RU2691044C1 - Metal cartridge case of a hunting gun - Google Patents

Abstract

FIELD: weapons and ammunition.SUBSTANCE: invention relates to ammunition, in particular, to designs of case for cartridges of hunting rifles. Cartridge case includes housing in form of thin-wall tube, bottom with socket for cap, rim for ejector. On the external surface of the shell case there is a deformation compensator in the form of hemispherical pins, arranged in a staggered order, the base housing of the sleeve is made cylindrical; on the side of the collar at the case shell edge there is a shell, the inner surface of the housing of the case has a chromium-plated coating. Shell on the side of the case neck and the peripheral part of the case allow matching the output dimension of the case to the barrel and fixing the shot wad and facilitating the loading of the gun.EFFECT: technical result consists in improvement of shot quality and reliability of case extraction from cartridge chamber.4 cl, 3 dwg

Description

The invention relates to the field of hunting ammunition and relates to metal sleeves for cartridges of smooth-bore hunting rifles.

Cartridges for hunting rifles have a cylindrical sleeve made of brass, paper or plastic, a central combat capsule, as a striking element using special bullets, shot or canister. As a rule, all these elements are shellless, made of lead. Some smooth-bore bullets are able to stabilize in flight. Fraction and canister have a low effective range, not more than 40-60 meters.

Metal shells are more economical, as they can be recharged many times and are ignited by a cheap “Centroma” capsule. In addition, both weak charges on a small animal and a bird, and charges of a Magnum type on a large animal are charged into a metal sleeve. Metal shells are strong, moisture resistant, stored for decades without deterioration, while paper and plastic are easily deformed, torn when fired, stored for only a few years.

The cartridges use various gaskets and wads to prevent the powder from getting into the shot or spilling the shot out of the cartridge. Material pads and pyzhe cardboard, paper, etc. Also in the cartridges are used shutters made of polyethylene and cardboard to prevent the breakthrough of powder gases and thereby increasing the speed of the projectile. Modern factory-made cartridges mainly use plastic wad-containers, cast as a whole, and consisting of a obturator, a shock absorber and a container containing a shot or a canister. This method of charging allows you to slightly improve the accuracy of the shot shot, also allows you to organize equipment cartridges on an automatic line.

In the process of firing a sleeve plays an extremely important role. In the same ammunition and under the same conditions of their equipment, the indicators of internal and external ballistics vary considerably depending on the design of the liner and, most of all, on the strength and elasticity of the material from which it is made.

The need to upgrade the cartridge is associated with avoiding the problems associated with rupture and sticking of the liner in the chamber when it is fed and extracted. The shape and size of the chamber are determined by the shape and size of the sleeve. Between the walls of the sleeve and the chamber make a gap that provides free insertion of the cartridge and in the presence of dust or a grease layer in the chamber.

Known designs of cartridges, metal sleeves which are seamless with a thin wall tube with a bottom, having a filling (side) and a central landing nest with a stamped anvil under the KB central combat (CB). In the capsule nest there are seed holes for the passage of the force of the flame from KV to gunpowder.

Also known are the designs of cartridges having a metal sleeve with a socket without an anvil under KV of the Winchester type, Zhevelo or KV-21 type. The main advantage of metal cartridges for cartridges is the possibility of their multiple use in the range of air temperatures (± 50 ° С) with various types of powder charges.

However, these metal shells (Trofimov VN. Hunting ammunition (reference book), "Modern Word", Minsk, 1997, p. 1-28, Fig. 1A), containing a thin-walled cylindrical body and a bottom with a hole for the capsule and a rim for ejector, have significant drawbacks:

- The wall thickness of the body of the metal sleeve is about 0.4 mm, while paper and plastic - about 1 mm. As a result, the internal diameter dl of the metal sleeve is 1.0-1.2 mm larger than the internal diameter of the paper and plastic sleeve. The trunks of modern guns are drilled for paper and plastic sleeves, but not for metal. As a result, the diameter of the bore, equal to the inner diameter of paper and plastic sleeves d, is 1.0–1.2 mm smaller than the internal diameter of metal sleeves d1 (Trofimov VN Hunting weapons. Device, malfunctions, care. Reference. M. , 1997, pp. 45-47). This mismatch leads to distortions and deformations of the wads and projectile during the transition from the cartridge to the barrel, the breakthrough of powder gases and as a result to the deterioration of the quality of the battle - accuracy and sharpness;

