RU2543142C1 - Device of chamber - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: device of chamber comprises longitudinal grooves of Revelli, which are made in the chamber and in the barrel throat in the form of a wedge of oval shape of a ring part in cross section and produce an additional effect of pushing the shell, consisting in the vector force decomposition of two bodies - the chamber housing and the shell of the cartridge, through the use of surfaces of contact inclined at an acute angle to the operating force. The longitudinal edges of the wedge-shaped grooves are rounded. For identification of firearms the shell of the spent cartridge has traces of wedge-shaped indentations.

EFFECT: improved operating conditions of weapons, increase in its reliability, protection of weapons against counterfeiting is provided.

3 cl, 5 dwg

Description

The invention relates to the field of weapons, namely to the barrels of firearms, and can be used to create rifled weapons.

Improving the barrel, as the main part of firearms, is one of the most promising and most rational directions for increasing the combat effectiveness of the rifle complex, and improving identification increases its protection against falsification.

Known for the design of the barrel with a smooth-bore chamber, which serves to accommodate the cartridge. 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.

The barrel and breech during firing works in extreme conditions, namely, under a pressure of propellant gases to 4 * 10 Pa and at a temperature of the propellant gases reaching to ^about 3000 C, which causes intense heating and deformation of the barrel.

The disadvantage of such devices for the barrel chamber of a firearm is that when fired, during the increase in pressure of the powder gases, the sleeve 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 sleeve.

In addition, such devices cannot be identified by external signs and the spent sleeve, which makes it possible to manufacture fakes and sell them, causing damage to the copyright holder.

A rifle barrel is known with an identifier made with a marking element on its inner surface (RF patent 2285883, publication June 20, 2006), as well as a method for identifying smooth-bore weapons using a spent sleeve (patent 2332636, publication August 27, 2008).

The disadvantage of this identifier is that the marking of the barrel on the inner surface does not fully protect the weapon from fakes.

An analogue of the device is also the invention of automatic weapons with the presence of Revelli longitudinal grooves in the chamber (patent RU 2283997 C1, publication September 20, 2006).

The closest to the invention in technical essence is the chamber of the barrel of a firearm, including longitudinal grooves of Revelli, in which the extraction of the sleeve occurs in the presence of pressure of powder gases in the bore (A. A. Potapov “The Art of the Sniper”. Publisher: Fair-Press, 2005, p. 352, scheme 131). 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.

A disadvantage of the known design of the chamber of the barrel of a firearm with longitudinal grooves is that the grooves of the chamber in cross section have a constant shape, which cannot fully provide easier extraction of the liner, and therefore, increase the survivability of the barrel by reducing its wear and destruction.

In addition, the device of typical Revelli grooves in small arms is almost universal, which also does not allow it to be identified both by external signs and by the fired sleeve.

The aim of the invention is to facilitate the extraction of the sleeve from the chamber, 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 surface of the chamber during extraction under conditions of exposure to the sleeve of internal pressure of powder gases and under conditions of temperature deformation of the barrel, reliable high-pressure gas supply between the chamber wall and the sleeve, reduction in barrel heating, increase in barrel survivability by reducing its wear and destruction, increase in orostrelnosti weapons by facilitating the filing of the cartridge in the chamber and the extraction sleeve, raising arms reliability, increasing protection against forgery of small arms in its production.

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 device of the wedge-shaped longitudinal grooves will be a distinctive feature of small arms from existing models, which improves its identification and increases protection against counterfeiting. This feature can be distinguished visually or using optical instruments. In addition, the identification of the weapon is determined by the spent sleeve, which has a wedge-shaped dent.

This goal is achieved by the device in the chamber and the bullet inlet of the wedge-shaped longitudinal grooves of a trapezoidal or oval shaped part of the ring in cross section. In this case, the side walls of the grooves are arranged with an angle of inclination, and the longitudinal ribs are rounded. The longitudinal grooves can also be oval in the form of an elongated segment of a truncated cone.

Technical solutions with features distinguishing the claimed solution from the prototype are not known and do not follow explicitly from the prior art. This allows us to assume that the claimed technical solution has a "novelty", "significant differences" and "positive effect", which corresponds to the inventive step.

