ITMI20090409U1 - DEVICE FOR CONTINUOUS SPARING OF THE BORES OF A GAS POWERED GUN. - Google Patents

Description

DEVICE FOR CONTINUOUSLY FIRE THE PROJECTILES OF A GAS POWERED PISTOL

BACKGROUND OF THE INVENTION

Sector of the invention.

The present invention relates to a device adapted to continuously fire harmless bullets (hereinafter simply referred to as bullets) from a gas-powered pistol. More particularly, the present invention relates to a device for firing projectiles continuously by means of the percussion of the rear hammer.

Conventional gas-fired guns have a complicated structure and a high production cost. Furthermore, the conventional device achieves the continuous firing of the bullets using a sliding carriage that is not able to simulate the firing operation of a real gun. For this reason, manufacturers in the sector have presented various embodiments in which a valve body is located behind an automatic bullet loading device and in communication with a gas outlet pipe of a high pressure gas cylinder. The rear end of the valve body is provided with an opening to which a rearward extending sleeve is clamped. The internal part of the valve body is equipped with a spring adjacent to a hollow valve tube for escaping the gas which penetrates a through hole. An inlet port communicating with the hollow channel of the gas escape valve tube is hermetically separated from the internal space of the valve body. A piston is located behind the sleeve and fixed to the sliding carriage. When the trigger is pressed, the valve gas escape tube instantly moves forward or backward, opening the passage between the internal space of the valve body and the inlet port of the valve gas escape tube. At this point the high-pressure gas is discharged from the high-pressure gas cylinder to enter the channel of the gas escape valve tube by means of the gas escape tube, firing a bullet from the barrel. At the same time, part of the high-pressure gas exhaust jet passes through the through hole of the sleeve, thereby forcing the piston and sliding carriage to move backward. As a result, the elastic force generated by a spring by means of the backward movement of the sliding carriage brings the piston back to its original position. If necessary, a hammer can be pressed and rotated into a "ready to shoot" position where the hammer is held by an elastic catch. With the aforementioned device the continuous firing of the bullets can be achieved with a simplified structure and a low production cost and the operation of a real gun can be simulated.

Description of the prior art.

There are many types of gas-powered pistols for firing harmless bullets (hereafter referred to simply as bullets) and these gas-powered pistols have become a tool for testing shooting skill or playing a "fight" between two sides. A gas-powered pistol is operated using high-pressure gas to fire a bullet from the barrel of the gun. That is to say, the gas-powered pistol is made with a housing chamber for housing a high-pressure gas cylinder and a valve tube for delivering the gas from the cylinder in a controlled manner, thus firing the bullet from the barrel. However, the user must manually pull the hammer backwards in order to bring it to a "ready to fire" position and to be able to fire another bullet again. Therefore it is inconvenient to operate such a gas-powered pistol in single firing mode and the firing speed of the bullets is so slow that such gas-fired pistols are unable to meet the users' requests. Therefore, a gas-powered pistol was created for continuous firing mode in which the hammer hammer is pushed backward by a connecting rod to achieve continuous firing of the bullets. However, due to its complicated structure and its numerous components, assembling and producing such a gas-powered pistol for continuous firing is expensive, laborious and a waste of time. Also, in the gas-powered pistol, where the barrel moves backward to generate the continuous firing of the bullets, since the slide does not slide backwards, it cannot simulate the firing operation of a real pistol. Therefore, it is a real need to propose a new gas-fired gun to overcome the drawbacks of the known art.

SUMMARY OF THE INVENTION

The present invention has been realized in consideration of the above. The inventor proposes a new device for continuously firing bullets from a gas-powered pistol based on his experience and research.

The object of the present invention is to provide a device for the continuous firing of the bullets of a gas-powered pistol, in which a valve body is located behind an outlet of an automatic bullet loading device and in communication with a discharge tube. air from a high-pressure cylinder.

A rear end of the valve body has an opening to which a sleeve is attached to the rear. The internal part of the valve body has a spring adjacent to a valve tube for the escape of the gas which enters a through hole. An inlet port communicating with the gas outlet valve tube channel is hermetically separated from the internal space of the valve body. A piston is located behind the sleeve and is fixed to the sliding carriage. When the trigger is pressed, a barrel is moved backwards in order to push the valve tube for the escape of the gas to move instantly backwards, opening the passage between the internal space of the valve body and the inlet hole of the valve tube. gas leaking. At this point the high-pressure gas is discharged from the high-pressure gas cylinder to enter the channel of the gas escape valve tube by means of the gas escape tube, firing a bullet from the barrel. At the same time, part of the high-pressure gas exhaust jet passes through the through hole of the sleeve, thereby forcing the piston and sliding carriage to move backward. As a result, the elastic force generated by a spring by means of the backward movement of the sliding carriage brings the piston back to its original position, thus simulating the firing operation of a real gun. If necessary a hammer can be pressed to rotate it into a "ready to shoot" position where the hammer is held by an elastic catch. With the aforementioned device the continuous firing of the bullets can be achieved with a simplified structure and a low production cost and the operation of a real gun can be simulated.

