JPH0478918B2 - - Google Patents

Description

[Detailed Description of the Invention] [Field of Industrial Application] The present invention relates to a method and device for operating a gas piston in a self-loading firearm operated by gas pressure, and is applicable to civilian firearms as well as high-speed firearms. This is particularly effective when applied to military firearms that fire continuously.

[Prior art]

As is well known, the method of operating self-loading firearms (hereinafter referred to as firearms) using gas pressure is that the firing gas in the gun cavity is introduced into the cylinder, and the gas pressure causes the gas piston fitted in the cylinder to move. The slide is suddenly retracted and the slide is struck directly by the retracting gas piston or indirectly through the piston rod,
The slide is designed to move backward to a predetermined position while pressing the restoring spring by the impact force of the gas piston, and then return to its seat by being pushed by the restoring spring. Needless to say, the evacuation, loading, and reassembly of the engine were carried out by
The end surface of the gas piston, on which gas pressure acts, has a smooth circular shape and has a relatively large area sufficient to accommodate the slide.

[Problem to be solved by the invention]

Considering the rear seat of the slide using the gas piston in the conventional firearms mentioned above, in the conventional device, the high pressure gas introduced into the cylinder causes the gas piston to retreat instantaneously and the slide is struck, and the slide is struck by the gas piston. The high-pressure gas inside the cylinder is discharged from the exhaust port immediately after the piston hits the slide.

In this way, the slide in a conventional firearm is rearward due to the inertia caused by the impact force of the gas piston, so the initial velocity at the beginning of the rearward seat is the highest, and the empty cartridge in the chamber is rapidly ejected. become. As is well known, empty cartridges stick to different degrees inside the cartridge chamber, so if they are suddenly pulled out, an excessive load will be placed on parts such as the extractor, which will not only damage them and reduce the number of lives. In some cases, extraction may become impossible. This is a fatal flaw in firearms.

Furthermore, in conventional firearms, the rear seat of the slide relies on inertia, so it is difficult to reduce the weight of the rear seat body including the bolt, which hinders the reduction in the weight of the entire firearm. The impact when the engine section operates is increased. Additionally, conventional firearms emit gas from their cylinders, so if they are fired repeatedly from inside a troop transport vehicle or indoors, they can become full of exhaust gas.

[Means to solve the problem]

In view of the above-mentioned drawbacks of conventional firearms, the present invention makes the retraction force of the gas piston weak during a predetermined initial stroke of retraction and becomes strong at the end of the retraction stroke,
This eliminates the above-mentioned drawbacks of the conventional method.

〔Example〕

In Fig. 1, 1 is a gun barrel, 2 is a slide located at the rear of the gun barrel 1, and 3 is a cylinder provided along the gun barrel 1. These parts are assembled in their respective predetermined places in the same manner as before. ing. In the illustrated example, the retaining tube 5 of the restoring spring 4 is attached to the front surface of the slide 2, but this is not directly related to the gist of the present invention, and will be described in detail later without attaching the retaining tube 5. gas piston 6 and slide 2
The object of the present invention can also be achieved by connecting the two with an operating rod.

Next, the gas piston 6 and cylinder 3, which are the gist of the present invention, will be explained. As shown in the figure, the gas piston 6 consists of a small diameter part 7 with a small diameter located on the muzzle side (right side in the figure) and a large diameter part 8 with a large diameter located on the breech side (left side in the figure). The length of the small diameter portion 7 is such that when the slide 2 is rearwardly seated as described below, the extractor (not shown) of the liquid bottom 9, which is rearwardly seated together with the slide 2, sticks to the chamber 10. It is preferable to set the length to be equal to or longer than the piston stroke required to remove the stickiness of the medicinal shell 11.

Next, as shown in the figure, the cylinder 3 consists of a small diameter part 12 and a large diameter part 13 corresponding to the gas piston 6, and the gas piston 6 has a rear end surface 3a at the front end of the holding cylinder 5, as shown in FIG. The cylinder 3 is fitted into the cylinder 3 so as to be in contact with the cylinder 3. In this embodiment, the gas piston 6 is a single float type, and the diameter changes in two steps, large and small, and the transition from small to large is stepped, but the present invention is not limited to this. Alternatively, the gas piston 6 may have an operating rod as described above, the diameter may change in two or more stages, and the transition portion of the diameter change may also be in an obliquely tapered shape. Needless to say,
Naturally, if the shape of the gas piston 6 changes, the shape of the cylinder 3 will also change accordingly.

