RU2768532C1 - Method for shooting marking cartridges and marking cartridge implementing it - Google Patents

Abstract

FIELD: weapons.

SUBSTANCE: inventions group relates to weapons, namely to a method for firing marking cartridges and a marking cartridge that implements this method. The method for firing marking cartridges includes the use of cartridges with safety projectile equipment completely installed inside the cartridge case, containing a capsule with a coloring agent made in the form of a cap with a weakened head part made of a polymer material and a plug installed in a tray made of an elastic material, shot production. The method includes movement of safe throwable equipment along the bore of a weapon under the action of powder gases, protection of a capsule with a coloring agent from the effects of powder gases, obturation of powder gases, protection of a capsule with a coloring matter from interaction with the barrel bore, and departure of safety-safe thrown equipment from the bore with the required initial speed. When fired, the projectile equipment is moved through a circular section, the minimum diameter of which is less than the outer diameter of the capsule with the dye. After that, the capsule with the colorant is acted upon with a radial force exceeding the strength of the capsule, and the capsule with the colorant is opened until the missile equipment leaves the barrel bore. A marking cartridge is also disclosed, which implements a method for firing marking cartridges.

EFFECT: increasing the reliability of the shooting results due to the controlled opening of the capsule with the coloring matter.

2 cl, 4 dwg

Description

SUBSTANCE: invention relates to practice shooting, including practice shooting by employees of anti-terrorist units under conditions simulating the real conditions of anti-terrorist operations.

Practice shooting with marking cartridges has become widespread, in which two groups of participants shoot at each other, followed by an analysis of the results of firing on the color marks left in the places where the marking cartridges were hit by the thrown equipment. The use of personal protective equipment in combination with the low kinetic energy of the projectile marking cartridges ensures the safety of training participants and a high degree of imitation of the real conditions of anti-terrorist operations.

Methods of firing with marking cartridges have become widespread, including the use of cartridges with safety-hazardous projectile equipment containing a capsule with a dye, firing a shot, moving safety-safe projectile equipment along the bore of a weapon under the action of powder gases, obturation of powder gases and the departure of safety-safe projectile equipment from the bore with the required initial speed.

Marking cartridges containing a cartridge case with an initiating agent, a powder propellant charge and safety projectile equipment containing a capsule with a dye have become widespread. The impact of safety missile equipment on both hard and soft surfaces should lead to the opening of the capsule with the dye and the release of the dye, leaving a distinct color mark at the point of impact on the target.

Safety throwable equipment of marking cartridges contains a capsule with a coloring agent, made in the form of a cap with a weakened head part, made of a polymeric material, and a plug-in plug closing the cap from the side of the open part. The cap and stopper together form a tightly closed cavity containing a semi-liquid water-soluble coloring matter.

A feature of marking cartridges is the conflicting requirements for the strength of the capsule with the coloring matter. A capsule with a coloring matter must maintain integrity during the manufacture, assembly of cartridges, handling of cartridges, loading into a weapon magazine and unloading, removing cartridges from the chamber by weapon mechanisms, shocks and falls, as well as under the influence of loads accompanying a shot. At the same time, the capsule with the coloring matter must lose its integrity and ensure the release of the coloring matter when it hits both a hard and a soft surface. In this case, the loads on the capsule that occur under the influence of powder gases during firing, and the loads that occur when the capsule interacts with the bore of the weapon, can significantly exceed the loads that occur when the capsule hits not only a soft, but also a hard surface. Thus, the method of firing marking cartridges and the cartridge that implements it must simultaneously ensure the integrity of the capsule with the coloring matter during the production process, when handling cartridges and under the influence of loads accompanying the shot, and reliable opening of the capsule when it hits both solid and soft surface at the maximum range characteristic of marking cartridges. Practice shows that a significant part of the capsules with the coloring matter is not opened when it hits the target and does not provide the release of the coloring matter. The conflicting requirements for the strength of the capsule with the dye cause low reliability of opening the capsule when it hits the target and low reliability of the training results, which decreases with decreasing target hardness and increasing firing range.

A known method of firing marking cartridges Simunition FX® Marking cartridges manufactured by General Dynamics Ordnance and Tactical Systems (trade name Simunition), which includes the use of cartridges with safe projectile equipment, which is a capsule with a dye, firing, moving safe projectile equipment along the bore of the weapon under the action of powder gases, the obturation of powder gases and the flight of safety missile equipment from the bore at the required initial speed [1, 2].

