KR100329732B1 - Injector for firearms - Google Patents

Abstract

In the present invention, the needle can be launched by using a gun such as a pistol or an air gun, and a needle-mounted needle supporter with a needle is screwed to the tip of the fuselage, and then the injection fluid and the piston are sequentially inside and outside the fuselage. It is filled and inserted, and the rear end of the fuselage, the injection liquid injection device for injecting the filled injection liquid and the launching propulsion device for firing the fuselage in order to fire the syringe for the gun, the front end of the fuselage to which the injection liquid is filled and The rear end of the injection needle injection port equipped with the injection needle and the injection liquid injection device can be combined and separated, and the rear side of the injection liquid injection device can be combined and separated, so that after the use it is recovered and disinfected The parts can be exchanged and re-assembled, thus reducing the cost of use. When used, the body of the syringe is fired directly from the barrel, which increases the accuracy of the injection.In addition, the syringe is equipped with an injection and injection propulsion device in the rear end of the body to carry out the firing and injection functions. This non-scannable defect will not occur.

Description

Firearms Syringe {INJECTOR FOR FIREARMS}

TECHNICAL FIELD The present invention relates to a firearms syringe which is used when a gun, such as a pistol or an air gun, is loaded into an animal for anesthesia or an agent such as an antibiotic at a distance, or when anesthesia suspected to be arrested or suppressed. In more detail, in order to be able to shoot a needle using a gun such as a pistol or an air gun, a needle equipped with a needle is screw-coupled to the tip of the fuselage, and the inside of the fuselage with the injection liquid before and after The piston is sequentially filled and inserted, and the rear end of the fuselage is screwed in sequence with an injection liquid injection device for injecting a filled injection liquid and a launch propulsion device for firing the fuselage.

Conventionally, in order to administer drugs such as anesthetics or antibiotics to an animal, a syringe was shot at a distance using an anesthetic gun powered by a gunpowder force, or near the animal, and a needle was directly injected by hand.

However, the method of capturing from a long range was complicated by the design of the needle to fit the structure of the anesthesia gun, and the structure was complicated and not reusable. Not only that, especially wild animals have the risk of injury due to wildness, there is a problem that the person is injured because the animal swings even when injected.

In order to solve the above problems, recently, a blow gun has been developed and used to blow an end and blow the wind to launch an injection device. There was inconvenience to use.

