RU2577163C1 - Rifle cartridge - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: invention relates to ammunition, particularly bullet cartridges for rifles. Bullet cartridge for rifle comprises a cylindrical sleeve with an elongation of not less than 2.7, primer is located on axis of cartridge, bullet, primary and secondary powder charges. Additional part of powder charge is separated from main powder charge diaphragm with an opening. Diaphragm with a hole is arranged inside case with tension and has initial diameter which 0.05-0.2 mm greater than inner diameter of case.

EFFECT: increased initial speed of bullet.

4 cl, 3 dwg

Description

The invention relates to ammunition, in particular to bullet cartridges for rifled weapons, and can be used for sport shooting and shooting while hunting, as well as for the needs of the Ministry of Internal Affairs.

Known analogues of a cartridge (Cartridge of .44 Magnum caliber), (Cartridge of .45-70-405 or .45-70 Government - an American central ignition rifle cartridge developed by Springfield Model 1873 arsenal based on .50-90 Sharps rifle) and (.45 Colt caliber cartridge) having: relatively long cylindrical capsule shells (Boxer type capsules), a powder charge and a bullet that can cut into the rifling of the barrel to give it rotation. The relative elongation of the sleeve of these cartridges (the ratio of the length of the sleeve to its inner diameter) is from 2.7 to 5.0. Ammunition can be used for firing long-barreled rifled weapons. This relative elongation of the sleeve is comparable to the relative elongation of the sleeve of smooth-bore cartridges of 12/70, 12/76 and 410/70 calibers, in which the method of increasing the initial speed of a bullet by separating the powder charge into parts by a diaphragm with a hole works successfully.

A well-known cartridge for rifled guns .454 Casull caliber (the cartridge was presented to the general public in 1959 in the American weapons magazine "Guns and Bullets" ("Guns and Ammo" and at an arms exhibition in the same year), which is selected for the prototype. The relative elongation of the sleeve of this cartridge is 3.0. The production of .454 Casull cartridges was established by many companies, and the cartridge itself, in addition to the United States, became standard for Europe as well, including in the Franconia catalog. The cartridge was developed in 1957 by Dick Casull and Jack Falmer and was first announced in November 1959 in the magazine "Guns and Ammo". The cartridge was based on an elongated cartridge sleeve .45 Colt.

Known for the prototype cartridge contains a cylindrical sleeve with an extension of at least 2.5 mm, a Boxer igniter capsule located on the axis of the cartridge, a powder charge and a bullet that can cut into the rifling of the barrel to give it rotation.

One of the disadvantages of the prototype cartridge and cartridge-analogues is the low speed of the bullet projectile. The second disadvantage of the prototype cartridge and the analog cartridges is that it uses the Boxer igniter capsule, which is inferior in its consumer properties to the igniter capsule known by the RF patent No. 2256148.

The combat qualities of a weapon - primarily its effectiveness - are determined by the ballistic characteristics of the selected cartridge. The cartridge together with the barrel directly determines the ballistic characteristics of the weapon, including the magnitude of the initial velocity of the bullet, which is necessary to overcome the bullet's distance to the target and the subsequent destruction of the target.

With an increase in the initial speed, the flight time of the bullet is reduced, which contributes to improved firing accuracy due to a decrease in the influence of errors in the preparation of the initial data. The increase in the initial velocity of the bullet is accompanied by an improvement in the persistence of the trajectory and an increase in the range of the direct shot, facilitating the use of weapons due to the possibility of firing at a constant sight. At the same time, the speed and kinetic energy of the bullet at the target both increase and its lethal and breakdown effect improves.

The aim of the invention is to increase the flight speed of the bullet cartridge rifled weapons with a cylindrical sleeve with a relative elongation of not less than 2.7 by increasing the mass of the powder charge without increasing the maximum pressure of the powder gases inside the barrel of a long-barrel rifled weapon, as well as increasing the reliability and reducing the response time of the igniter capsule when firing from a long-barrel rifled weapon.

