional view showing the situation where the slide is performing blowback in the gas gun according to the present invention, (b) is a side view showing the relationship between the structure having the gas cut regulator and the slide, (c) ) Is a side view showing the structure for operating the F pin, and (d) is a partial view showing the situation around the hammer and the slide. (A) is a whole sectional view showing a situation where a slide returns from blowback in a gas gun according to the present invention, (b) is a side view showing a structure for operating a gas cut regulator, and (c) is an F pin. It is a side view which shows the structure which operate | moves, (d) is a fragmentary figure which shows the condition of a hammer and a slide periphery. (A) is the whole sectional view of the gas gun which shows the situation where the magazine for slide fixation by the present invention is inserted in the magazine loading chamber, (b) is a side view which shows the structure which operates a gas cut regulator, (c ) Is a side view showing a structure for operating the F pin. (A) is a whole sectional view of a gas gun showing a state in which a magazine for fixing a slide according to the present invention is inserted into a magazine loading chamber, and (b) is a partial view showing a relationship between a regulation groove of the magazine and a gas cut regulator. (C) is a side view which shows the structure which act | operates F pin. (A) is the whole sectional view of the gas gun which shows the situation where the trigger is pulled in the present invention, (b) is a side view showing the structure which operates a gas cut regulator, and (c) operates the F pin. It is a side view which shows a structure, (d) is a fragmentary figure which shows the condition of a hammer and a slide periphery. (A) is the whole gas gun sectional view showing the situation where the trigger of the gas gun by the present invention was pulled off, (b) is a side view showing the structure which operates a gas cut regulator, (c) is F pin It is a side view which shows the structure which operate | moves, (d) is a fragmentary figure which shows the condition of a hammer and a slide periphery. (A) is a whole sectional view showing a situation where a bullet is fired in a gas gun according to the present invention, (b) is a side view showing a structure for operating a gas cut regulator, and (c) is for operating an F pin. It is a side view which shows the structure to do. (A) is a whole sectional view showing a situation after a bullet is fired in a gas gun according to the present invention, (b) is a side view showing a structure for operating a gas cut regulator, and (c) is for operating an F pin. It is a side view which shows the structure to do.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Gun body 2 Handle part 3 Magazine loading chamber 3a Magazine catch 4 Slide fixing magazine 5 Blowback magazine 4a, 5a Upper member 6 Magazine case 6a Pin 7 Magazine chamber 8 Gas filling chamber 9 Magazine base 9a Gas inlet 10 Seating portion DESCRIPTION OF SYMBOLS 11 Floor 11a Protrusion part 12 Floor guide 13 Gas discharge path 14 Gas path 14a Inner peripheral step part 15 Gas discharge valve 16 Packing collar 17 O-ring 18 Air switch 18a Opening part 19 Gas outlet 20 Closure lids 21A and 21B Restriction groove 22 Surface 23 Barrel 24 Inner barrel 25 Chamber 26 Slide 26a Recess 26b Inclined surface 27 Cylinder 27a Screw 27b Screw 28 Piston 28a Gas inlet 29 Hammer 29a Hammer pin 29b Locking pin 29c Shear locking portion 30 Hammer strut 31 Trigger 31a To Guide pin 31b Trigger spring 31c Pin 32 Trigger bar 32a Trigger bar spring 33 Shea 33a Shear shaft 33b Claw part 34 F pin 34a Locking part 35 Trigger locking piece 36 Gas cut regulator 36a Claw part 36b Action part 37 Gas cut lever 37a Claw part 37b Inclined surface 37c Convex portion 38 Inner 39 Shaft hole 40 Gas cut regulator guide groove 41 Gas cut lever guide groove 42 F pin guide groove 43 Buffer 43a Guide pin 44 Cam 44a Cam pin 44b Spring 45 Stopper 45a Stopper pin 46 Hook 47 Guide Path B Bullet B2 Next SP1 Spring SP2 Spring SP3 Spring SP4 Hammer Spring SP5 Spring SP6 Spring SP7 Spring SP8 Spring

Claims (3)

In the gas gun that enabled the blow back that the slide provided at the top of the gun body moves backward,
The blowback magazine to be loaded into the magazine loading chamber provided in the gun body and the slide fixing magazine have separate structures,
The blowback magazine includes a means for regulating the operation of a gas cut regulator configured to operate a gas discharge valve for opening and closing a gas in the gas filling chamber, a gas outlet for moving the slide backward, An air switch for switching whether the gas in the magazine is sent to the gas ejection port side or the bullet firing side,
The slide fixing magazine has a structure that does not include means for restricting the operation of the gas cut regulator, the gas outlet, and the air switch.
By replacing the blowback magazine and the slide fixing magazine into the magazine loading chamber of one gas gun and loading it, the operation of switching whether or not to perform blowback is performed to blow back one gun body. A gas gun that can be used for both a fixed gun and a slide-fixed gun. In both the blowback magazine and the slide fixing magazine, the upper part of each magazine has a gas passage connected to a chamber provided in the gun body,
It has a structure in which the uppermost bullet filled in the upper part of the magazine in the magazine is seated in front of the gas passage,
2. The gas gun according to claim 1, wherein a bullet seated on the magazine side is loaded into the chamber by retreating the chamber of the gun body in conjunction with a pulling operation of the trigger. The rear surface of the blowback magazine and the slide fixing magazine has a regulation groove that can accommodate the action part of the gas cut regulator,
When the magazine is inserted into the magazine loading chamber, the restriction groove of the blowback magazine is provided with an inclined surface that presses and retracts the action part of the gas cut regulator, and the restriction groove of the slide fixing magazine includes the magazine. The gas gun according to claim 1 or 2, wherein the gas gun has a long shape that does not come into contact with the action portion of the gas cut regulator when inserted into the loading chamber.

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