CZ30347U1 - A mechanism of locking a gun breech - Google Patents

Description

Technical field

The technical solution relates to a mechanism for locking the breech with a stationary barrel fixed in a frame on which the breech, especially a semi-automatic pistol, is mounted with the possibility of reciprocating forward and backward movement.

BACKGROUND OF THE INVENTION

Known CZ-83 pistol manufacturer Česká zbrojovka Uherský Brod, Czech Republic (www.czub.cz), SIG-Sauer P232 pistol manufacturer JP Sauer & Sohn GmbH, Deutschland (www.sauer-waffen.de; www.sig-sauer. de).

These are self-loading pistols that have a barrel immovably fixed on the frame. When firing, locking the channel mainly until the bullet flies out of the channel and the pressure of the dust gases is carried out by the force of inertia of the massive bolt and the force of the return spring, keeping the bolt in the extreme forward position during the firing.

An important feature of the guns is the high accuracy of fire, as the barrel is firmly mounted in the gun frame, as well as the simplicity of construction.

A drawback of pistols with such a bolt locking system is the inability to use high power cartridges, since this would require a considerable increase in bolt weight, which would increase the gun's overall weight and greatly impact the bolt d slide when reaching its extreme rearward position after firing. .

The task of the Technical Solution is to create a mechanism of locking the slide during the firing of a semi-automatic pistol with a fixed barrel fixed in the frame, which allows the use of high-performance cartridges for firing without increasing the weight of the slide.

The essence of the technical solution

Said object is solved by a mechanism of locking the end of the weapon according to the technical solution, which consists in that under the barrel is rotatably mounted on the frame rear lever and at the end is rotatably mounted front lever, whose free end is rotatably connected with free end of the rear lever. the internal angle between the rear lever and the front lever is less than 180 ° and the rear lever, the front lever and the breech are coupled to the return spring acting on the breech in the direction of its forward extreme position.

During the shot, the recoil energy seeks to reduce the internal angle between the front lever and the rear lever and to move down their common axis, while the recoil force in the initial phase of the shot is resisted by the inertial inertial force of the slide, the resilient force of the return spring, and the force of friction in connection and bearing of levers. Only after overcoming these forces will the conclusion begin to move backwards. This ensures the possibility of firing ammunition with high performance while maintaining a small weight of the breech and the entire weapon.

The exact value of the internal angle is determined by the power of the cartridge and the design of the particular pistol or other weapon design.

In a preferred embodiment, the rear lever is mounted on the rear axis mounted in the front of the frame below the main and the front lever is mounted on the front axis mounted in the front of the breech under the main, the rear lever and the front lever being rotatably connected by a common axis.

To facilitate the handling of the weapon before the first shot, grip handles are provided on both sides of the common rear lever and front lever axles for gripping the shooter's fingers while stretching the breech.

In one particular embodiment, the bolt return spring is disposed between the rear lever and the front lever and is formed by two arms of which the rear arm is supported from above by the rear lever and the front arm is supported from above by the front lever.

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CZ 30347 Ul

In this case, it is advantageous if the return spring is mounted on a common axis of the rear lever and the front lever.

In another alternative embodiment, the return spring is mounted between the rear lever and the front of the gun frame.

In another embodiment, the return spring is mounted on the barrel, which serves as a guide and is supported by one end against the frame and the other end against the front end of the breech.

Alternatively, the return spring is mounted below the barrel on a separate guide parallel to the barrel and is supported by one end against the frame and the other end against the front of the breech.

Clarification of the drawing

The essence of the technical solution is schematically illustrated in an exemplary embodiment of a self-loading pistol, where FIG. 1 is an overall view of the gun, the position of the parts of the pistol lock locking mechanism being in the initial state prior to firing; 2 is an overall view of the gun, the position of the parts of the mechanism of locking the conclusion of the gun is after the shot and the slide to the rear end position. Examples of technical solutions

The bolt locking mechanism according to the invention will be described by way of example, but may also be used on other firearms, such as automatic machines, automatic rifles, semi-automatic hunting weapons and machine guns. Only the parts that are directly related to the technical solution and are shown in the drawing will be described.

The pistol in the exemplary embodiment comprises a frame I provided with a handle 2 for holding the pistol with the hands of the shooter. The barrel 3 is fixed in the frame 1, in which the known barrel channel (not shown) is formed. A well-known guide (not shown) is provided on the frame 1, on which a slide 4 capable of moving between its forward position and the rear position is reciprocably mounted.