The task of increasing the speed of a bullet by increasing the total mass of the propellant charge without increasing the maximum pressure of the powder gases is solved by the fact that in the inventive cartridge for rifled weapons with a cylindrical sleeve with a relative elongation of at least 2.7, the second additional part of the powder charge is placed in the sleeve, separated from the main powder charge by a diaphragm with a hole, while the diaphragm with a hole is placed inside the sleeve with an interference fit and has an initial diameter of 0.05-0.2 mm larger than the inside the diameter of the sleeve. The task to improve reliability and reduce the response time of the igniter capsule when firing from a long-barreled rifled weapon is solved by the fact that in the igniter capsule, consisting of a metal cap with an ignition composition pressed into it, coated with a sealing membrane, a three-domed anvil-shaped dome is placed, which, with the top of its dome, is in close contact with the sealing membrane, and the base of the anvil petals abuts against the lower wall of the cap of the igniter capsule and are tightly in contact with a special annular protrusion located in the capsule socket of the sleeve, while the diameter of the annular protrusion is less than the diameter of the capsule hole by the size of the quadruple wall thickness of the cap of the igniter plus 0.15 mm. This embodiment of the igniter capsule and the presence of a special annular protrusion in the capsular socket of the liner leads to an increase in the stiffness of the weapon’s combat strike on the igniter composition, since the anvil rests on a special annular protrusion. With this design of the igniter capsule, the possible shift of the cap of the igniter capsule from the impact of the striker does not reduce the impact force on the igniter composition. In addition, this embodiment of the shell with the bend allows even in the case when the anvil is pressed into the cap not exactly with tolerances of 0.05-0.1 mm, always rigidly rest it on a special annular protrusion in the capsular socket of the sleeve, which will also lead to a tight pressing anvil domes to impact-ignition composition through a sealing membrane.

To study the influence of the gap between the anvil and the impact-ignition composition on the uniformity of the ballistics of the shot (also on the accuracy of the shot) and on its failure-freeness, we consider the mechanics of the forces acting on the gun from the moment of aiming to ignite the powder charge. At the same time, we digress from factors affecting the accuracy of shooting, but not depending on the processes of operation of the shock composition of the igniter capsule and the transmission of the igniting pulse to the powder charge. For convenience, consider shooting at a fixed target in the horizontal plane. In this case, the gun can be considered as a beam on two supports, a shoulder arrow and a supporting arm. To simplify the task once again, we assume that the shoulder on which the butt rests is a fixed support, part of the weight of the gun P ₁ presses on it, and the supporting arm experiences a load of P ₂ .

Ρ ₁ + Ρ ₂ = Ρ, where Ρ is the weight of the gun.

To hold the gun on the sight line, the shooter applies a force F = P ₂ in the opposite direction with his supporting hand. Aiming, the shooter begins to put pressure on the trigger with an effort equal to the resistance force of the safety spring of the trigger mechanism. This creates additional force, which pulls the barrel down. In order to balance this force, the shooter exerts an additional force - ΔF.

After the force of the safety spring of the trigger mechanism is overcome and the striker begins to move, the counteraction of the spring stops and, accordingly, the force that pulls the barrel down also disappears. But by inertia, which is natural for humans, ΔF continues to act, and this means that the barrel moves upward relative to the fixed stock at a certain angle α. The angle α depends on the strength of the safety spring of the trigger mechanism and a certain time interval t from the start of the striker movement to the ignition of the powder charge and the start of the bullet movement. The value of the spring resistance force for a given weapon is constant, and at a constant time t, the angle α would also be constant and adjusted with an aim. But time t is not a constant value. There are technological tolerances on the dimensions of the cartridge components, such as the height of the pressurization of the composition of the igniter capsule, the depth of drowning of the anvil, and the depth of landing of the capsule igniter. These assembly tolerances can compensate each other, but they can also be summed up, as a result the anvil can either rest against the composition, or a gap of up to 0.5 mm can form between the anvil and the composition. In the first case, the impact pulse of the striker is directly transmitted to the shock-ignition composition, respectively, the composition instantly ignites and the ignition pulse is transmitted to the powder charge. In the second - at the beginning, the bottom of the cap and tablet of the pressed shock-ignition composition is deformed until the shock-ignition composition stops in the anvil. Naturally, the farther the igniter composition from the anvil, the longer the time t from the contact of the striker on the bottom of the igniter capsule to the ignition of the composition, and hence the greater the angle α.

In fig. 1 and fig. 2 shows the proposed design of the cartridge in two possible versions with the “Boxer” type igniter capsule and a new technical solution for the igniter capsule and the cartridge sleeve socket.