On the other hand, when a police officer wants to arrest a suspect, if the suspect escapes or opposes, he may launch a round of ammunition or fire a bullet to his limbs, but in such an emergency situation, it may not be easy to shoot with accurate aiming. Missing live shots can cause fatal hits, leading to death or serious injury to the suspect, which can cause social controversy. In many cases, various types of syringes (devices) that can be loaded and used in guns have been developed. People's Republic of China Patent No. 1,032 No. 075, `` Animal Capture Shotgun, '' is known to be equipped with a propellant filled with a gunpowder in the chamber at the rear end of the cylindrical cannon, and an internal acupuncture tube filled with a chemical liquid and a piston inside the canister. The front end of the chamber is equipped with a chamber cover loaded with a bedding, and the rear end is equipped with a nozzle through which a gas outlet hole and a gas distribution hole are drilled, and a latex tube is inserted into the outside of the gas outlet hole. The conventional injection gun has a built-in fixed pressure syringe, and when the gun strikes the detonator formed at the rear of the chamber, the gunpowder filled in the chamber is exploded by the impact. Gas is generated and the high pressure gas is discharged forward through the injection hole of the launch vehicle. The gun is fired in front of the gun, and the flight syringe discharged from the gun is flying while maintaining a strong force by the pressure generated when the gunpowder explodes. The gas destroys the sealing film attached to the back side of the pressure oil pipe, and when the sealing film is broken, a part of the strong pressure gas flows into the nozzle through the gas flow pipe of the nozzle and is covered by the outside of the gas outlet hole. It is discharged to the gas inlet chamber provided between the piston and the flange of the nozzle through the gas outflow hole, and the piston is advanced by the pressure of the gas flowing into the gas inlet chamber, the chemical liquid filled in the inside of the needle tube As the above process proceeds, the flying syringe is flying the tip of the bedding. It penetrates into the skin, and when the tip of the bedding penetrates into the skin, the sealing tool inserted in the tip of the bedding is peeled off and moves to the rear side. However, the conventional animal capture injection bombs constructed and operated as described above have the following disadvantages. [0005] Conventional animal capture injection bombs have been introduced into the artillery vessel in which the launch vehicle is mounted at the end. Since a separate flying syringe was inserted, the use of such an animal capture injection bullet into the barrel of the gun had a problem that the hit rate was significantly lowered. Insertion), the outer periphery of the gun barrel remains in contact with the inner periphery of the barrel. A significant amount of play occurs between the outer circumference of the flag and the inner circumference of the barrel, and when the animal capture syringe is fired in such a state, the flying syringe that is out of the shell cannot fly in a straight line due to the play with the barrel. In order to compensate for the above problems, a rear wing is installed at the rear of the flight syringe to maintain the flight state. However, when the rear wing is subjected to air resistance, the flying speed decreases, and when the rear wing is unable to maintain a uniform and constant state, the friction with the air is changed depending on the position, and the flying direction is changed. There was a problem of falling. For example, the length of the gun can be made as long as the length of the barrel. However, since the steel wire is not formed on the inner circumference of the barrel, the flight syringe loses its propulsion and therefore the hit rate decreases the farther it is from the target. Conventional animal capture injection bullets are fitted with a latex tube at the tip of the nozzle in which the gas outlet hole is formed so as to control the gas flowing into the gas inlet from the nozzle of the flying syringe, but is provided with a device to detain the latex tube Since the latex tube escapes from the nozzle due to the high pressure gas injected from the gas outlet hole of the nozzle, there is a problem that the liquid cannot be injected smoothly. When peeling from the nozzle occurs, the latex tube is peeled from the nozzle Explosive gun gas flows smoothly into the gas inlet through the nozzle's gas outlet through the internal pressure of the gun, which remains constant until the flight syringe leaves the gun and pushes the piston to inject the filled chemical. However, when the flight syringe leaves the shell, the pressure in the gas inlet chamber is higher than the pressure of the outside air, so that the high-pressure gas filled in the gas inlet chamber flows back through the gas outlet and discharges to the outside of the nozzle. If the internal pressure of the gas inlet chamber drops, the forward piston stops or, rather, retreats due to the pressure of the chemical. Therefore, the chemical cannot be injected through the bedding. Therefore, even if the flying syringe flies and the bedding hits the target point, the chemical cannot be injected. It also caused problems that the desired purpose could not be achieved. In the case of the animal capture injection bullet, the defective part of the outer syringe of the flying syringe can not be kept closed and closed, and thus the explosive pressure of the gunpowder leaks to the outside when the outer syringe of the flying syringe can not be kept closed and sealed. Attached to the rear end of the nozzle is not to destroy the sealing membrane closing the gas inlet hole, if the sealing membrane is not destroyed, the explosion pressure (gas) of the gunpowder does not flow into the nozzle to prevent the injection of chemical liquids. However, since the firing propulsion device mounted on the rear end of the artillery is integrally formed with the artillery shell like the casing of the gun, the once used artillery could not be used again, thus wasting resources.

The present invention is to provide a gun for a firearms that is further improved to solve the above problems.

The present invention is a screw injection needle equipped with an injection needle to the front end of the fuselage of the fuselage, the injection and injection of the injection fluid and the piston in the front and rear of the fuselage in turn, and the injection liquid injection for injecting the injection liquid filled in the rear end of the fuselage It is an object of the present invention to provide a gun for a firearm, which is screwed into the device and the launch propulsion device for firing the fuselage.

