RU2562888C1 - Cartridge case - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: cartridge case comprises a bottom part, a groove, a cone-shaped body, a slope, and a neck. On the outer surface of the case housing there is a compensator of deformation in the form of hemispherical pimples arranged in checkered order.

EFFECT: increase in reliability of the case extracting from the weapon chamber.

3 cl, 2 dwg

Description

The invention relates to the field of mechanics (ammunition of small arms and artillery weapons) and can be used in the development and manufacture of new serial cartridge cases of various calibers of small arms and artillery weapons (pistols, carbines, machine guns, machine guns, guns).

The improvement of cartridge cases as the main part of the ammunition of weapons is one of the most promising and most rational directions for increasing the combat effectiveness of the rifle and artillery complex.

Also, the need to radically modernize the cartridge is associated with avoiding problems associated with rupture and jamming of the sleeve in the chamber when it is fed and extracted. In this case, the shape and dimensions of the chamber are determined by the shape and dimensions of the sleeve. Between the walls of the liner and the chamber make a gap of 0.5 to 1.2 mm. The gap provides free insertion of the cartridge and in the presence of dust or a lubricant layer in the chamber. To prevent tearing, cartridge cases of cartridges of rapid-fire machine guns (ShKAS) - have thickened walls.

Known steel cartridge case containing the bottom and the housing, the inner surface of which is mated with the bottom in radius and made in the form of conical sections, the total height of which is 21.2-23.4 radius of the radius of the bottom with the inner surface of the housing (RF patent No. 2179701). Such a sleeve has increased reliability of extraction and obturation at high pressure of the powder gases (over 3000 kg / cm ² ) compared to the analogue due to a change in the profile of its surface.

The disadvantages of the known cartridge case include the lack of strength of the shell wall of the sleeve, leading to periodic and unforeseen ruptures of the shell of the sleeve during its extraction after firing.

Close in technical essence is the invention of automatic weapons with the presence of longitudinal grooves of Revelli in the chamber (RF patent No. 2283997 C1, publication September 20, 2006), in which the extraction of the sleeve occurs in the presence of powder gases in the bore. During the shot, the powder gases penetrate the longitudinal grooves and exert pressure on the outer surface of the sleeve, so that it will be pressed against the walls of the chamber with less force.

Known cartridge case used in small arms cartridges containing an encapsulated cartridge case, a powder charge and a bullet (RF patent No. 2267078, IPC F42B 5/28). The cartridge case contains a housing with a bottom, a ramp and a dulce. The inner surface of the bottom is conjugated with the body in radius and is made in the form of conical sections.

The disadvantages of the known cartridge case can be attributed to the combination of the low strength of its material with technological flaws associated with an increase in the thickness of the cartridge case and subsequent more severe jamming of the cartridge case under the influence of powder gases in the cartridge chamber of small arms, which also lead to periodic and unforeseen ruptures of the cartridge case during its extraction after shots. Moreover, the rupture of the sleeve body does not occur in any particular section, but along the entire length of the sleeve body, including the bottom, the ramp, and its middle part.

The closest in technical essence and adopted for the prototype is a cartridge for small arms, including a capsulated sleeve with a bottom, a groove, a cone-shaped body, a ramp and a dulce, a propelling charge and a bullet, and characterized in that on the outer surface of the shell case, in the zone of its possible rupture or jamming in the chamber, when removing the sleeve after firing, a deformation compensator is made in the form of a cylindrical surface with a radius transition to the surface of the sleeve body, the generatrix of which is made and in the form of a combination of straight parallel or inclined at an angle of 0.0-3.0 degrees, to the longitudinal axis of the cartridge and radial concave or convex lines, creating a gap between the conditional ruler and the edges of the compensator, while the compensator is made equal to 0.2- in length 0.9 body length. The magnitude of the clearance (deepening) of the sleeve deformation compensator is made variable from zero along the edges to the maximum in its middle part, equal to the difference between the radii of the larger and smaller bases of the conical body or equal to 0.01-0.05 caliber for a cylindrical body (RF patent No. 2470254 IPC R42 B).

The disadvantage of this design of the cartridge case is that when fired, during the increase in pressure of the powder gases, the cartridge inflates, increases in diameter, selects the initial diametrical clearance and its walls are pressed against the walls of the chamber, which makes it difficult to extract (extract) the cartridge case.

The aim of the present invention is to eliminate the disadvantages of the prototype, in particular the creation of a more perfect cartridge design, ensuring high reliability of the extraction of the sleeve from the chamber of the weapon, preventing tearing or jamming of the housing during firing, ensuring the free insertion of the cartridge into the chamber in the presence of dust or a lubricant layer, reducing the friction force of the sleeve on the chamber surface during extraction under conditions of the action of the internal pressure of powder gases on the sleeve and under conditions of temperature barrel formation, reducing barrel warming up, increasing barrel survivability by reducing its deterioration and destruction, increasing the rate of fire of weapons by making it easier to feed a cartridge into the chamber and extracting shells, increasing the reliability of weapons, increasing the protection of ammunition against counterfeiting during its manufacture, reducing the weight of ammunition for due to thinning of the sleeve wall, increasing the rigidity of the sleeve design.

The friction force of the liner on the chamber surface depends on the contact surface of the liner with the chamber surface, as well as on the compression force of the liner in the chamber, depending on the gas pressure inside the liner and the temperature deformation of the chamber.

The presence on the surface of the sleeve of hemispherical pimples of a certain density and arranged in a checkerboard pattern will provide minimal contact with the chamber surface and minimal friction between the cartridges when reloading from the magazine.