A rear axle 6 is arranged in the front part of the frame 1 below the main 3, on which the rear lever 5 is mounted with its rear end with the possibility of rotation relative to the frame i. I and by rigidly mounting the rear lever 5 on the rear axis 6, or by rigidly placing the rear axle 6 on the frame I and rotatably mounting the rear lever 5 on the rear axis 6, or rotatably mounting the rear axle 6 on the frame I 6. In a not shown embodiment, the rear axle 6 may be part of the frame I or the rear lever 5.

In the front part of the breech 4 below the main 3 there is a front axle 8, on which the front lever 7 is mounted with its front end with the possibility of rotation relative to the breech 4. 4 and fixed mounting of the front lever 7 on the front axis 8, or fixed mounting of the front axle 8 on the breech 4 and rotatably mounting the front lever 7 on the front axle 8, or 8. In an embodiment (not shown), the front axle 8 may be part of the breech 4 or the front lever 7.

The free end of the front lever 7 is rotatably coupled to the free end of the rear lever 6 by means of a common axis 9 which is movable in the space below the barrel 3 and the breech 4. On both sides, grip handles 91 are formed at the ends of the common axis 9 On the common axis 9 there is also mounted a return spring 10 of the breech 4 with two arms, of which the front arm is supported from above by the front lever 7 and the rear arm is supported from above by the rear lever 5. The common axis 9 is relative to the barrel 3 and 4, the angle between the rear lever 5 and the front lever 7 will be hereinafter referred to as the internal angle between these levers 5 and 7. The arms of the return spring 10 are at the front lever 7 and the rear lever 5 is supported in the opening direction of the levers 7, 5, i.e. in the direction of increasing the internal angle between the front lever 7 and the rear lever 5, whereby the nto the internal angle is always less than 180 °. The force of the return spring 10 keeps the slide 4 in the forward position and acts on the common axis 9 towards the barrel 3.

In a not shown embodiment, the common axis 9 may be part of the rear lever 5 or the front lever 7.

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CZ 30347 Ul

In an alternative (not shown) embodiment, the return spring 10 may be supported on the rear axis 6 and rest one end against the frame 1 and the other end against the rear arm 5, its force acting clockwise, i.e. towards the barrel 3.

In another alternative (not shown) embodiment, the return spring 10 is arranged on the barrel 3, which serves as a guide, the return spring with one end resting on the frame I and the other end on the front part of the breech 4.

In another alternative (not shown) embodiment, the return spring is mounted below the barrel 3 on a separate guide parallel to the barrel 3 and bears one end on the frame 1 and the other end on the front of the breech 4.

Depending on the design of the weapon, other suitable locations for receiving the return spring 10 are also possible, the force of which always acts at the breech 4 in the direction of its extreme forward position.

To charge the pistol, holding the pistol by the handle 2 with one hand, with two fingers of the other hand, grasp the grip handles 91 mounted on the common axis 9, which in the shown embodiment are knurled knobs, and pull them gently down and back to the stop; then let go. In this case, the rear lever 5 rotates counterclockwise on the rear axis 6 and by means of the common axis 9 pulls down and back the front lever 7, which rotates on the front axis 8 connected to the front lower part of the breech 4 and pulls the breech 4 back. The breech 4 reaches its rear end position. The return spring 10, which is supported by both levers 5 and 7, is compressed. Upon release of the grip handles, the return spring 10 begins to forcefully open the levers 5 and 7 apart. The rear lever 5 rotates about a rear axis 6 arranged in front of the stationary frame 1, with the common axis 9 returning to its initial position and moving towards the barrel 3. As a result, the front lever 7 also returns to its initial position and pushes slide 4 forward by pushing through the front axis 6 on its front lower part. During the forward movement, the bolt 4 in a known manner pulls the top charge from the magazine and feeds it into the chamber of the barrel 3 pistols for firing. When the bolt 4 reaches its front end position, it closes the barrel channel 3 by means of a cartridge cartridge. a line with an internal angle of less than 180 °. This will deny the slide 4 before the shot. In this position, the pistol is loaded and ready to fire.

During the shot, the bullet under the pressure of the dust gases moves through the channel barrel 3. At the same time, the dust gases across the ends of the cartridge pushes at the conclusion 4, give him recoil energy and try to push it back. The breech 4, with its front lower part, transmits the dust gas pressure to the front lever 2, through the common axis 9 to the rear lever 5 and through it and the rear axis 5 to the front wall of the stationary gun frame 1. The recoil energy transmitted attempts to reduce the internal angle between the front lever 7 and the rear lever 5, to approach the front axis 8 and the rear axis 6, to move down the common axis 9 and to compress the return spring 10. The recoil forces during the shot which do not allow the slide 4 to be moved back in the initial phase of the shot: the inertial inertia force of the slide 4, the spring force of the return spring W of the slide 4, the spring force of the levers 5 and 7 and their axes 6, 8 and 9; .