According to the known method, when fired, the capsule with the colorant is exposed to powder gases, and the obturation of the powder gases is ensured due to the interaction of the entire lateral cylindrical surface of the capsule with the bore of the weapon.

Simunition marking cartridges are known, containing a cartridge case with an initiating agent, a powder propellant charge and safety projectile equipment installed in the cartridge case and partially protruding from the cartridge case in the form of a bullet cartridge, which is a capsule with a dye, as well as structural elements that provide a smooth increase when fired the pressure of powder gases in the space behind the traumatically safe projectile equipment [1, 2].

Marking cartridges are also known, which implement the technical solutions used in Simunition marking cartridges [3-12].

The disadvantages of the known method and cartridges Simunition are [13, 14]:

- low effectiveness of training;

- low stability of the initial speed and kinetic energy of the traumatically safe projectile equipment;

- low durability of cartridges;

- low reliability of training results.

The low effectiveness of training when firing with Simunition marking cartridges is due to the low initial speed and kinetic energy of the safety equipment being thrown. When fired, the capsule with the coloring matter is subjected to the loads accompanying the shot. The need to maintain the integrity of the capsule with the coloring matter under the influence of the loads accompanying the shot requires a significant reduction in the power of the powder propellant charge and a smooth increase in the pressure of the powder gases in the space behind the capsule. Reducing the power of the powder propellant charge leads to a decrease in the initial speed and initial kinetic energy of the projectile equipment.

The low stability of the initial velocity and kinetic energy of the projectile when firing with Simunition marking cartridges is due to the low power of the powder propellant charge and insufficient obturation of the powder gases when the capsule with the dye moves along the barrel bore. The interaction of the lateral cylindrical surface of the cap made of a polymer material with the bore is accompanied by crushing, deformation, detachment of cap fragments, breakthrough of powder gases and, by definition, is unstable.

The low durability of the Simunition marking cartridges is due to the low strength of the colorant capsule. The low strength of the capsule excludes the possibility of its strong fastening in the sleeve. Even a slight force applied to the capsule can cause damage to the weakened head of the capsule or the capsule falling out of the sleeve. The low strength of Simunition marking cartridges requires especially careful handling of cartridges and causes a high probability of damage or violation of the integrity of the cartridges when handling cartridges, loading into the weapon magazine and unloading, as well as when removing cartridges from the chamber by weapon mechanisms, bumps and falls. The Simunition guidance documents contain instructions on the need to carefully load cartridges into the pistol magazine in order to avoid falling out of the capsule with the dye and on the inadmissibility of the magazine being fully loaded (no more than 80% capacity) [15-17].

The low reliability of the training results when firing with Simunition marking cartridges is due to the low reliability of opening the capsule with the dye when the target hits.

Closest to the proposed method is a method of firing marking cartridges, including the use of cartridges with safety projectile equipment completely installed inside the cartridge case, containing a capsule with a dye made in the form of a cap with a weakened head part made of polymer material, and a plug-in plug installed in pallet made of elastic material, firing a shot, moving safe throwable equipment along the weapon barrel under the action of powder gases, protecting the capsule with the dye from the effects of powder gases, obturating the powder gases, protecting the capsule with the dye from interaction with the barrel bore and flying out the safety projectile equipment from the bore with the required initial speed [13, 14].

According to the known method, cartridges are used in which the capsule with the dye is installed in a tray made of elastic material that provides obturation of the powder gases and protects the capsule with the dye from the effects of powder gases and from interaction with the bore during firing. The protection of the capsule with the dye from the effects of powder gases during firing makes it possible to use a full-fledged powder propellant charge, the optimal initial speed and kinetic energy of the safe throwing equipment and the high efficiency of training. The installation of a capsule with a dye in a tray made of an elastic material ensures effective obturation of powder gases and high stability of the initial speed and kinetic energy of the safety equipment. The use of cartridges with non-hazardous projectile equipment, completely installed inside the cartridge case, provides high strength of the cartridges.

The marking cartridge, which implements the known method of firing marking cartridges, contains a cartridge case with an initiator, a powder propellant charge and safety projectile equipment completely installed inside the cartridge case, containing a capsule with a coloring agent made in the form of a cap with a weakened head part made of a polymer material, and plug installed in a pallet made of elastic material [13].