When the fired warhead 14 passes through the gas leak hole 15, the firing gas in the gun cavity 16 flows into the cylinder 3.
The gas piston 6 is introduced into the small diameter part 12 of the
The retreating force F (Kg) that moves backward while pressing is F=P・AP P・Gas pressure (Kg/cm ² ) A・Pressure receiving area of the piston (cm ² ) As mentioned above, the gas piston 6 used in the present invention consists of the small diameter part 7 and the large diameter part 8, and the pressure receiving area A that is initially affected by the gas pressure is small.
During the initial stroke when the gas piston 6 begins to retreat, it retreats slowly, and the slide 2 naturally retreats in the same way, so the cartridge 11 is pulled out from the chamber 10 in a so-called "gradual manner". It is slow-moving, reliably extracted, and eliminates the disadvantages caused by impactful extraction as in the conventional firearms mentioned above.

As described above, the slide 2 is pushed back by the gas piston 6, and the gas piston 7 retreats to the position shown in FIG. Then cylinder 3
The gas pressure inside also acts on the large diameter portion 8, and since the pressure-receiving area A in the above formula becomes large, naturally the retraction force F also becomes large, and the slide 2 quickly rears to a predetermined position and then springs back. 4 returns to the state shown in Fig. 1, and the slide 2 returns to its seat, performing the above-mentioned operations and preparing for firing the next bullet. At this time, the remaining gas in the cylinder 3 is released from the muzzle. more excreted.

[Effects] The present invention achieves the remarkable effects described below by rearranging the slide with the gas piston as detailed above, and is extremely useful without the drawbacks of conventional firearms. It is. That is,
The effects of this application are as follows: (1) Since the initial movement of the slide is slow and takes a back seat,
The impact force applied to the play seat, extractor, etc. is weakened, preventing damage and extending the service life. (2) Since the extractor is not drawn suddenly, the extractor function is stable and reliable. (3) The rear seat of the slide is not affected by inertia, but the entire stroke of the rear seat is pushed by a gas piston, which reduces the weight of the rear seat. (4) Reduces the impact when the action operates. As a secondary effect, since the exhaust gas is discharged through the muzzle, it is possible to prevent the exhaust gas from filling the interior of the vehicle.

[Brief explanation of the drawing]

The drawings show an embodiment of the present invention, with FIG. 1 being a sectional view of the main parts, and FIG. 2 being a sectional view illustrating the operation. 1... Barrel, 2... Slide, 3... Cylinder, 6
...Gas piston, 7,12...Small diameter part, 8,13...
Large diameter part.

Claims (1)

[Claims] 1. Introducing the propellant gas into the cylinder, retracting the gas piston by the introduced gas pressure, ejecting the gas,
In an automatic loading firearm operation method using gas pressure operation for loading and locking the engine part, the retraction force of the retracting gas piston is weak during a predetermined initial stroke of retraction, and then becomes strong. How a gas piston works. 2 Introduce the firing gas into the cylinder, and the introduced gas pressure causes the gas piston to retreat, expelling the gas,
In an automatic loading firearm operated by gas pressure for loading and locking the mechanism, the gas piston is configured to have a plurality of different diameters, with the diameter being smallest at the muzzle side and largest at the breech side. An actuating device for a gas piston in a firearm, the gas piston being fitted into a plurality of cylinders corresponding to the gas piston and having different diameters. 3. A gas piston in a firearm according to claim 2, wherein the gas piston and the cylinder have two different diameters: a small diameter portion on the muzzle side and a large diameter portion on the breech side. actuation device. 4. The operating device for a gas piston in a firearm according to claim 2 or 3, wherein the transition portion between the gas piston and the cylinder having different diameters is stepped. 5. The actuating device for a gas piston in a firearm according to claim 2 or 3, wherein the transition portion between the gas piston and the cylinder has a tapered shape.