Another object of the present invention is to load the barrel of the syringe directly to the barrel of the firearm, so that the outer surface of the barrel of the syringe is connected to the inner surface of the barrel so that the play does not occur, thereby preventing the posture of the syringe leaving the barrel from being disturbed or deformed. To provide a firearm syringe that can increase the accuracy rate.

Another object of the present invention is the syringe filled with the injection liquid to be able to detach the injection liquid injection to inject the compressed gas to the rear end of the fuselage and by inserting the launch propulsion device in the rear end of the injection liquid injection device, The present invention provides a gun for a firearm, in which the injection function can be shared and can be performed, and a defect such as a syringe cannot be fully performed to prevent the injection of the injection solution.

Still another object of the present invention is to allow the injection needle supporter and the injection liquid injection device mounted on the front and rear ends of the fuselage to be disassembled by screwing, and by inserting a launch propulsion device coupled to the rear of the injection liquid injection device. By making it possible to assemble and use each part, it is possible to collect and use it repeatedly after use.In particular, the injection liquid injection device and the launch propulsion device can be used repeatedly while replacing only the gas compression tank. According to an aspect of the present invention, an injection liquid discharge hole (12) is sealed at a tip of a body (1) in which a piston (16) is built in an inner center thereof. Screw the needle holder (15) provided with the needle (10) closed by (14), but the needle needle (15) and the piston (16) The injection liquid filling chamber 18 formed therein is filled with a conventional injection liquid, and at the rear end of the fuselage 1 is provided with an injection liquid injection device B for pushing the piston 16 forward to inject the injection liquid. In which the syringe (1) is to be shot by the launching propulsion device (C) using the gunpowder 98, the piston 16 inserted into the body 1, The O-rings 40a and 40b are embedded so that the outer surface is in contact with the inner surface of the fuselage 1, and the groove 38 is formed on the rear surface, and the injection liquid injection device B screwed to the rear end of the fuselage 1 is The screw coupling tube 34-1 and the insertion tube 34-2 are integrally formed so that the front and rear cylinders 35-1 and 35-2 are formed on the front and rear surfaces of the seal 34. Insert the front screwing pipe (34-1) into the rear end of the body (1) and screwed together, and the gas outlet (36) is formed in the screwing pipe (34-1) and compressed in front of the inner circumference A screw is coupled to the compressed gas tank 24 filled therein, and the sealing member 34 has a moving plate 31 formed on the front surface of the front cylinder 35-1 and a plate 30 formed on the rear surface of the seal 34. Inserting the movable body 32 to be inserted into the cylinder 35-2 to be slid so as to form a sink 28 in the center of the front surface of the movable plate 31 and embedding the ordinary O-ring 43a on the outer periphery, the injection liquid injection device The launch propulsion device C is directly inserted into and mounted on the rear side of the spraying device C, and the injection propulsion device B forms an insertion tube 2-1 in the first half of the main body 2, thereby injecting the injection liquid injection device B. The tube 74-2 is inserted into the insertion tube 34-2 of the main body 2, and the housing 74 having the gas outlet 76 drilled into the insertion tube 74-1 is screwed into the insertion tube 74-1. Compression gas tank 64 is a screw coupled to the tip of the compressed gas, and the housing 74 is integrally formed with the plate 71 and the diaphragm 70 on the front and rear The movable body 72 is slidably inserted, and the submerged body 68 is formed in the center of the front surface of the compact plate 71 inserted into the insertion tube 74-1, and the outer circumference includes the O-rings 82a and 82b. It is achieved by a syringe for firearms, characterized in that.

1 is a cross-sectional view showing an embodiment of a syringe for firearms according to the present invention;

Figure 2 is a cross-sectional view showing another embodiment of the launching propellant in the syringe for firearms according to the present invention.