The invention is illustrated by drawings, where in FIG. 1 shows a general view of the chamber and the bullet entrance with wedge-shaped longitudinal grooves of a trapezoidal shape, in FIG. 2 is a cross-section of a chamber with trapezoidal grooves, FIG. 3 is a general view of the Revelli groove of the chamber of a trapezoidal shape; FIG. 4 is a general view of the Revelli groove of the chamber of an oval shape, in FIG. 5 - a shot sleeve with dents from Revelli's wedge-shaped grooves.

The barrel of a firearm contains a chamber 1 with a bullet inlet, wedge-shaped grooves 2 of the trapezoidal shape of the chamber ring and the bullet entrance, a threaded portion of the barrel 3 (Fig. 1). The length of the wedge-shaped grooves L _{2 is} greater than the length of the cartridge case L ₁ , which allows the penetration of powder gases between the chamber wall and the outer wall of the cartridge case. The grooves of the chamber and the bulletin entrance of a trapezoidal shape with a base in and side faces s are arranged with rounded faces in cross section and have a two-sided slope of the cut. Internal rounding with a radius R of the longitudinal ribs of the groove groove increases the strength and durability of the barrel of a firearm, and also facilitates its cleaning from dirt and soot after use. External rounding of the longitudinal ribs of the grooves of radius r ensure the free penetration of powder gases between the chamber wall and the outer wall of the sleeve, prevent the cartridge sleeve from cutting into the grooves of the cartridge chamber after firing and facilitate its extraction (Fig. 3). The chamber grooves can also be oval in cross section (Fig. 4).

The device operates as follows. Before firing, the cartridge is driven into the chamber 1. In this case, the cartridge can be freely inserted even if there is dust or a lubricant layer in the chamber due to the presence of a gap and wedge-shaped grooves between the walls of the cartridge case and the chamber 2. After the shot, the powder ignites and the powder gases begin to act on the bullet and cartridge case walls. As a result of the gas pressure at the bottom of the bullet, it moves from place and, rotating along the rifling of the barrel 3, moves to the exit with a continuously increasing speed, and powder gases penetrate through the arranged wedge-shaped grooves 2, extending beyond the barrel of the sleeve, into the chamber, and act on the outer the surface of the sleeve 4. Due to this, the pressure of the powder gases through the wall of the sleeve on the wall of the chamber is reduced. The rounding of the longitudinal ribs of the grooves allows more free penetration of powder gases between the chamber wall and the outer wall of the liner, and the rounding of the internal grooves and the trapezoidal inclination of the groove walls increase the strength and durability of the barrel chamber and facilitate the cleaning of the barrel from soot and dirt after use.

Such a chamber is “unloaded” and its friction between the sleeve and the chamber surface during extraction is reduced, and the wedge-shaped grooves create an additional effect of pushing out the sleeve, which consists in the vector decomposition of the force of two bodies (chamber of the chamber and cartridge case) by using contact surfaces inclined under acute angle to the acting force.

The extracted sleeve after the shot has traces of dents 5 from the wedge-shaped trapezoidal grooves of the chamber, which makes it possible to identify the weapon and determine its manufacturer (Fig. 5).

Such a trapezoidal groove arrangement facilitates the extraction of the cartridge case from the chamber, provides free insertion of the cartridge into the chamber in the presence of dust or a lubricant layer in it, reduces the friction force of the cartridge case on the chamber surface during extraction under conditions of the action of powder pressure on the cartridge case and under conditions of temperature deformation of the barrel , provides a reliable high-pressure gas supply between the chamber wall and the liner, reduces barrel heating, increases barrel survivability by reducing its wear sa and destruction, increases the rate of fire weapons by facilitating the filing of the cartridge in the chamber and the extraction cartridge, improves the reliability of weapons, small arms increases the protection against counterfeiting in its production.

The practical implementation of the proposed device chamber with wedge-shaped longitudinal grooves of a trapezoidal shape is not in doubt, as it is based on the use of known materials, devices, and technical solutions. By analogy with the proposed design of the bullet can be arranged trunks for guns.

Claims (3)

1. The chamber device, including Revelli grooves, characterized in that the longitudinal grooves in the chamber and the pool entrance are made in the form of a wedge of an oval shaped part of the ring in cross section and create an additional sleeve ejection effect, which consists in the vector decomposition of the force of two bodies - the chamber of the chamber and the sleeve cartridge, by using contact surfaces inclined at an acute angle to the acting force. 2. The device according to claim 1, characterized in that the longitudinal ribs of the wedge-shaped grooves are rounded. 3. The device according to p. 1, characterized in that for identification of firearms the cartridge case has traces of wedge-shaped dents.

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