RU2103646C1 - Cartridge - Google Patents

Abstract

FIELD: small-arms cartridges, in particular, cartridges for hunting guns or for other firearm, for instance, pistols, revolvers intended for armament of employees of police, custom-house officers, securities and other services. SUBSTANCE: the cartridge has a cartridge case with a primer crimped on the front end, propellant charge and propelled body in the form of one or several following one another bullets. The minimum inside diameter of the cartridge case crimped end is within 0.90 to 0.97 of the arm caliber. The length of the crimped section of the cartridge case from the muzzle end is 1.8 to 1.9 of the arm caliber. The propelled body may be fastened by an annular shoulder formed on the inner surface of the cartridge case. A spacer may be installed between the propelled body and charge, the spacer may have undercuts - localizers. EFFECT: enhanced efficiency. 6 cl, 2 dwg

Description

 The invention relates to small arms ammunition, in particular to single-bullet and multi-bullet cartridges for firing from hunting rifles or from other weapons (for example, pistols and revolvers), intended for arming law enforcement officials - police, customs, paramilitary security, etc. . services.

 In the design of the cartridge according to ed. testimonial. USSR N 30574 the bullet is pressed into the barrel of the bottle sleeve and does not protrude from it (completely recessed into the sleeve), while the diameter of the bullet and the inner diameter of the sleeve are almost the same.

 In the design of multipurpose ammunition according to the application of France N 2303263 cl. F 42 d in a dulets with compression of a metal sleeve pressed several consecutive bullets. In one embodiment of the ammunition, the cartridge case barrel is rolled onto the ogival part of the front bullet protruding from the cartridge case cartridge (cartridge case cartridge with narrowing).

 In the design of the 7.62-mm revolving cartridge manufactured by the domestic industry (cartridge index 57 N-122.000, drawing 4-27865 / R 0650-84), a bullet is placed in the barrel of a cylindrical (without a ramp) shell with a depth of (relative to the cut of the sleeve) ( 0.23-0.32) d; in this case, the dulce part of the shell case at the cut is compressed along the inner diameter to 0.98d (where d is the caliber of the weapon). In addition, due to local (point) indentation of the sleeve, the latter is additionally connected to the bullet.

 The design of the 7.62 mm turret cartridge ind. 57N-122.000 adopted as a prototype.

 The disadvantages of this design of the cartridge, as well as other known ones, especially with a significant amount of the charging chamber, are insufficient accuracy of fire, a large spread of the initial velocity of the bullet in a series of shots, and when shooting with a cartridge with several bullets, there is also a spread of speeds of each bullet in one shot.

 One of the ways to increase the accuracy of fire and the stability of the ballistic characteristics of a shot is to provide an unstressed entry of bullets into the pool entrance of the barrel of the weapon and the creation of the necessary resistance at the beginning of the movement of the bullet in the weapon or in the cartridge case. In a cylindrical sleeve with an unpressed front of the bullet, without resistance from the very beginning of its movement during the shot, it skewed into the bullet entrance of the barrel of the weapon, which leads to a significant dispersion of holes in the shield at a given range.

 For a multi-purpose revolver designed to equip law enforcement agencies and designed to use different types of cartridges of different lengths and with different body lengths when firing from a single drum, the elimination of these shortcomings is especially important to ensure effective shooting.

 The aim of the invention is to increase the accuracy of fire, stability of ballistic characteristics and operational durability of cartridges.

 This goal is achieved by the fact that in a cartridge containing a sleeve compressed at the front end, an igniter capsule, a propellant charge and a throwable body, recessed and fixed inside the sleeve, the smallest internal diameter of the front compressed end is 0.90-0.97 caliber weapons and the length of the compressed section of the shell case from the muzzle end is 1.8-1.9 caliber weapons.

 In this case, the missile body can be made in the form of one or more successive bullets. A gasket can be installed between the propelled body and the propelling charge. If there is one bullet in the cartridge, it can be additionally fixed with an annular protrusion formed on the inner surface of the sleeve.

 The choice of the optimal inner diameter of the compressed part of the sleeve body and the length of the compressed portion of the sleeve body contributes to the directional movement of the missile body along the sleeve and a more accurate orientation of the missile body when it is inserted into the bullet hole of the weapon barrel and, as a result, improves the accuracy of fire.

 In addition, when firing a weapon with a cylindrical chamber, a cartridge with a compressed front part at the sleeve, the extraction of the spent sleeve is improved, which allows to increase the maximum pressure, and this allows to achieve a higher initial velocity of the bullets when firing.

 The excess of the outer diameter of the missile body over the smallest inner diameter of the compressed front part of the sleeve provides an increase in forcing pressure at the initial moment of the shot, which increases the stability of the propellant charge burning and, as a result, also the stability of the ballistic characteristics of the shot.

 In addition, the implementation of the inner diameter of the front of the sleeve less than the outer diameter of the missile body by compressing the front of the sleeve, up to the beginning of the leading part of the bullet, as well as the local annular protrusion along the inner diameter of the sleeve eliminates the displacement and loss of the bullet during transportation of the cartridge and when sending him into a weapon, which increases the reliability of the functioning of the cartridge and weapons when fired. The fastening of the bullet on the annular protrusion of the inner diameter of the sleeve body simplifies the assembly technology of the cartridge, excluding the loss of the bullet during its assembly.

 Figure 1 presents the cartridge with a half-shell bullet and with compression of the front of the sleeve in the form of a truncated cone; figure 2 is the same, with two half-shell bullets and with compression of the front of the sleeve in the form of a dulce.