<Description of the code | symbol about the principal part of drawing>

A: Syringe B: Injection liquid injection device C: Launch propulsion device 1: Body 2: Body 10: Injection needle 12: Injection liquid discharge hole 14: Seal 14a: Solid body 14b: Elastic ring 16: Piston 17: Packing body 18: Injection liquid Filling room 20; Gas holding chamber 24: Gas compression tank 25: Protrusion 26: Sealing film 28: Destroying 30: Plate 32: Moving body 34: Sealing body 36: Gas inlet 38: Groove 64: Gas compression tank 66: Sealing film 68: Desorption 70: Plate 72: movable body 74: housing 76: gas outlet 84: receiving portion 90: pedestal 92: percussion protrusion 94: jet outlet 96: primer 98: gunpowder.

The above and other objects and features of the present invention will be more clearly understood by the following detailed description based on the accompanying drawings.

1 and 2 is an exemplary view showing a syringe for firearms according to the present invention, Figure 1 is a cross-sectional view showing an embodiment of a syringe for firearms according to the present invention, Figure 2 is a cross-sectional view showing another embodiment to be.

A syringe for firearms according to the present invention includes a syringe (A) having an injection liquid injection device (B) at the rear end and a firing propulsion device for firing the syringe (A) by triggering a firearm as shown in FIG. C).

The syringe (A) is to be screwed to the needle holder (15) provided with a needle (10) at the front end of the cylindrical body (1), but the outer peripheral side and the fuselage of the needle holder (15) The inner tip of (1) is provided with a screw so that it can be combined and separated.

The needle 10 mounted on the needle support mouth 15 closes the sharply formed end portion and drills the injection liquid discharge hole 12 therein, and seals 14 on the outside of the injection liquid discharge hole 12. ) Is slidably fitted, the seal 14 is formed integrally by inserting an elastic ring 14b on the inner circumferential surface of the ring-shaped solid body 14a so that it can be repeatedly used, and the elastic ring as described above. Since the 14b is surrounded by the solid body 14a, the sealing member 14 does not stretch and maintains its elasticity continuously.

When the needle 10 is inserted into the skin of the animal while the injection liquid discharge hole 12 is sealed by the seal 14, the seal 14 slides backward of the needle 10 so that the injection liquid Maintaining an open state to be discharged through the injection liquid discharge hole (12).

The piston 16 is inserted into the fuselage 1 so that the injection liquid filling chamber 18 is formed by keeping the injection needle support hole 15 at a predetermined interval, and the piston 16 is formed on the outer circumference of the packing body 17. O-rings (40a) and (40b) were embedded so that the outer surface was in contact with the inner circumferential surface of the body (1) to maintain a closed state, and the groove (38) was formed at the rear end of the packing body (17) to inject the injection solution described later. The pressure of the gas generated in the apparatus B can be easily received.

At the end of the fuselage 1, an injection liquid injection device B for pushing the piston 16 forward is mounted by screwing so that the gas accommodation chamber 20 is disposed between the piston 16 and the injection liquid injection device B. ) Was formed.

The injection liquid injector B mounted at the end of the body 1 was formed as follows.

The front cylinder 35-1 and the rear cylinder 35-2 are formed by integrally forming the screw coupling tube 34-1 and the insertion tube 34-2 on the front and rear surfaces of the seal 34. The screw parts 45 and 44 were formed on the inner side of the outer surface of the screw coupling pipe 34-1 and the inner circumferential end of the fuselage 1 so as to be disassembled and coupled in the state where the O-ring 42 was fitted. The inner circumferential end of the coupling pipe 34-1 allows the compressed gas tank 24 filled with the compressed gas to be mounted therein, but the inner circumference of the screw coupling pipe 34-1 and the outer circumference of the compressed gas tank 24. The screw parts 46 and 47 are formed on the rear side to correspond to each other, and the gas outlet 36 is formed between the screw part 45 and the screw part 46 in the screw fitting pipe 34-1. And a gap 50 is formed between the compressed gas tank 24 and the fuselage 1, which are coupled to the tip of the screw coupling pipe 34-1, so that the injection solution spray will be described later. When the compressed gas tank 24 is destroyed by the teeth B, the compressed gas filled in the compressed gas tank 24 flows into the gas receiving chamber 20 through the gas outlet 36 and the gap 50. It can be easily introduced.