The object of the present invention is also to provide a device for the continuous firing of the bullets of a gas-powered pistol, in which a valve body is located behind the outlet of an automatic bullet loading device and in communication with a tube. air escaping from a high-pressure cylinder.

A rear end of the valve body has an opening to which a sleeve is clamped at the rear. The internal part of the valve body has a spring adjacent to a valve tube for the escape of the gas which penetrates an internal space of the valve body. An inlet port communicating with the gas outlet valve tube channel is hermetically separated from the internal space of the valve body. A piston is located behind the sleeve and fixed to the sliding carriage. A central part of the piston has a pin that can be moved forward and backward. A front edge of the pin is brought into contact with one end of the gas escape valve tube. A portion of the dog's percussion causes one rear end of the pin to be pushed. When used, the hammer is pressed so as to rotate up to a "ready to shoot" position where at least one flange for controlling the movement of the hammer is engaged with an elastic stop thereby making the hammer temporarily immobile.

When the trigger is pressed, a connecting rod is displaced thereby causing displacement of the spring stop. In this way, the elastic stop will be disengaged from the hammer control flange causing a striking portion of the hammer to strike the piston pin. As a result, the pin moves forward so as to cause the gas escape valve tube to consequently move forward. At this instant, the high pressure gas is discharged from the cylinder and enters the gas outlet valve tube through the gas outlet tube, firing a bullet from the barrel. At the same time, part of the high-pressure gas discharge jet passes through a through hole in the sleeve causing the piston to move backwards. The hammer is pushed backwards so as to rotate to a "ready to shoot" position where the hammer is held by an elastic stop. The elastic force of a spring generated by the rearward traction of the sliding carriage causes the piston to return to its original position. With the device described above, the continuous firing of the projectiles is obtained with a simplified structure and a reduction in costs.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a sectional side view showing a first embodiment of the present invention before firing a projectile;

FIG. 2 is a sectional side view showing a first embodiment of the present invention when the trigger is pressed;

FIG. 3 is a sectional side view showing a first embodiment of the present invention at the moment of firing the projectile;

FIG. 4 is a sectional side view showing a first embodiment of the present invention after firing the projectile;

FIG. 5 is a perspective exploded view showing a second embodiment according to the present invention;

FIG. 6 is a sectional side view showing the second embodiment according to the present invention before firing the projectile;

FIG. 7 is a sectional side view showing the second embodiment according to the present invention when the dog is pressed;

FIG. 8 is a sectional side view showing the second embodiment according to the present invention at the moment of firing the projectile;

FIG. 9 is a sectional side view showing the second embodiment according to the present invention after firing the projectile and the piston pressing the hammer.

DETAILED DESCRIPTION OF THE INVENTION

The characteristics and technical contents of the present invention will be described with reference to the attached drawings.

Refer to Figures 1 to 4. The present invention provides a device for the continuous firing of projectiles from a gas-powered pistol, comprising a valve body 1, a sleeve 2, a piston 3 and a sliding carriage 5. The valve body 1 is located behind an outlet 60 of a means 6 for the automatic loading of the projectiles and in communication with an outlet pipe 70 of the air of a cylinder 7 of high pressure gas. The rear end of the valve body 1 has an opening within which the rearwardly extending sleeve 2 is clamped. The inner part of the valve body 1 has a spring 10 resting against a gas outlet valve tube 12 which penetrates a through hole 20 in the internal space of the valve body 1. A channel 122 of the gas outlet valve tube 12 is in communication with an inlet hole 121 which is hermetically separated from the internal space of the valve body 1. The piston 3 is located behind the sleeve 2 and fixed to the sliding carriage 5. Furthermore, as shown in Figures 5 to 9, a hammer 4 is mounted behind the piston 3. The center of the piston 3 is provided with a pin 30 which can be moved forward and backward. A front edge is brought into exact contact with one end 120 of the gas outlet valve tube 12. A percussion portion 40 of the hammer 4 causes the thrust of the terminal part of the pin 30. The hammer 4 has at least one control flange 42 able to engage with an elastic stop 41, so as to temporarily block the hammer 4.

Figures 1 to 4 show a first embodiment according to the present invention in which the continuous firing of the bullets is produced by the movement of the barrel of the gas-powered pistol. When the trigger 8 is pressed the barrel 9 is pushed backwards to cause the valve tube 12 to move the gas outward instantaneously, thereby opening the passage between the internal space of the valve body 1 and the inlet hole. 121 of the gas outlet valve tube 12. At this point the high pressure gas is discharged from the high pressure gas cylinder 7 to instantly enter the valve body 1 through the gas outlet pipe 70. Then the discharged jet of the high-pressure gas immediately enters the channel 122 of the valve pipe 12 for escaping the gas through the inlet hole 121, thus firing a bullet 61 from the barrel 9. At the same time a part of the discharged gas jet at high pressure, it passes through a gap present between the channel 122 or the through hole 20 and the valve pipe 12 for the escape of the gas, thus forcing the piston 3 and the sliding carriage 5 to move backwards. As a result, the elastic force of a spring 11 generated by the rearward movement of the sliding carriage 5 causes the piston 3 to return to its original position. Therefore, the rapid movement of the sliding carriage 5 backwards and forwards has the effect of simulating the firing operation of a real pistol.