- it is difficult to keep the shot shell in them with a shot wad, because of this the optimum forcing pressure is often not achieved, which reduces the quality of the fight. Poor fixation of shot wad in a metal sleeve, due to the cylindrical shape of the inner surface of the housing. This leads to a loss of charge on the hunt, as well as its departure from the cartridge of the second barrel when fired from the first due to recoil, which can lead to rupture of the gun. In addition, the weak fixing of the shot wad does not allow creating the necessary forcing pressure for simultaneous ignition of the entire powder charge (the projectile starts moving at the very beginning of the ignition of the powder), resulting in slow burning smokeless powders of the Falcon or Sunar type that do not have time to burn in the channel the barrel and the shot turns out weak. Therefore, in metal cartridges with a centrifugal cap, it is recommended to use only black powders as quick-burning ones. Smokeless powders can be used only with special methods of charging cartridges (Trofimov VN. Hunting weapons. Device, malfunctions, maintenance. Handbook. M., 1997, pp. 45-47) and special fractional wads (Sheinin SM, Korneychev IP Fractional wad for a metal sleeve (Aut. St. USSR 1101667, class F42B 7/04 dated 10.25.82), firmly fixing the projectile;

- when fired, metal shells are less susceptible to elastic deformation and do not always fit snugly against the walls of the chamber, which can lead to gas breakthroughs;

- after repeated use of a sleeve with a Winchester type HF socket, the capsule nest is quickly broken, and the sleeve becomes unsuitable for further equipment.

For a high-quality shot, the inside diameter of the liner should be as precisely as possible combined with the diameter of the bore. The more precisely the diameters coincide, the better the fight, since there is no restructuring of the shot shell and the wads during the transition from the liner to the barrel.

Paper tubes to the greatest extent meet these requirements, since their diameter corresponds to the inner diameter of most types of domestic hunting rifles.

Also the advantage of paper sleeves is that their Dultsev is easily rolled or sealed with an asterisk. This ensures a reliable fastening of a shot shell by a shotgun (shot shot), or even it is possible to do without them when being sealed with an asterisk. Stable boost pressure while providing a good quality shot.

In addition, steel, clad with zinc and copper (bimetallic) sleeves are more susceptible to residual deformation after the shot. With an enhanced charge, sometimes longitudinal cracks appear.

When firing from a multiply-charged weapon, local swellings of the base on the ejector approaches, deformation of the sleeve edge by the ejector, reflector, suppressor, or bolt of the weapon are possible.

When using low-quality materials for a tube of a sleeve, it is possible to break the sleeve's sleeve, and even tear off individual fragments along the folds.

In small hunting calibers, wads are held in a metal sleeve better, which increases the boost pressure. In addition, in weapons for such cartridges generally allowed higher working pressure in the chamber. Therefore, the annular expansion of the lower part of the tube usually becomes a characteristic defect of a fired brass sleeve. Brass has been used as a material for metal shells for a long time, but now along with brass, zinc-coated steel (conversion technology) and even aluminum are used.

During long-term storage, brass sleeves are oxidized. They are recommended to be cleaned, and when reloading a spent cartridge case to cook in caustic soda. If we compare the different types of metal shells, brass have an undoubted advantage among them. This is explained by the higher toughness of brass compared to the viscosity of steel and aluminum, which in turn allows the brass sleeve to withstand a large number of shots until the body cracks and to maintain the size of the capsule socket longer.

The disadvantage of the known cartridges - paper, plastic, metal is the unequal speed of the projectile and accuracy with the same weights of powder and shot, which is associated with the unequal force of fixing the shot wad in different cartridges.

A known design of the cartridge for smooth-bore hunting rifles containing a sleeve, primer-igniter, propellant charge, wad and projectile element. The propellant charge is divided into three parts by two diaphragms with holes. For a part of the propellant charge located at the primer-igniter, and for the middle part of the propellant charge, either one brand of powder with the same burning rate or different brands of gunpowder with different burning rates are applied. For the third part, another brand of gunpowder is used with a burning rate different from that of the brand of gunpowder used in the propellant part located at the primer-igniter and in the middle part of the propellant, which increases the initial velocity of the shot projectile without increasing the pressure of the powder gases at the shot (RF patent 2522753 C1 IPC F42B 7/02, 7/08).