The disadvantage of the known method and the cartridges that implement it is the low reliability of the results of training, due to the low reliability of opening the capsule with the dye when it hits the target.

The technical problem solved in the proposed invention is to increase the reliability of the training results.

The specified technical problem is achieved by the fact that in the method of firing marking cartridges, including the use of cartridges with safety projectile equipment, completely installed inside the sleeve, containing a capsule with a coloring agent, made in the form of a cap with a weakened head part, made of a polymer material, and a plug-in stopper, installed in a pallet made of elastic material, firing a shot, moving safe throwable equipment along the bore of the weapon under the action of powder gases, protecting the capsule with the dye from the effects of powder gases, obturating the powder gases, protecting the capsule with the dye from interaction with the bore and take-off of safety projectile equipment from the bore with the required initial speed, when fired, the projectile equipment is moved through a circular section, the minimum diameter of which is less than the outer diameter of the capsule with the coloring agent, the capsule is affected with a colorant with a radial force exceeding the strength of the capsule, and the capsule with the colorant is opened before the launch of the projectile equipment from the bore.

The specified technical task is achieved by the fact that in a marking cartridge containing a sleeve with an initiating agent, a powder propellant charge and safety projectile equipment, completely installed inside the sleeve, containing a capsule with a coloring agent, made in the form of a cap with a weakened head part, made of polymeric material, and an insert plug installed in a tray made of elastic material, the safety missile equipment is fixed in the sleeve by circular deformation of the sleeve mouth, and the deformed part of the sleeve mouth forms an outlet, the diameter of which is less than the outer diameter of the capsule with the colorant.

A feature of the proposed method of firing marking cartridges and the marking cartridge that implements it is the implementation of actions and the use of technical solutions that provide controlled opening of the capsule with the coloring agent during the shot. The hit of the opened capsule with the dye both in hard and soft surface provides a reliable ejection of the dye and a distinct color mark at the point of impact on the target, regardless of the firing range. Practice shows that the controlled opening of the weakened head part of the capsule with the dye during the shot leads to only a slight loss of the mass of the semi-liquid dye when the safe missile equipment moves along the trajectory.

The proposed method of firing marking cartridges is as follows.

The cartridge is placed in the chamber of the weapon and a shot is fired, accompanied by the formation of powder gases, the impact of powder gases on the safe throwable equipment, the exit of the safe throwable equipment from the cartridge case, the movement of the safe throwable equipment along the bore of the weapon and the departure of the safe throwable equipment from the bore at the required initial speed. When fired, safety missile equipment is moved through a circular section, the minimum diameter of which is less than the outer diameter of the capsule with the dye. The movement of safe throwable equipment through a circular section, the minimum diameter of which is less than the outer diameter of the capsule with the dye, is accompanied by the impact of radial forces on the capsule. By choosing the material of the colorant capsule and choosing the ratio between the minimum circular cross-sectional diameter and the outer diameter of the capsule, a radial force is generated that exceeds the strength of the capsule. The impact of the radial force leads to a controlled opening of the weakened head part of the capsule with the dye, the departure of the opened capsule from the barrel, the movement of the opened capsule along the trajectory and the hit of the opened capsule on the target. The hit of the opened capsule with the dye on the target provides a reliable release of the dye and a distinct color mark at the point of hit on the target, regardless of the hardness of the target and the firing range.

For firing, marking cartridges are used with safety thrown equipment, completely installed inside the sleeve and fixed in the sleeve by a circular deformation of the sleeve muzzle. The deformed part of the sleeve mouth forms an outlet, the diameter of which is smaller than the outer diameter of the capsule with the colorant. Thus, the circular section, the minimum diameter of which is less than the outer diameter of the capsule with the colorant, is the outlet of the deformed part of the neck of the sleeve. The proposed technical solution provides for a controlled opening of the capsule with the coloring matter during firing without the introduction of additional structural elements and without complicating the design of cartridges and weapons.

The shape of the deformed part of the barrel of the cartridge case must ensure the unhindered supply of cartridges from the magazine to the chamber of a self-loading weapon. The most favorable is the conical or spherical shape of the deformed part of the neck of the sleeve.

In FIG. 1 shows the marking cartridge before the circular deformation of the neck of the sleeve.

In FIG. 2 shows a capsule with a dye.

In FIG. 3 shows marking cartridges with a circular deformation of the muzzle of the sleeve of a conical and spherical shape.