The sealing member 34 is slidably inserted into the movable body 32, which is formed integrally with the movable plate 31 and the diaphragm 30 on the front and rear surfaces, but the movable plate 31 is inserted into the front cylinder 35-1. And the diaphragm 30 is inserted into the rear cylinder 35-2, and in particular, the center of the front surface of the movable plate 31 is formed with a sink 28, and the outer circumference is an inner circumferential surface of the screw coupling pipe 34-1. O-rings 43a and 43b were embedded so as to be brought into close contact with each other and to maintain a closed state.

The rear side of the injection liquid injection device (B) configured as described above was to be able to directly install the firing propulsion device (C).

Propulsion propulsion device (C) forms an insertion tube (2-1) at the tip of the main body (2) to be inserted into the insertion tube (34-2) formed in the sealing body 34 of the injection liquid injection device (B) At the end of the main body 2, the insertion tube 74-1 is integrally formed at the front end of the main body 2 so as to couple the housing 74 to the inner end of the main body 2 and the outer periphery of the housing 74. 77). (78) were formed correspondingly so that they could be disassembled in the state where the O-ring 81 was fitted.

Compression gas tank 64 is mounted to the front of the insertion tube (74-1) formed integrally on the front of the housing 74 so that the receiving portion 84 is formed inside the insertion tube (74-1), Screws 79 and 80 were formed to correspond to the inner circumferential front end of the pipe 74-1 and the outer circumferential end of the compressed gas tank 64 so as to be disassembled and coupled. A gap 86 is formed between the outer circumference of the tank 64 and the inner circumference of the main body 2, and a gas outlet 76 is formed in the insertion pipe 74-1 serving as the accommodation portion 84. When the compressed gas tank 64 was destroyed by the moving body 72 described, the compressed gas was easily allowed to flow out into the gap 86 through the gas outlet 78.

The housing 74 is slidably inserted into the movable body 72 formed integrally with the plate 71 and the plate 70 on the front and back, but the plate 71 is inserted into the insertion tube 74-1. In the center of the front face of the contact plate 71, the sunken 68 was integrally formed, and O-rings 82a and 82b were fitted to the outer circumference.

On the other hand, the embodiment illustrated in Figure 2 is different from the structure of the launch propulsion device (C) and the rest was formed in the same manner as described in the embodiment of FIG.

The launch propulsion device C illustrated in FIG. 2 forms an insertion tube 2-1 in the first half of the main body 2 so that the injection propulsion device C can be closely inserted into the insertion tube 34-2 of the injection liquid injection device B. And equipped with a primer (96) at the end of the main body (2), the ejection opening (94) therein is mounted inside the pedestal (90) and the ordinary gunpowder (98) formed with a projection (92) protruding from the inside Screw portions 97 and 99 were formed on the inner circumferential front end of the main body 2 and the outer circumference of the pedestal 90 so as to be screwed together.

The operation relationship will be described below.

The firearm syringe illustrated in FIG. 1 is used as follows.

Although not specifically illustrated in the syringe for the firearms illustrated in FIG. 1, a target object such as a criminal suspect or an animal is generally used in the same manner as a method of using a firearm in a state of being loaded in a barrel of a firearm such as an air gun, a shotgun, and a pistol. When the trigger is pulled and triggered in the aimed state, the ball advances and strikes the diaphragm 70 formed on the moving body 72 of the launch propulsion device C.

When the ball hits the diaphragm 70, the plate 71 accommodated in the receiving portion 84 together with the moving body 72 is rapidly advanced. When the plate 71 moves forward, the plate 70 is formed on the front surface thereof. The submerged 68 destroys the compressed gas tank 64 mounted on the insertion pipe 74-1. In the destroyed compressed gas tank 64, the compressed gas is discharged to the receiving portion 84 at high pressure. The high pressure gas introduced into the receiving portion 84 is introduced into the body 2 while being discharged into the gap 86 through the gas outlet 76.