The disadvantage of the known cartridge is that its design is complex and it is assumed the use of different grades of gunpowder. In addition, the disadvantages of the known cartridge case can be attributed to the lack of strength of the liner wall body, leading to periodic and unforeseen ruptures in the extraction after the shot.

The closest to the invention to the technical nature and adopted for the prototype is a metal cartridge case, including the bottom part, groove, cone-shaped body, ramp and Dultse. A compensator of deformations in the form of hemispherical pimples arranged in a checkerboard pattern is made on the outer surface of the sleeve case. The device of the deformation compensator in the form of hemispherical pimples allows to increase the reliability of extraction of the sleeve from the cartridge chamber (RF patent №2562888 C1 IPC F42B 3/28).

The disadvantage is that the metal sleeve of the prototype is designed for rifled weapons. The use of sleeves for cartridges for smooth-bore hunting rifles requires constructive changes. In addition, in this design there is no protective belt that prevents the possible penetration of powder gases after a shot into the breech chamber (violation of obturation).

Known metal sleeves have a sharp edge on the Dultz side, which leads to gearing for any irregularities in the gun and prevents them from being used in self-loading rifles.

The purpose of the invention is to eliminate the drawbacks of the prototype, to bring the internal diameter of the metal sleeve of a hunting rifle to the bore diameter for widely used plastic and paper sleeves, to increase the achievement of the optimal pressure of the boost gases for simultaneous ignition and maximum combustion of the powder charge of the cartridge when firing, to improve the quality of combat - accuracy, sharpness and range of a shot projectile, improving the reliability of extraction of the sleeve from the chamber, facilitating the flow and a cartridge in the chamber, cleaning of the chamber against possible fouling of propellant gases, increasing the shelf life of cartridges.

This technical result of the invention is achieved by a combination of common known features contained in the prototype and in the proposed technical solution, including a metal capsule sleeve with a bottom part, edge, cylindrical body on the surface of which are arranged deformation compensators in the form of hemispherical pimples of a certain thickness and staggered, and new features, namely, that the base body of the sleeve has a smooth cylindrical shape. In addition, the sleeve from the side of the Dultum has a ring in the form of a ring.

The shell on the Dultz side of the body and the peripheral part of the liner allow you to align the output size of the liner with the barrel and fix the shot wad, and facilitate the loading of the gun.

When charging the cartridge, a thick (10 mm or more) powder wad and a shot wad in the form of a plate with the bottom inside the cartridge are used. The side walls of the shot wad tightly abut against the thickening of the liner, as a result of which the projectile cannot fall out of the cartridge when it is tilted or shot from the first barrel.

The chrome-plated inner surface of the liner casing provides a more complete combustion of the powder and reduces its heating during the shot due to the reflection of heat rays. It also preserves the properties of gunpowder cartridge for a long time, due to the reduced heat exchange with the environment and works.

The smooth cylindrical base case of the liner prevents the penetration of powder gases after a shot into the breech chamber, provides an obturation, in which the gases work as intended, which increases the efficiency and safety of the weapon.

Technical solutions with features that distinguish the claimed solution from the prototype are unknown and are not explicitly derived from technology.