During the movement of the bullet through the barrel channel 3, the breech 4 receives sufficient dust gas energy to overcome the resistances of the aforementioned forces which keep the breech 4 in the forward extreme position. As a result, after the bullet has come out of the barrel channel 3, the slide 4 pushes the common axis 9 of the levers 5 and 7 down and begins to move backward, folding the levers 5 and 7 together by reducing the internal angle therebetween and compressing the return spring 10. pulls conclusion 4 from the chamber of the barrel 3 in a known manner fired (used) cartridge, which subsequently throws out the ejector (not shown). When the slide 4 reaches the rear position and encounters stops on the stationary frame I, the slide 4 begins to move forward by the return spring 10 and feeds the next cartridge from the magazine into the cartridge chamber of the barrel 3 to perform the following shot. When it reaches the forward end position, the bolt 4 closes the barrel channel 3 with the cartridge cartridge. The lever assembly 5 and 7 extends from the rear axis 6 in the front of the stationary frame I forward to the front axle 7 in the front lower part of the bolt 4. with an internal angle of less than 180 °, thereby denying the slide 4 before the shot. The gun is ready for the next shot.

-3EN 30347 Ul

In this way, the technical solution, compared to the closest prior art, provides for the possibility of firing from a pistol with a stationary barrel fixedly fixed to the frame of a high power hub, while maintaining a small bolt weight and the weight of the entire gun.

The same mechanism of locking the conclusion 4 during the shot can be used on automatic machines, automatic rifles, semi-automatic hunting weapons and machine guns. The main principles of the locking mechanism must be respected:

- the rear lever 5 and the front lever 6 must be pivotally connected to each other;

- the lever assembly 5 and 7 must be located between the movable slide 4 and the stationary frame 1 of the weapon;

- the common axis 9 of the rear lever 5 and the front lever 7 must not be in a line intersected by the rear axis 6 and the front axis 8, so that the levers 5 and 7 must form a polyline with an internal angle to the barrel of less than 180 °; 180 °;

The exact values of the angles are determined depending on the power of the cartridge and the design of the particular weapon design.

Industrial applicability

The technical solution is designed for weapons with a stationary barrel fixed in the frame for shooting high-performance ammunition.

PROTECTION REQUIREMENTS

Claims (8)

A mechanism for locking a breech with a stationary barrel (3) fixed in a weapon frame (1) on which a breech (4) is mounted, with the possibility of reciprocating forward and backward movement, characterized in that a (1) the rear lever (5) is rotatably mounted, and at the end (4) a front lever (7) is rotatably mounted, the free end of which is pivotally connected to the free end of the rear lever (5), the inner angle between the rear lever (5) and the front lever (7) is less than 180 ° and the rear lever (5), the front lever (7) and the bolt (4) are coupled to the return spring (10) acting on the bolt (4) in its forward extreme position. Mechanism according to claim 1, characterized in that the rear lever (5) is mounted on the rear axis (6) located in the front part of the frame (1) below the main (3) and the front lever (7) is mounted on the front axis (6). 8) mounted in the front part of the breech (4) under the barrel (3), the rear lever (5) and the front lever (7) being rotatably connected by means of a common axis (9) which is arranged below the imaginary link of the rear axis (6); front axles (8). Mechanism according to claim 2, characterized in that grip handles (91) are provided on both sides of the common axis (9) for gripping the shooter's fingers while stretching the breech (4). Mechanism according to any one of the preceding claims, characterized in that the bolt return spring (10) is mounted between the rear lever (5) and the front lever (7) and consists of two arms, the rear arm of which rests above the rear lever (5) and the front arm is supported from above by the front lever (7). A mechanism according to claim 4, characterized in that the return spring (10) is mounted on a common axis (9) of the rear lever (5) and the front lever (7). Mechanism according to any one of claims 1 to 3, characterized in that the return spring (10) is mounted between the rear lever (5) and the front of the gun frame (1). -4EN 30347 Ul A mechanism according to any one of claims 1 to 3, characterized in that the return spring (10) is arranged on the barrel (3) which serves as a guide, the return spring being supported by one end against the frame (1) and the other end. o the front of the conclusion (4). A mechanism according to any one of claims 1 to 3, characterized in that the return spring 5 is mounted below the barrel on a separate guide parallel to the barrel (3) and bears one end against the frame (1) and the other end against the front of the breech.