RU2690140C1 - Airguns - Google Patents

Abstract

FIELD: weapons and ammunition.SUBSTANCE: invention relates to airguns. After initiation of pyrocartridge part of powder gases is used to provide weapon automaticity, the rest part acts on piston to produce compressed air, due to which shot is fired. Thrown out equipment are airsoft balls.EFFECT: complete simulation of use of combat weapons.1 cl, 1 dwg

Description

The invention relates to small arms, namely, weapons that mimic the use of military weapons, but shooting at the same time with little energy acceptable for tactical training and military sports games.

Known pneumatic weapons containing a barrel with a bullet, a compression chamber with a piston, an expansion chamber with a piston, a rod connecting both pistons into the system, a reservoir with spare gas, a device regulating the flow of stored gas from the reservoir into the expansion chamber, the ventilation device of the expansion chamber, to compress air, the energy of the stored consumed gas is used, which expands and acts on a piston of a larger diameter than the piston compressing the air, increasing the air pressure relative to its own pressure based on the difference in the areas of the pistons (see patent RU 2488063 for an invention, IPC F41B 11/00 (2013.01), 1.02.2011) - which are the prototype of the invention.

The disadvantage of the prototype is that it does not have an element for placing a pyro charge and cannot completely imitate the use of military weapons.

The task of the invention is the creation of a pyropneumatic weapon that completely mimics the use of military weapons, but it allows you to shoot missile equipment with little energy.

The technical result when using the invention is shooting, from a pyropneumatic weapon, missile equipment with little energy, acceptable for tactical training and military sports games, with a complete imitation of the use of military weapons.

This technical result is achieved by the fact that the pyropneumatic weapon consists of a barrel for missile equipment, an air compression chamber connected to the barrel for missile gear, a piston obturator located in the compression chamber, a return spring, at least one output channel for the gas generated during the pyro charge , an element for accommodating a pyro charge, while the piston compresses the air due to the energy of the gases formed during the combustion of the pyro charge.

The invention is illustrated in the drawing.

The drawing shows schematically the elements of a pyropneumatic weapon adapted and integrated with the main nodes of the Kalashnikov assault rifle.

Barrel for missile equipment 1, weapon barrel 2, restriction element 3 of the gas channel, automatic machine chamber 4, air compression chamber 5, piston obturator 6, gas outlet channel 7, inlet channel 8, return spring 9, valve 10, connecting channel 11, element twisting missile equipment 12, rammer 13 with return spring, element for placing pyro charge - chamber 14, pyro charges - blank cartridges 15, missile equipment 16, channel for missile equipment 17, shop 18.

Pyropneumatic weapons works as follows.

Blank cartridges 15 and missile equipment 16 are placed in a box store 18, separately from each other, after which the store is attached to the weapon, the cartridge is sent to the chamber 14, and the missile gear 16 through the channel for missile gear 17 enters the barrel for missile equipment 1. In the moment of shot powder gases formed during the combustion of the powder charge of the cartridge, expanding, get into the output gas channel 7 formed by the space between the barrel for missile equipment 1 and the barrel of the weapon 2. Part of the powder gases through the inlet The anal 8 enters the compression chamber 5, the gases act on the piston obturator 6 sets it in motion, the piston obturator compresses the air in the chamber 5, the compressed air through the connecting channel 11 acts on the rammer 13 and, passing through it, transmits kinetic energy to the tormented the equipment 16 throwing it out of the barrel 1. Another part of the powder gases from the output channel 7 enters the chamber of the machine 4 and, acting on the piston of the slide frame of the machine, reloads the weapon with the idle cartridge. The remaining part of the powder gases, passing through the narrowing element 3 of the gas channel, enters the atmosphere and expands sharply, creates a shock wave (the sound of a shot). The piston 6 under the action of the return spring 9 creates a vacuum in the chamber 5, the valve 10 opens and the chamber is filled with air. The shot cycle is repeated.

The barrel 1 for missile equipment and the barrel of the weapon 2 are designed in such a way that at the time of the shot the possibility of the ingress of powder gases into the barrel 1 and their possibility of impacting the missile equipment is excluded. The element of the narrowing of the gas channel, is designed to provide the necessary pressure of the pneumatic and automatic weapons. Camera 4 is part of the Kalashnikov assault rifle. Compression chamber 5 is designed to compress the air, due to which the missile gear gets movement. The piston obturator is designed to compress the air and is equipped with two outer and inner compression rings. The output gas channel 7, formed by the space between the barrel for missile equipment 1 and the barrel of the weapon 2, and starts from the chamber. The input channel 8 connects the compression chamber and the output channel 7. The return spring is designed to return the piston shutter to its original position after the cessation of exposure to powder gases on it. The valve 10 closes with increasing air pressure in the compression chamber and opens when discharging caused by the movement of the piston-shutter to its original position, ensuring that the compression chamber is filled with air. A connecting channel connects the compression chamber and the barrel for missile equipment. The twisting element of the missile equipment, made of rubber or silicone partially overlapping the cross-section of the barrel 1, gives the equipment to be rotated when passing through it, providing a more straightforward trajectory in flight. The spring return sprinkler has an internal channel for the passage of compressed air and is designed to move under the influence of increasing air pressure. The rammer is designed to offset the missile equipment from the initial position and overlap the channel missile equipment at the time of the shot. In this system, the element for placing the pyro charge is the chamber, and the pyro charge is the standard blank cartridge. The shop is divided into two parts, for pyro charge (blank cartridge) and missile equipment. Submission from the store is carried out by springs. The number of missiles in the store may be greater than the number of pyro charges it is necessary to compensate for the length of the channel for missile gear. Lightweight 6 mm are used as missile equipment. balls for airsoft, paintball (with dye), or any other missile equipment.

With a speed of missile equipment of about 100 m / s, and having a mass of missile equipment of about 0.2 g, energy is equal to gaming weapons, which is acceptable for tactical training and military sports games, and pyro charge provides a complete imitation of the use of military weapons. The technical result is achieved.

Claims (1)

A pyropneumatic weapon, characterized in that the missile equipment in it receives directional movement due to the energy of compressed air, and the air is compressed due to the energy of powder pyrocharging.

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