The gas of high pressure flowing into the main body 2 pushes the diaphragm 30 of the injection liquid injection device B with a strong force, and the diaphragm 30 moves forward in the rear cylinder 35-2. When the moving body 32 inserted into the sealing body 34 and the sealing plate 71 inserted into the front cylinder 35-1 is advanced at the same time, when the moving plate 31 is advanced, the sunk integrally formed on the front thereof 28 causes the compressed gas tank 24 to be destroyed.

At the same time, when introduced into the main body 2, the syringe A including the fuselage 1 and the injection liquid injection device B mounted at its end is strongly fired by the high pressure gas which flows in, The fired syringe A escapes the muzzle and is flying while maintaining a strong force.

On the other hand, if the compressed gas tank 24 is destroyed by the high-pressure gas generated in the launch propulsion device C, the compressed gas filled in the compressed gas tank 24 is discharged into the interior of the front cylinder 35-1. The compressed gas to be discharged and discharged is discharged into the gap 50 through the gas outlet 36 and flows into the gas receiving chamber 20. The piston 16 is advanced by the high pressure gas flowing into the gas receiving chamber 20. Since the grooves 38 are formed on the rear surface of the piston 16, the high-pressure gas flowing therein is collected without scattering. Piston 16 is easily advanced because it is received at one time.

As described above, when the piston 16 moves forward and starts to push the injection liquid filled in the injection liquid filling chamber 18, the syringe A that is flying closes to the target object, and the needle 10 of the syringe A When inserted into the skin, the seal 14 closing the injection liquid discharge hole 12 slides inwardly of the injection needle 10 to open the injection liquid discharge hole 12, and the injection liquid discharge hole 12 The opened needle 10 is inserted deep into the flesh of the target object, and the injection liquid filled in the injection liquid filling chamber 18 is injected into the injection liquid discharge hole 12 by advancing the piston 16. Will penetrate the.

On the other hand, as illustrated in FIG. 2, a gun-gun syringe in which gunpowder 98 is filled in the firing propulsion device C mounted on the rear end of the syringe A is also in the same manner as described in the embodiment of FIG. 1. Will be used.

With the gun syringe loaded in the barrel of the firearm, the trigger moves forward when the trigger is triggered while aiming at a target object such as a criminal suspect or an animal in the same way as a gun. The primer 96 is formed at the end of the main body 2, and when the ball strikes the primer 96, the gunpowder 98 is filled inside the main body 2 together with the primer 96. At the same time, it explodes, and the powerful gas generated when the explosive powder 98 explodes is formed in the rear cylinder 35-formed in the insertion tube 2-1 of the injection liquid injector B through the ejection opening 94 of the pedestal 90. It is introduced into the tip of 2).

The diaphragm 30 is advanced in the rear cylinder 35-2 by the high pressure gas introduced into the front end of the rear cylinder 35-2, and at the same time, the insertion pipe 2-1 of the launch propulsion device C is provided. The insertion tube 34-2 of the sealing body 34 inserted in the) is out of the insertion tube 2-1 of the launching propulsion device C, and thus the syringe A is exploded by the explosive powder 98. Fired by the high pressure gas generated. The fired syringe A escapes the muzzle and is flying while maintaining a strong force.

In the following, the subsequent process will operate in the same manner as the syringe for the firearm illustrated in FIG. 1, and the subsequent operation will be omitted.

As described above, the firearm injection syringe used to load the firearm is recovered from the gun propulsion device (C) remaining in the barrel of the firearm or discharged out of the barrel, and the syringe (A) plugged into the target object is also recovered and reused.

That is, the recovered syringe (A) is separated from the needle injection stopper (15) and the injection liquid injection device (B) which is screwed in the body (1) and disinfects in the usual way together with the body (1), In the sterilized fuselage 1, the piston 16 is retracted by using a predetermined mechanism to fill the injection liquid in the injection liquid filling chamber 18 and to mount the injection needle support hole 15. The injection liquid injection device B The retracted conveying body 32 is retracted, and a new compressed gas tank 24 is attached to the screw coupling pipe 34-1. In the launching propulsion device C, the housing 74 is removed from the main body 2. Separately, the moving body 72 is retracted and a new compression tank 64 is attached to the insertion tube 74-1, and these may be combined and then reused.