 The cartridge contains a sleeve 1, a primer 2, a propelling charge 3 and a throwing body 4.

 The sleeve 1 connects all the elements of the cartridge into a single unit during assembly and together with the missile body 4 provides a high-quality shot with the necessary characteristics of the lesion.

 The interface of the sleeve 1 with the primer 2, as well as with the missile body 4 can be coated with a conventional sealant to improve the tightness of the cartridge. The selection of appropriate landings between these elements during cartridge assembly also contributes to this.

 The sleeve 1 from the front of the front part is compressed in such a way that the inner diameter of the compressed part of the sleeve is reduced to the cut of the sleeve, and when fired, this part of the sleeve is straightened by the throwing body. This compression of the front of the sleeve can be performed along a radius, a truncated cone, a cylinder, or along another more complex surface of a part or the entire portion of the sleeve body before the leading part of the bullet in the cartridge. This front crimped part of the sleeve during the shot serves as a bullet entry of the barrel of the weapon, providing the necessary force forcing in the initial period of the shot.

 Compression of the front of the shell case is carried out to a value at which the smallest inner diameter D of the compressed part is 0.90-0.97 caliber weapons, and the length L of the compressed section of the shell body is 1.8-1.9 caliber weapons.

 The throwing body 4 can be made in the form of one, for example, a shell or semi-shell bullet of a classical form, as well as in a non-metallic, for example, polyethylene, polyamide, rubber, etc., spherical bullet. The diameter of the spherical or leading part of the shell and semi-shell bullets is greater than the smallest inner diameter of the compressed part of the sleeve. A gasket can be installed between the missile body and the propellant charge, which separates the propellant charge from the missile body and reduces the volume of the powder chamber. It can be fixed by pressing into the sleeve, by rolling the sleeve or by gluing it to the sleeve.

 When shooting from a hunting weapon, it does not matter if the gasket remains in the sleeve when firing or flies out of it. When firing a revolver, it is important to achieve uniformity in the functioning of the gasket during firing, but it is preferable to keep its main part in the cartridge sleeve, since the gasket ejected from the cartridge sleeve, getting stuck in the area of the bullet entrance, causes difficult delays in the operation of the gun. The normal functioning of the gasket depends on its outer diameter and the presence in it of places of weakened section. From a technological point of view, it is preferable to make a gasket of a polymeric material, for example polyethylene. The dimensions of the smallest inner diameter of the compressed portion of the sleeve and the length of the compressed portion of the body of the sleeve selected experimentally. So, if the smallest inner diameter of the compressed part of the liner is more than 0.97 caliber weapons, the powder charge does not burn out completely, which causes a significant dispersion of muzzle pressure, a large flame during firing and a significant dispersion of the ballistic characteristics of the shot.

 If the smallest internal diameter of the compressed front of the cartridge case is less than 0.9 caliber weapons, then there is a significant increase in the maximum pressure of the powder gases, which leads to the formation of longitudinal cracks in the housing of the compressed cartridge shell, especially when firing at low temperatures, and impairs the accuracy of fire.

 When the length of the compressed section of the sleeve from the dulce cut of the sleeve is more than 1.9 caliber of the weapon, the maximum pressure of the powder gases during the shot increases significantly to an unacceptable value and the conditions for the movement of the bullet on the sleeve worsen, which leads to difficult extraction of the spent shells after the shot and a decrease in the energy characteristics of the shot.

 When the length of the compressed section of the sleeve from the muzzle cut is less than 1.8 caliber weapons, the conditions for the movement of the bullet along the sleeve and the burning of the propellant charge significantly worsen, which leads to a spread in the energy characteristics of the shot and a deterioration in the accuracy of fire. This leads to inefficient use of propellant charge and to a decrease in firing efficiency.

 When fired, the cartridge operates as follows.

 The gases generated during the shot, act through the gasket - if any - on the missile body 4 and accelerate it to the required initial speed when moving it in the sleeve 1 and in the barrel: when the bullet (bullets) 4 move on the sleeve 1, the front compressed part of the latter straightens out a bullet. After passing the front compressed part of the liner, the bullets continue their movement along the barrel, and after exiting the weapon - and along the path to the target.

 After exiting the weapon, the existing gasket 4 is separated from the bullets 4 when flying on a trajectory.

 The proposed design of a cartridge with one half-shell bullet and a cartridge with a spherical non-metallic bullet was tested by firing at a range of 50 m. At the same time, the accuracy of firing and the stability of ballistic characteristics satisfy current requirements.

Claims (6)

 1. A cartridge containing a sleeve compressed at the front end, an igniter capsule, a propellant charge and a throwable body fixed inside the sleeve, characterized in that the smallest inner diameter of the compressed end of the sleeve is 0.90 0.97 caliber weapons, and the length of the compressed section case shells from the muzzle end is equal to 1.8 1.9 caliber weapons.  2. The cartridge according to claim 1, characterized in that the missile body is made in the form of a single bullet.  3. The cartridge according to claim 1, characterized in that the missile body is made in the form of several successive bullets.  4. The cartridge according to claim 2, characterized in that the missile body is fixed by an annular protrusion formed on the inner surface of the sleeve.  5. The cartridge according to claim 1 or 2, characterized in that a gasket is installed between the missile body and the propellant charge.  6. The cartridge according to claim 5, characterized in that the gasket is made with undercuts-localizers.

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