UA41842C2 - Pneumatic pistol - Google Patents

Abstract

This invention relates to pneumatic arms with pressure supply from a cylinder with compressed or liquefied gas. A pneumatic pistol has a barrel, a firing pin of the valve, a magazine for bullets and an evaporation chamber with coaxial openings in its ends. Inside the evaporation chamber there is placed a movable barrel with put on it compression spring. The compression spring rests with its one end at the sealing element, and with the other end – at the body of the valve fixed at the end of movable barrel. To the opening placed at the end of the evaporation chamber, at the side of the valve, is adjoined the output channel of the magazine for bullets, and in the opening itself a pusher is placed, this is connected to the firing pin of the valve. The executive unit of firing pin of the valve is made as a movable load put on the barrel and connected to the cylindrical live spring for compression, this is as well put on the movable barrel.

Description

Description of the invention

The invention relates to pneumatic weapons, mainly to pneumatic pistols with a pressure supply from 2 cylinders with compressed or liquefied gas.

In pneumatic weapons, the energy of compressed or liquefied gas is used to throw the bullet. According to the methods by which gas pressure is created, pneumatic weapons can be divided into three types: spring-piston systems, gas-pumped systems, and cylinder gas systems. Spring-piston weapons have an air cylinder directly connected to the barrel. When moving the mainspring platoon lever inside the 70 cylinder, the piston moves, compressing the mainspring. The piston is held in the cocked position by the trigger mechanism. When fired, the piston moves forward under the action of the mainspring and pushes a column of air in front of it, which ejects the bullet from the barrel. The disadvantages of this type of pneumatic weapon include relatively large dimensions and low rate of fire, because before each shot it is necessary to manually wind the mainspring. In systems with gas pumping, the pumping lever is also actuated by the arrow hand. 72 The weapon is supplied with a tank for compressed air. At the moment of the shot, the exhaust valve that separates the tank and the barrel of the weapon opens. As an option, there are systems with multiple pumping, which allows you to vary the power of the shot and even make several shots from one pumping of the tank. Such devices also have large dimensions and a low rate of fire. The most advanced type of pneumatic weapons should include systems that work on cylinder gas, most often on cylinders with liquefied carbon dioxide.

Such a weapon is supplied with a vapor chamber connected to the cylinder, and the pressure in the vapor chamber is kept constant as long as there is at least a little liquid carbon dioxide in the cylinder. Weapons of this type have small dimensions and the highest rate of fire.

A pneumatic pistol (Magazine "Arms" Mo5 for 1998, Russia) is known for shooting bullets in the form of steel balls, which includes a barrel, a magazine for bullets with an exit channel, a valve shock mechanism, an evaporation chamber, in the opposite ends of which coaxial holes are made, inside the chamber there is a tube with a compression spring attached to it, one end of which rests on the sealing device, and the other - on the body of the valve fixed on the tube. Radial holes are made in the tube behind the valve, the tube on the valve side ends with a solid rod, which is a valve stem that interacts with the impact mechanism. The outlet channel of the magazine for balls is adjacent to the outlet opening of the tube placed in the evaporation chamber, the barrel is installed coaxially with the tube behind it. Thus, in the described device, the following are sequentially located: a valve impact mechanism, a valve tube with a stem and a barrel. This circumstance leads to the fact that the relative length of the barrel (in relation to the total length of the gun) is small, therefore, the bullet speed is small, which is directly related to the length of the barrel. In addition, the valve, which has a tube with radial inlet holes, has a large parasitic resistance to the gas flow, as well as a relatively smooth pressure increase front in the process of opening the valve, which leads to a smooth 3o pressure increase in the barrel and ultimately reduces the bullet speed in comparison with theoretical. In addition, the empty C tube of the valve and the barrel of the gun are different parts, between which an inevitable gas breakthrough occurs during the shot, which also leads to a decrease in the speed of the bullet.

The essence of the invention lies in the fact that in a pneumatic gun containing a barrel, an impact mechanism of a valve, "F magazine for bullets with an exit channel, an evaporation chamber, in the opposite ends of which coaxial holes are made, Z 50 inside the evaporation chamber is placed a tube with a a compression spring, one end of which rests in the sealing device, and the other - in the body of the valve fixed on the tube, as a tube placed in the evaporation chamber, a movable barrel is used, the hole located in the end of the evaporation chamber from the side of the valve is adjacent outlet channel of the magazine for bullets, and the pusher connected to the shock mechanism of the valve is placed in the hole itself. According to P2 of the claims of the invention, the executive device of the impact mechanism of the valve is made in the form of a movable load, put on the barrel and connected to the cylindrical compression spring, also put on the shk on the barrel. The use of a movable barrel as a tube placed in the vapor chamber allows you to increase the working length of the barrel by the length of the valve tube of the prototype, which contributes to the achievement of the goal of the invention: increasing the speed of the bullet. In addition, the removal from the device of a valve tube with radial holes, the cross-section of which is clearly smaller than the cross-section of the barrel, contributes to reducing losses and, therefore, increasing the "travel" 20 Speed of the bullet. The inlet holes of the valve in the prototype are radial holes of an empty tube, the cross-section of which is significantly smaller than the intersection of the hole and the tube itself and the barrel, therefore, the front of increasing pressure in the barrel in the process of opening the valve will be relatively smooth, a significant part of the length of the barrel of the bullet will pass under a pressure lower than the nominal , which reduces its speed. In the proposed gun, the valve is actually the end of the barrel, which leads to the fact that with a barrel caliber of 4.5 mm, when the valve deviates from the seat by only a mm, as shown by 29 the simplest calculations, the cross-section of the valve and the barrel are the same. That is, the proposed valve actually exists