In addition, the firing propellant C filling the main body 2 with the gunpowder 98 separates the pedestal 90 from the main body 2 and fills and separates a new primer 96 and the gunpowder 98 inside the main body 2. The pedestal 90 is combined. The remaining syringes (A) are carried out in the same manner as described above, and then combined and reused.

Injector for firearms according to the present invention is capable of combining and dispensing the injection needle supporter with the injection needle at the front end and the rear end of the fuselage filled with the injection liquid and the injection propulsion device at the rear side of the injection liquid injection device. Since it can be separated, it can be recovered and disinfected after use, and the parts can be exchanged and reassembled and reused. Therefore, the cost of use can be reduced, and when used, the body of the syringe is fired directly from the barrel. In addition, the syringe can be inserted into the injection liquid injection device and the launching propulsion device at the rear end of the fuselage to perform a function of dividing the firing function and the injection function, so that the injection cannot be injected.

Claims (2)

At the distal end of the fuselage 1 having the piston 16 in the inner center thereof, the injection needle dispensing hole 15 is provided with an injection needle 10 in which the injection liquid discharge hole 12 is closed by the seal 14. The injection liquid filling chamber (18) formed between the needle needle support (15) and the piston (16) is coupled to each other, and the injection liquid is filled in a normal injection liquid, and the piston 16 is pushed forward to the rear end of the fuselage (1). In the injection liquid injection device (B) to be injected to form a syringe (1), the syringe (1) is to be fired by the firing propulsion device (C) using the gunpowder 98, The piston 16 inserted into the body 1 is embedded with ordinary O-rings 40a and 40b on the outer circumference so that the outer body abuts on the inner surface, and the groove 38 is formed on the back. And The injection liquid spraying device B screwed to the rear end of the body 1 includes a screw coupling tube (35-1) and (35-2) formed at the front and rear surfaces of the sealing body (34). 34-1) and the insertion tube 34-2 are integrally formed so that the front screw coupling tube 34-1 is inserted into the rear end of the fuselage 1 to be screwed to the screw coupling tube 34-1. A gas outlet 36 is formed, and the compressed gas tank 24 in which the compressed gas is filled in the inner circumferential front surface is screwed together, and the moving plate 31 formed on the front surface is sealed in the front body 35-1. The plate 30 formed at the rear side of the movable plate 32 is inserted into the rear cylinder 35-2 so as to slide. Buried the O-ring (43a) of, The injection propulsion device C is directly inserted into and mounted on the rear side of the injection liquid injection device B. The injection propulsion device B forms an insertion tube 2-1 in the first half of the main body 2, thereby providing an injection liquid injection device. (B) is inserted into the insertion tube (34-2) closely, and the rear end of the main body (2) is screwed into the housing 74 in which the gas outlet (76) is drilled in the insertion tube (74-1) The tip of the 74-1) is screwed into the compressed gas tank 64 is filled with the compressed gas, the housing 74 has a movable body 72 formed integrally with the plate 71 and the diaphragm 70 on the front and rear It is slidably inserted, but the immersion 68 is formed in the center of the front surface of the plate 71 inserted into the insertion tube (74-1), and the outer circumference includes an embedded O-ring (82a) (82b) Firearms syringe. According to claim 1, Propulsion propulsion device (C), the inside of the main body 2 is loaded with a conventional primer 96 and gunpowder 98, the front 90 is coupled to the pedestal 90 through which the spout 94 is drilled In this case, the insertion tube 2-1 is formed in the first half of the main body 2, and is inserted directly into the insertion tube 34-2 of the injection liquid injector B, and the percussion protrusion is provided on the inner surface of the pedestal 90. A gun for firearms, characterized in that (92) is formed.