The device on the outer surface of the shell sleeve of the strain relief in the form of hemispherical pimples will be a distinctive feature of ammunition from existing samples, which improves their identification and increases protection against counterfeiting.

The goal of the invention is achieved by a combination of common well-known features contained in the prototype and in the proposed technical solution, including a capsular sleeve with a bottom part, a groove, a cylindrical or cone-shaped body, a ramp and a dule, a propelling charge and a bullet, and new features, namely, that on the outer surface of the sleeve body, a deformation compensator is made in the form of hemispherical pimples located in a checkerboard pattern. In addition, a belt is arranged on the sleeve body in the slope zone (transitional conical part of the sleeve between the barrel and the housing) to prevent jamming of the cartridge when feeding into the chamber and reliable supply of powder gas with high pressure after a shot between the chamber wall and the sleeve.

Technical solutions with features distinguishing the claimed solution from the prototype are unknown and do not follow explicitly from the technique.

This allows us to assume that the claimed technical solution has "Novelty", "significant differences" and a positive effect ", which corresponds to the inventive step.

The invention is illustrated by drawings, where in FIG. 1 shows a general view of the sleeve - 1 cartridge with hemispherical pimples - 2 on its surface and a belt - 3 in the slope zone, which prevents jamming of the cartridge when it is fed into the chamber and reliable supply of high-pressure powder gas after a shot between the chamber wall and the cartridge case. The figure depicts the staggered order of placing hemispherical pimples on the surface of the cartridge case, the diameter and pitch depend on the caliber of the ammunition and are selected experimentally. For the existing small arms with ammunition of caliber 7.62, the diameter of the hemispherical pimples is d 1.5-2 mm, the pitch b is 3.5-5 mm, the height h is 1-1.5 mm, and the length of the belt in the slope of the sleeve c = 1 , 25b. In FIG. 2 shows a bullet driven into the chamber - 4. Between the edge of the hemispherical pimples - 2 cartridge cases - 1 and the chamber wall there is a gap for free insertion of the cartridge into the chamber of the weapon. Considering that hemispherical bumps of a sleeve are cleaned when the cartridge is fed into the chamber if there is dust or a lubricant layer in it, the clearance is minimal and for small arms is 0.5 to 0.8 mm. For free penetration of powder gases between the chamber wall and the outer surface of the sleeve in the barrel and ramp of the chamber, Revelli grooves - 7 and girdle - 3 with a smooth sleeve surface and an increased clearance to the chamber wall are arranged. Moreover, the grooves in the bullet zone - 5 extend beyond the length of the liner edge l to the boundary of the start of the rifling - 6 barrel of the weapon.

The device operates as follows. Before firing, the cartridge is driven into the chamber - 4. At the same time, the cartridge is freely inserted, and if there is dust or a lubricant layer in the chamber, due to the presence of a gap between the walls of the sleeve - 1 and the cartridge chamber, and hemispherical bumps - 2 located on the surface of the sleeve, in between whom she is going to. After the shot, the powder ignites, and the powder gases begin to act on the bullet - 5 and the walls of the cartridge case. As a result of the gas pressure at the bottom of the bullet, it moves from its place and, rotating along the rifling of the barrel - 6, moves to the exit with a continuously increasing speed, and the powder gases penetrate the arranged Revelli - 7 grooves that go beyond the sleeve barrel and the belt gap is 3 in zone of its slope, in the chamber, and act on the outer surface of the sleeve. Due to this, the pressure of the powder gases through the wall of the sleeve on the wall of the chamber decreases. The presence on the surface of the sleeve of hemispherical bumps allows more free penetration of powder gases between the chamber wall and the outer wall of the sleeve. In this case, the chamber is "unloaded", and it has friction between the liner and the surface of the chamber during extraction is reduced.

In addition, the presence of hemispherical pimples on the surface of the sleeve allows you to clean the chamber from dirt and grease when feeding the cartridge and returning the cartridge after a shot that falls into their crotch, and also minimize the gap, providing free insertion of the cartridge into the chamber.

The advantage of the proposed design is the minimum heat transfer from the spent sleeve to the chamber, which reduces heating and increases the survivability of the barrel, positively affects the rate of fire, therefore, determines the combat effectiveness of small arms and artillery weapons.

The peripheral surface of the sleeve in the form of hemispherical pimples gives it rigidity and prevents it from breaking when fired.

Moreover, the design of the sleeve is easy to manufacture and makes it possible to use cartridges in serial production, applicable to existing weapons.

The practical implementation of the proposed cartridge sleeve device is not in doubt, as it is based on the use of well-known materials, devices, and technical solutions. By analogy with the proposed design can be arranged shell shells for guns.

Claims (3)

1. The cartridge case, including the bottom part, a groove, a cone-shaped body, a ramp and a dulce, characterized in that on the outer surface of the sleeve body a strain relief is made in the form of hemispherical bumps arranged in a checkerboard pattern. 2. The cartridge sleeve according to claim 1, characterized in that in the slope zone it is equipped with a belt with a smooth surface that provides clearance in the chamber and prevents jamming of the cartridge when supplied into the chamber and reliable supply of powder gas with high pressure after firing between the chamber wall and the sleeve. 3. The cartridge case according to claim 1, characterized in that the supply of powder gases into the space between the chamber wall and the cartridge case is carried out by the Revelli chamber of the chamber, arranged in the area of the ramp and barrel barrel.

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