Figures 5 to 9 show a second embodiment of the present invention in which the continuous firing of the bullets is generated by a rear percussion hammer 4. The user can press the hammer 4 backwards to a "ready to fire" position in which a control flange 42 is engaged with an elastic stop 41 to render the hammer 4 temporarily immobile. Then the user presses the trigger 8 to move a connecting rod, thereby causing the movement of the elastic stop 41. In this way, the elastic stop 41 will be disengaged from the control flange 42 of the hammer 4 causing the percussion of the pin 30 of the hammer. piston 3 by a percussion portion 40 of the hammer 4. As a result, the pin 30 moves forward to consequently push the gas escape valve tube 12 forward. At this point, high pressure gas is discharged from the cylinder 7 to instantly enter the valve body 1 through the gas outlet pipe 70. Then the discharged high pressure gas jet immediately enters the channel 122 of the gas outlet valve tube 12 through the inlet hole 121, firing a bullet 61 from the barrel 9. At the same time a part of the discharged gas jet at high pressure, it passes through a gap present between the channel 122 or the through hole 20 and the valve pipe 12 for the escape of the gas, and then passes through the through hole 20 of the sleeve 2, thus forcing the piston 3 and the sliding carriage 5 to move backwards. The hammer 4 is forced to rotate up to the "ready to shoot" position where the hammer 4 is held by the elastic stop 41. As a result, the elastic force of a spring 11 generated by the backward movement of the sliding carriage 5 causes the return of piston 3 to its original position. Together the high pressure gas and the spring 10 push the valve tube 12 of U1652 - 13 - DR. ING. GIOVANNI ARENA - MILAN

gas leak to quickly move forward. With the aforementioned device, the continuous firing of the projectiles can be achieved by means of a simplified structure and reduced production costs.

The structure according to the present invention is unprecedented on the market or in any publication. The present invention is capable of firing projectiles continuously by means of a simplified structure and reduced production costs. Furthermore, it is able to simulate the operation of a real gun. Therefore, the present invention, having improved effects and overcoming the drawbacks of the known art, satisfies the validity requirements of a utility model patent.

Although the preferred embodiments according to the present invention have been described in detail for illustrative purposes, various modifications and improvements can be made without departing from the spirit and scope of the invention.

Claims (2)

CLAIMS 1. Device for the continuous firing of projectiles from a gas-powered pistol, comprising a valve body (1), a sleeve (2), a piston (3) and a sliding carriage (5), in which: the valve body ( 1) is located behind an outlet (60) of a means (6) for the automatic loading of the bullets and in communication with an air outlet pipe (70) of a high pressure gas cylinder (7), a rear end of the valve body (1) has an opening, the sleeve (2) is fixed to the opening of the valve body (1), an internal part of the valve body (1) has a spring (10) resting against a valve pipe (12) for escaping the gas present in an internal space of the valve body (1), the gas exit valve tube (12) moves backwards when pushed by a backward movement of a barrel (9), the gas exit valve tube (12) is equipped with a channel (122) in communicating with the internal space of the valve body (1) and an inlet hole (121) in communication with the channel (122), the gas outlet valve tube (12) is hermetically separated from the internal space of the valve (1), and the piston (3) is located behind the sleeve (2) and is fixed to the sliding carriage (5). 2. Device for the continuous firing of projectiles from a gas-powered pistol, comprising a valve body (1), a sleeve (2), a piston (3), a hammer (4) and a sliding carriage (5), in which : the valve body (1) is located behind an outlet (60) of a means (6) for the automatic loading of the projectiles and in communication with an air outlet pipe (70) of a cylinder (7) of high pressure gas, the rear end of the valve body (1) has an opening, the sleeve (2) is fixed to the valve body opening (1), an inner part of the valve body (1) has a spring (10) resting against a valve pipe (12) for the escape of the gas present in an internal space of the valve body (1), the valve tube (12) that escapes the gas moves forward when pushed, the valve pipe (12) for gas outlet is equipped with a channel (122) in communication with the internal space of the valve body (1) and an inlet hole (121) in communication with the channel (122), the pipe gas escape valve (12) is hermetically separated from the internal space of the valve body (1), the piston (3) is located behind the sleeve (2) and is fixed to the sliding carriage (5), the center of the piston (3) has a pin (30) which can be moved forwards and backwards, a front edge of the pin (30) is brought into contact with one end (120) of the gas outlet valve tube (12), a portion of percussion (40) of the hammer (4) causes the thrust of an end part of the pin (30), and the hammer (4) has at least one control flange (42) for engaging with an elastic stop (41), thereby making the hammer (4) temporarily immobile.