This suggests 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 the cartridge case. The sleeve is made by punching and drawing out of a flat metal tape - brass, copper, stainless steel, bimetal and contains the body 1 in the form of a thin-walled tube, closed on one side by the bottom 2. There is a nest under the capsule 3 and a rim (edge) 4 for the ejector on the bottom. On the other, the muzzle side, the housing 1 is open, and on its edge of the surface a shell 5 is made with a smooth transition from the outer diameter of the housing dl to a diameter d2 equal to the diameter of the barrel bore. The width of the sleeve shell of the shell of the sleeve is 5 mm. On the side of the bottom, the sleeve body has a cylindrical surface 6. Between the cylindrical surface of the sleeve and the sleeve, the body has a peripheral surface 7 of hemispherical pimples - 8. The shell of the muzzle end of the sleeve is rounded, and serves to facilitate the entry of the cartridge into the cartridge chamber when it is loaded, especially in the case of self-loading guns, fixing shot wad in the cartridge and reliable supply of powder gas with high pressure after the shot between the wall of the chamber and the sleeve. The outer dimensions of the liner correspond to the size of the chamber of the gun. The figure shows the staggered placement of hemispherical pimples on the surface of the cartridge case, the diameter and the pitch depend on the caliber of ammunition and are selected experimentally. For hunting guns of the main caliber 12 and 16, the diameter of the hemispherical pimples is d1.5-2 mm, the pitch is b3.5-5 mm, the height is h0.5-0.6 mm, and the shell width on the side of the sleeve body is c = 3, 0 mm. The inner part of the sleeve body has a chrome-plated coating 9. In FIG. 2 shows the loaded cartridge, which includes the cartridge case itself, a capsule 10, a powder charge 11, a powder powder 12, a shot charge 13, shot sands 14. In FIG. 3 shows a pushed cartridge in the chamber of a gun - 15. There is a gap between the body of the cartridge case and the wall of the chamber, for free inserting the cartridge into the gun chamber. Considering that the hemispherical pimples of the liner when the cartridge is fed into the chamber of a gun are cleaned if there is dust and a layer of grease in it, and when the liner is extracted after the shot, the chamber is cleaned of soot, the gap is minimal and up to 0.5 mm.

The device works as follows. Before firing, the cartridge is pushed into the chamber, while ensuring that the cartridge is freely inserted, and if there is dust or a layer of lubricant in the chamber, due to the gap between the sleeve body and the chamber. When fired, the cap ignites the part of the powder adjacent to it and under pressure of the powder gases the powder wad and projectile begin to move. However, this movement is hampered by the shot wad, which rests against the shell and the deepening of the hemispherical pimples on the inside of the liner case, which provide a shot charge jam. The delay of the projectile shot contributes to the creation of a high pressure in the cartridge and the ignition of the rest of the powder mass. In addition, the chrome-plated part of the inner surface of the liner, due to the reflection of heat rays, additionally contributes to a more complete combustion of gunpowder during the shot, as well as heating of the liner and chamber. As a result, even a smokeless, slowly burning powder charge has time to completely burn during the movement of the projectile along the bore, which ensures the necessary sharpness of the shot. Gunpowder wad smoothly passes from the sleeve into the barrel bore consistent with it without distortions and breakthrough of powder gases, which ensures accuracy of the fight. In the case of using the proposed metal liner with shot blasts of factory production, the same fixing force is ensured for all the cartridges and the uniformity of their shots, since the charging operation eliminates spinning (paper and plastic cartridges) or casting wax (metal cartridges) of the shot wad, which leads to scatter.

The advantage of the proposed design is that the shell on the Dulz side of the body and the peripheral part of the sleeve allow you to align its output size with the barrel and fix shot shot, make it easier to load the gun. Chrome plating of the inner surface of the liner housing ensures minimal heat transfer to the liner and the chamber after the shot, which reduces their heating and increases the survivability of the barrel, has a positive effect on the rate of fire of multi-shot rifles, therefore, determines the combat effectiveness of the weapon.

The peripheral surface of the sleeve in the form of hemispherical pimples gives it rigidity and prevents its rupture when fired, reduces its thickness, and, consequently, lighten the weight.

The design of the liner is easy to manufacture and allows for use in mass production of cartridges, applicable to existing weapons.

The practical implementation of the proposed device cartridge case is not in doubt, as it is based on the use of known materials, devices, technical solutions.

Claims (4)

1. Metal sleeve of a hunting rifle cartridge, including a body in the form of a thin-walled tube, a bottom with a nest under the capsule, filling for the ejector, characterized in that in order to bring the internal diameter of the metal sleeve of the hunting rifle to the diameter of the widely used plastic and paper sleeves To improve the quality of the shot, the body of the wall of the metal sleeve is made peripheral in the form of hemispherical pimples of a certain thickness and arranged in a checkerboard pattern, pimple height difference of wall thickness of plastic or paper and metal sleeves. 2. Metal sleeve cartridge hunting rifle under item 1, characterized in that to prevent the penetration of powder gases after the shot into the breech chamber, the base body of the sleeve is cylindrical. 3. The metal sleeve of the cartridge of the hunting rifle according to claim 1, characterized in that from the side of the barrel at the edge of the body of the sleeve the shell is made. 4. Metal sleeve cartridge hunting rifle under item 1, characterized in that the inner surface of the body of the sleeve has a chrome finish.

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