In fig. 3 shows the current forces on rifled weapons when firing.

The design of the proposed cartridge according to the first embodiment contains a sleeve 1 and sequentially located in it: a primer 2, a main powder charge 3, a diaphragm with a hole 4, an additional part of the powder charge at bullet 5, bullet 6.

The design of the proposed cartridge in the second embodiment contains a sleeve 1, the main powder charge 3, the diaphragm with a hole 4, an additional part of the powder charge at the bullet 5, bullet 6, the cap of the igniter 7, shock-igniter composition 8, coated with a sealing membrane 9, three-leaf anvil dome-shaped 10 and a special annular protrusion 11 located in the capsule socket.

The design of the cartridge for both versions provides a certain time delay for ignition of the additional part of the powder charge 5, which allows to increase the mass of the full propellant charge and the flight speed of the bullet projectile.

The cartridge works as follows: from the impact of the striker of a long-barreled rifled weapon, the igniter capsule of the cartridge 2 is activated and the main powder charge 3 lights up. The pressure of the powder gases, which are released from the combustion of an additional part of the powder charge, starts to increase. Under the pressure of the powder gases generated by the combustion of this part of the powder charge, the assembly inside the sleeve accelerates: diaphragm 4, part of the powder charge 5 and bullet 6. During the acceleration of this assembly, the powder gases flow through the hole in the diaphragm 4 into the space occupied by the additional part of the powder charge 5, and its powder grains are heated. Upon reaching a certain degree of heating of the grains, part of the powder charge 5 also ignites and the powder gases generated during combustion increase the pressure and provide a more complete filling of the pressure-time diagram, i.e. without increasing the maximum pressure, the magnitude of the pulse pressure force of the powder gases on the bullet 6 increases, and this increases its initial flight speed.

The burning of part of the powder charge 5, the mass of which is selected experimentally, no longer causes an increase in the maximum pressure level of the powder gases, because the bullet is already moving at a fairly high speed and the volume of the bullet space in the barrel increases sharply. In the future, only a bullet moves along a ballistic trajectory to hit the target, which rotates from the passage of the rifling of the barrel. A light diaphragm that separates the powder charge into parts flies out of the barrel later than the bullet and is immediately braked by air resistance, without causing a violation of the accuracy of the bullet's flight.

To perform the effect of interference fitting the diaphragm inside the cavity of the liner, the diaphragm is made of either cardboard or elastic plastic.

Due to the fact that the relative elongations of the cylindrical liners of the prototype and analogues are close to the relative elongations of the cylindrical liners of cartridges for smoothbore guns, for which the principles of increasing the speed of the missile element due to the separation of the powder charge into parts by apertures with holes have been well studied (RF patents No. 2102693, No. 102103, No. 2301954, No. 143745, No. 2512815, No. 2522753), it can be assumed that this principle of increasing the speed of the bullet will be applicable to rifled cartridges. As a justification for this statement, we can cite the results of ballistic tests of a .410 caliber bullet cartridge, which is close in caliber to prototype cartridges and analogues (see the article "Accuracy. Accuracy", Okhotnik Arsenal, Moscow, No. 9, 2006 .). FSUE NMZ Iskra jointly with Barnaul Cartridge Plant CJSC carried out work to modernize the 410-caliber bullet cartridge with a steel sleeve. The upgraded cartridge differs from the standard one in that it has a 30% mass-enhanced powder charge, consisting of “Sunar-410” gunpowder. The gasket separating the charge into parts was a circle 1.5 mm thick, 11.3 mm in diameter, with a 1.8 mm diameter central hole. The remaining elements of the cartridge are the same, but due to the fact that the separating gasket and the additional charge of gunpowder occupied a certain area inside the sleeve, the wad-compensator was shortened by the length of this section: a section 5.5 in length was cut off from the side of the contact with the bullet at the wad-compensator mm By analogy with the results of such a modernization of a 12-gauge bullet cartridge, it was expected that the average speed would increase by 70-80 m / s, the average maximum pressure would increase slightly, the path reduction at a distance of 100 m would be less than that of a standard cartridge, and the accuracy of fire would be above. The latest serial cartridges were equipped with gunpowder "Sunar-410" party 1-05K. The mass of the charge is 1.39 g. The total charge for the experimental cartridges of .410 caliber with a divided powder charge was 1.39 × 1.3 = 1.8 g.