GF) ideal, provides the greatest steepness of the pressure front in the barrel when the valve is opened and, therefore, provides the greatest bullet speed. Execution of the executive device of the impact mechanism of the valve in the form of a movable load, put on the barrel and connected to the cylindrical combat spring of compression also put on the barrel, allows you to reduce the dimensions of the gun, because in the prototype the executive device of the impact mechanism 60 is located behind the valve, that is, it increases the length of the weapon . An important advantage of the proposed gun is the simplicity of its design, because it consists of a small number of simple parts.

The proposed pneumatic gun is schematically depicted in the drawing (Fig. 1). A cylinder 2 with liquefied carbon dioxide is placed in the body of the handle 1. From below, the cylinder 2 is rolled up with a threaded plug 3, and from above it is pierced with an empty needle 4, which connects to the evaporation chamber 5, formed by the body 6 and the plug 7. In the evaporation chamber 5, there is compressed carbon dioxide in the gaseous phase. In the handle 1 there is also a magazine for balls in the form of steel balls. The store for balls contains a spring 8 and a feeder 9, the balls 10 are placed in the outlet channel 11 of the store. A casing 12 of the barrel is attached to the body 6 of the evaporation chamber, inside which is placed a movable barrel 13, made in the form of a thin-walled metal tube. Guides for the movable barrel 13 are the sleeve 14 and the hole in the body 6 of the evaporation chamber. At the rear end of the movable barrel 13, placed in the cavity of the evaporation chamber 5, a compression spring 15 is put on, which rests with one end on a sealing device consisting of a washer 16 and a polyurethane torus 17, and with the other end on the valve body 18, fixed on a movable barrel 13. The valve body 18 is supplied with an elastic sealing ring 19.

The valve seat 18 is a cone made on the end of the plug 7 of the evaporation chamber. A pusher 20 is placed in the hole of the plug 7 of the evaporation chamber 7/0, fixed at one end to the casing of the shutter 21. The outlet channel 11 of the bullet magazine is adjacent to the hole in the plug 7. The casing of the shutter 21 through the longitudinal groove in the casing of the barrel 12 is connected by a finger 22 to the movable load 23, which is part of the impact mechanism. A combat spring 24 of the shock mechanism is put on the movable barrel 13, which interacts with the movable load 23, equipped in the lower part with a groove that interacts with the sear 25 of the trigger 26, spring-loaded by a spring 27. A bushing 28 is fixed on the movable barrel 13.

The pneumatic gun is shown in the drawing (fig.) in the equipped state with the bolt cocked. When the trigger 26 is pressed, the tooth of the sear 25 comes out of the groove of the moving load 23 and the latter is pushed forward by the mainspring 24. At the same time, guided by the finger 22, the shutter casing 21 and the pusher 20 are also directed forward. The pusher 20 feeds the upper bullet 10 from the output channel 11 of the magazine for bullets and pushes it into the beginning of the movable barrel 13. As soon as the bullet entered the movable barrel 13, the movable load 23 hits the sleeve 28, which begins to move forward, capturing the moving barrel 13. The stroke of the barrel is about mm. When the barrel moves forward, the valve body 18 also moves forward, the valve opens and through the end of the barrel, compressed gas enters the barrel from the vapor chamber 5 and pushes the bullet out, a shot is fired. After the shot, the movable load 23 is in the extreme left position, while the mainspring 24 is straightened, and the spring 15 of the valve 18, on the contrary, is compressed. Further, under the action of the valve spring 15, the movable barrel 132 begins to move backward and closes the valve 18. To fire the next shot, it is necessary to move the shutter casing 21 back until, under the action of the spring 27 of the trigger 26, the sear 25 enters the groove at the bottom of the movable load 23. and )

At the same time, the pusher 21 will also move to the extreme right position and allow the next ball from the outlet channel 11 of the ball supply store to enter the hole in the plug 7 of the evaporation chamber. The gun is ready for the next shot. with

Claims (2)

The formula of the invention p 1. A pneumatic gun, which contains a barrel, a valve impact mechanism, a magazine for bullets with an exit - z5 Zhanal, an evaporation chamber, in the opposite ends of which coaxial holes are made, inside the evaporation chamber there is a tube with a compression spring attached to it, one end of which rested in the sealing device, and the second - in the body of the valve fixed on the tube, which differs in that a movable barrel is used as a tube placed in the evaporation chamber, the outlet channel of the store for balls, and in the hole itself there is a pusher connected to the shock mechanism of the valve. w-in the village 2. A pneumatic gun according to claim 1, which is characterized by the fact that the impact mechanism of the valve includes an executive device made in the form of a moving load, put on a moving barrel and connected to a cylindrical compression spring, also put on a moving barrel. sh» - (ee) iz 50 Ko) F) ime) 60 b5