PL222088B1 - Free lock of the gun barrel weapon - Google Patents

Abstract

The essence of the weapon with a free bolt built in a fixed housing (1), in which the barrel (2) is permanently mounted and equipped with a bumper (3) connected to the rear part of the weapon's casing (1), consists in the fact that the free bolt consists of two breech weights (4 and 5) fixed in the guides of the first (6) and the second (7), between which the angle lever is located, rotatably embedded in the housing (1) of the weapon, so that one arm rests against the rear surface of the first breech weight (4) and the other arm against the front surface of the second lock mass (5).

Description

Description of the invention

The subject of the invention is a freehold of a barrel weapon.

The mechanism of a free, non-bolted breech, used in a barrel weapon is known. In the known solution, the barrel is immovably mounted in the barrel of the weapon and the free lock is slidably mounted against the rear part of the barrel by a spring placed between the slide and the housing. Before the shot, the barrel is closed from the back with a bolt leaning against it. As soon as the shot is fired, the pressure of the gunpowder gases through the cartridge casing, acting on the front surface of the slide, causes it to move deeper into the weapon housing. During this movement, the slide moves, braked by the force of the return spring, frictional forces and reduces the speed as a result of the loss of energy received for reloading the weapon (ejection of the cartridge, passing the next cartridge, tension of the needle mechanism). At the end of the movement, the lock hits a bumper, which can be, for example, the rear wall of the housing. The spring, tensioned during the movement of the slide, ensures its return to the initial position. For the proper operation of the weapon, a relatively large mass of the slide is required, so that in the initial phase of the movement it does not move too much away from the rear part of the barrel, which could pose a risk of escaping powder gases under high pressure. The main disadvantage of the known solution is precisely the large mass of the slide and - as a consequence - the highly dynamic nature of the loads between the slide and the guides, which are transferred to the weapon housing. This requires the construction of adequately durable and therefore heavy elements.

The essence of the weapon according to the invention with a free lock built in a fixed housing, in which the barrel is permanently mounted and equipped with a bumper connected to the rear part of the gun housing, consists in the fact that the free slide consists of two masses mounted in guides, between which there is a is an angular lever rotatably mounted in the casing of the weapon in such a way that with one arm it rests against the rear surface of the first breech mass, and with the other arm against the front surface of the second breech mass.

During the shot, one part of the bolt is thrown back, while the other part is thrown in the opposite direction as a result of the action of an appropriate lever mechanism. As a result, the recoil energy of the entire bolt is divided into two masses moving in opposite directions. This results in a significant reduction of the dynamic impact of the bolt on the remaining elements of the weapon. The use of such a solution allows to design less durable mechanisms and, as a result, significantly reduce the weight of the entire structure.

The subject of the invention is shown more closely in the drawing, in which Fig. 1 shows a longitudinal section of the weapon in a position corresponding to the position of individual parts before firing a shot.

In the casing 1 of the weapon, a free lock and a fixed barrel 2 are slidably mounted, as well as a slide assembly. A bumper 3 is attached to the rear part of the casing 1 of the weapon. The free lock consists of two bolts, the first 4 and the second 5, mounted in the first 6 and the second 7 guides, between which there is an angular lever 8 rotatably mounted on the pin 9 fixed in the casing 1 of the weapon . One arm of this knee lever 8 abuts the rear surface of the first lock mass 4, and the other arm of the knee lever 8 against the front surface of the second lock mass 5. Moreover, the first 10 and the second 11 return springs are slid onto the guides 6 and 7, while the second guide 7 of the second breech 5 is terminated by a piston 12 inserted into the cylinder 13 of the gas-dynamic brake. The interior of the barrel 2 and the interior of the cylinder 13 are connected by a flow channel 14.

Before firing a shot, the first breech mass 4, under the action of the first return spring 10, is pressed against the rear part of the barrel 2. The second breech mass 5, pushed by the second return spring 11, takes its forward position by pressing its front surface on the lower arm of the knee lever 8 rotatably mounted on the pin 9 mounted in the housing of 1 weapon. The upper arm of the knee lever 8 presses against the rear surface of the first breech mass 4. The piston 12 of the gas brake is connected to the second breech mass 5. In the forward position of the second breech mass 5, the piston 12 of the gas-dynamic brake takes its extreme position which ensures the greatest volume of the cylinder 13 of the gas-dynamic brake. The first decay mass 4 shifting as a result of the shot presses the angle lever 8, transmitting through it the movement to the second breech mass 5. The second breech mass 5 is additionally braked by the gas-dynamic brake collecting the gunpowder gases from the barrel 2. As soon as, during the shot, , the first breech mass 4 moves into the casing 1 of the weapon also begins

The rotation of the knee lever 8, which, by pressing against the second lock mass 5, drives it in the opposite direction. As a result, the recoil energy of the entire breech assembly is divided into two masses moving in opposite directions. After completing the task of driving the second low-voltage mass 5, the angular lever 8 takes a position in which it no longer cooperates with the aforementioned breech masses 4 and 5. The first breech mass 4 moves into the casing 1, tightening the first return spring 10 until it hits the bumper 3, after which it is driven by the first return spring 10 to its starting position. In turn, the second breech mass 5, moving towards the front part of the housing 1, stretches the second return spring 11. In the case of braking the movement of the second breech mass 5 with the gas-dynamic brake, it also moves the piston 12 connected to it in the cylinder 13 of the gas-dynamic brake. This brake is filled with gunpowder gases during the shot. Then the moving piston 12 additionally compresses these gases, and the force of the gases acting on the piston 12 inhibits the movement of the second breech mass 5. After making a structurally determined displacement, the second breech mass 5 returns to its initial position under the action of the second return spring 11. In the final phase of the return, the second lock mass 5 also brings the knee lever 8 to the starting position. The use of a system of two counter-rotating masses 4 and 5 significantly increases the stability of the weapon during the shot, which is very important for the accuracy of fire. The dynamic loads of the structure are also reduced, which results in lowering the total weight of the weapon and reducing its failure rate.

Claims (1)

Patent claim A barrel rifle with free deceleration built into a fixed casing, in which the barrel is permanently mounted and equipped with a bumper connected to the rear part of the casing, characterized in that the free lock consists of two masses 4 and 5 mounted in the first 6 and the second guides 7, between which there is an angular lever 4 rotatably mounted in the casing 1 of the weapon, so that one arm rests against the rear surface of the first breech mass 4 and the other arm against the front surface of the second breech mass 5.