The mass of the main powder charge was 1.8 × 2/3 = 1.2 g. An additional part of the powder charge was 1.8 × 1/3 = 0.6 g, respectively. A separating cardboard pad was inserted with a force of 2-5 kg. Cartridges tested: 10 pieces for speed and pressure; 10 pieces for accuracy at a distance of 35 m; 10 pieces for accuracy at a distance of 100 m, in parallel with cartridges from the model batch of OB-01.

Analysis of the results of the shooting showed the following:

- for modernized .410 caliber cartridges with a separated powder charge: speed at a distance of 10 m from the muzzle end 580 m / s; bullet velocity dispersion 33 m / s; maximum pressure 929 kgf / cm ² ; accuracy of fire at 35 m - 11.5 cm; accuracy of shooting at 100 m - 31 cm;

- for standard cartridges of .410 caliber: speed at a distance of 10 m from the muzzle end 496 m / s; speed dispersion 19 m / s; maximum pressure 825 kgf / cm ² ; accuracy of fire at 35 m - 15 cm; accuracy of fire at a distance of 100 m - 64.5 cm.

Thus, a modernized cartridge with a divided powder charge at almost the same maximum pressure with a standard cartridge exceeds it in speed by 17%, and in accuracy by 100 m - by 2 times. It is known according to the instructions for reloading (vihtavuori reloding manual) that a .454 Casull caliber cartridge with a 16 g bullet according to the prototype in rifled weapons provides an initial bullet speed of 530-570 m / s. Therefore, the implementation of the modernization of the cartridge according to the invention will increase the initial flight speed of a bullet weighing 16 g by 10-15%, i.e. get values of 610-660 m / s. In this cartridge .410 caliber according to the invention for the main charge and additional parts used the same gunpowder "Sunar-410". However, if we again draw an analogy with ballistic studies on the effectiveness of the use of a divided powder charge for smoothbore cartridges set forth in RF patents No. 102103 and No. 14374, where the feasibility of using different grades of gunpowder for the main charge and for the additional part is proved, then in the rifle cartridge for The present invention can also experimentally select conditions with two different gunpowders for the main charge and the additional part. Rifle cartridge ammunition according to the invention is possible both on modern automatic lines with two gunpowder dispensers, as well as on hand-held devices mass-produced by the industry for reloading (re-rouding) fired threaded cartridges with cylindrical sleeves with a relative elongation of more than 2.7. On a separate automated equipment, they are cut out of cardboard or cast from elastic plastic diaphragms with a small diameter hole.

It is important to note that the high-speed bullet cartridge for rifled weapons according to the invention is a dual-use solution and can be used both for the production of hunting and sports cartridges, and in the manufacture of special cartridges for the needs of the Ministry of Internal Affairs of Russia.

Claims (4)

1. Bullet cartridge for rifled weapons, containing a cylindrical sleeve with a relative elongation of at least 2.7, an igniter capsule located on the axis of the cartridge, the main powder charge and a bullet that can cut into the rifling of the barrel to give it rotation, characterized in that the second additional part of the powder charge is placed in the sleeve, separated from the main powder charge by a diaphragm with a hole, while a diaphragm with a hole is placed inside the sleeve with an interference fit and has an initial diameter of 0.05-0.2 mm larger than the inside it liner diameter. 2. The bullet cartridge according to claim 1, characterized in that the main powder charge and an additional part of the powder charge are made of various grades of gunpowder, differing in burning speed. 3. The bullet cartridge according to claim 1, characterized in that the diaphragm with a hole is made of plastic or cardboard. 4. The bullet cartridge according to claim 1, characterized in that in the igniter capsule, consisting of a metal cap with a shock-ignition composition pressed into it, covered with a sealing membrane, a three-leaf dome-shaped anvil is placed, which is in contact with the sealing membrane with the top of its dome and the base of the anvil petals abuts against the inner wall of the cap of the igniter capsule and is in close contact with a special annular protrusion located in the capsule nom socket liner, with a diameter smaller than the diameter of the annular projection primer opening by an amount four times the wall thickness of the cap the primer, plus 0.15 mm.

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