In FIG. 4 shows the safety throwable equipment of the marking cartridge in the process of moving through the outlet of the barrel of the sleeve.

The marking cartridge (Fig. 1, Fig. 3) contains a cartridge case with an initiating device 1, a powder propellant charge 2 and safety projectile equipment, completely installed inside the cartridge case, containing a capsule with a dye 3, installed in a tray made of an elastic material 4.

The capsule with the dye (Fig. 2) is made in the form of a cap with a weakened head part 5, made of a polymeric material, and a plug 6, closing the cap from the side of the open part. The cap and stopper together form a tightly closed cavity containing a semi-liquid water-soluble coloring matter 7.

The deformed part of the neck of the sleeve forms an outlet, the diameter of which D (Fig. 3) is less than the outer diameter of the capsule with the dye d (Fig. 1).

The shot is accompanied by the formation of powder gases, the impact of powder gases on the safety of the projectile equipment and the release of the safety of the missile equipment from the sleeve (Fig. 4). The movement of safe throwable equipment through the outlet of the muzzle of the sleeve 1, the diameter of which is smaller than the outer diameter of the capsule with the dye 3, is accompanied by a circular deformation of the capsule with the dye. The impact of the radial force on the capsule with the coloring matter is accompanied by a controlled opening of the weakened head part of the capsule.

The proposed method of firing with marking cartridges and the marking cartridge that implements it provide high reliability of training results due to the controlled opening of the capsule with the dye when fired and the reliable release of the dye when it hits the target, regardless of the hardness of the target and the firing range.

SOURCES OF INFORMATION

1. Simunition Product Catalog. Training for the Real World. General Dynamics Ordnance and Tactical Systems. 2019.

2. Simunition FX Training system Non-Lethal - Reduced-Energy. Brochure FX Marking Cartridges .38 and 9 mm.

3. Canadian Patent 2419861. Improved training cartridge.

4. European Patent 0521008 Frangible nonlethal projectile.

5. United States Patent 5035183 Frangible nonlethal projectile.

6. United States Patent 5359937. Reduced energy cartridge.

7. United States Patent 5492063. Reduced energy cartridge.

8. United States Patent 5677505. Reduced energy cartridge.

9. United States Patent 6439123. Training cartridge.

10. United States Patent 6575098. Practice cartridge.

11. United States Patent 8327767. Reduced energy training cartridge for straight blow back operated firearms.

12. WO Patent 1991014148 Frangible nonlethal projectile.

13. RF patent No. 2716666. Marking cartridge.

14. RF patent No. 2746003. A method of firing marking cartridges from self-loading weapons and a shooting complex that implements it.

15. Handling and Safety Instructions. Simunition® Conversion Kit for COLT 1911 (0.45 ACP) or Meusoc Pistols.

16. Handling and Safety Instructions. Simunition® Conversion Kit for Glock 17-22 GEN. 4 Pistols.

17. Handling and Safety Instructions. Simunition® Conversion Kit for SIG P226 (9 mm) or SIG P228 (9 mm) Pistol.

Claims (2)

1. A method of firing marking cartridges, including the use of cartridges with safety projectile equipment, completely installed inside the sleeve, containing a capsule with a coloring agent, made in the form of a cap with a weakened head part, made of a polymer material, and a plug installed in a tray made of of elastic material, firing a shot, moving safe throwable equipment along the bore of the weapon under the action of powder gases, protecting the capsule with the dye from the effects of powder gases, obturation of the powder gases, protecting the capsule with the coloring matter from interaction with the bore and flying out of the safe throwable equipment from the bore barrel with the required initial speed, characterized in that, when fired, the projectile equipment is moved through a circular section, the minimum diameter of which is less than the outer diameter of the capsule with the colorant, the capsule with the colorant is affected for the sake of with a force exceeding the strength of the capsule, and open the capsule with the dye before the launch of the projectile equipment from the bore. 2. A marking cartridge containing a cartridge case with an initiating agent, a powder propellant charge and safety projectile equipment completely installed inside the cartridge case, containing a capsule with a dye made in the form of a cap with a weakened head part made of polymer material, and a plug-in plug installed in a pallet made of an elastic material, characterized in that the safety projectile equipment is fixed in the sleeve by a circular deformation of the sleeve mouth, and the deformed part of the sleeve mouth forms an outlet, the diameter of which is less than the outer diameter of the capsule with the colorant.

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