RU2453797C1 - Non-lethal cartridge (versions) - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: non-lethal cartridge comprises a plastic case, a detonating cap, a propellant charge and an elastic bullet. The plastic case is equipped with a current-conductive element to ensure electric contact between the detonating cap of the cartridge and an electric striker of the weapon. The plastic case is arranged in the form of a cylindrical thin-walled sleeve with a bore near the base along the external wall. Inside the plastic case is represented by three cylindrical channels with subsequent reduction of the inner diametre and appropriate increase of case channel wall thickness. The diametre of the lower channel is reduced to the outer diametre of the detonating cap. The bullet is made of a cylindrical shape with flat ends. The propellant charge in the cartridge contains a pyrotechnical composition, which does not contain powder placed into the detonating cap. In the other version of the cartridge along the outer cylindrical wall of the plastic case there is an additional body in the form of a metal pipe.

EFFECT: higher grouping of shots.

10 cl, 2 tbl, 2 dwg

Description

The invention relates to ammunition, in particular to cartridges for traumatic and educational-traumatic purposes, and can be used for use in self-defense equipment.

A large number of cartridges are known for firing at living objects with the aim of temporarily disabling them due to the physiological effects of the strike without causing a serious or fatal injury.

Non-metallic impact-resistant polymeric materials are often used for the manufacture of non-lethal ammunition shells. The most currently used commercial polymeric materials are, for example, amorphous resins such as bisphenol-A-polycarbonates, polycrystalline resins, elastomer-modified polyamides.

Known cartridge cases can be made of polymer completely / 1-3 / or formed of two or more parts, where at least one part of the sleeve is made of a polymer material, the so-called hybrid polymer-metal sleeves / 1 /.

It is known the design of a cartridge containing a sleeve made of a durable polymer that meets certain requirements for impact strength, propelling charge and a rubber or non-metallic bullet / 1 /. The polymeric material may form the cartridge sleeve in full or in any part thereof. Due to high mechanical stresses on the bottom of the liner, the latter can be made of metal, a more durable polymer or composite material.

The disadvantages of this design of the cartridge is the complexity and low-tech design of the sleeve. Ammunition having a cartridge case from a number of elements made of different materials, assumes high accuracy of production of elements for reliable connection between them, which significantly complicates the design and increases the cost of cartridge production. The use of metals in this case also makes the products commercially unprofitable.

A common drawback of polymer sleeves is the insufficient strength of the bottom, which perceives the main blow of the gaseous products of combustion, and the insufficiently tight fit of the capsule in the capsule hole, which may be disturbed due to exposure to high temperatures developing during firing.

A well-known cartridge, like others like it, as a propellant charge involves the use of a powder charge. Gaseous products resulting from the combustion of gunpowder have a wide pressure range. Possible variations in the ballistic properties of gunpowder make it possible to regulate only the flight speed of the bullet (energy), but do not provide the necessary constancy of energy, let alone keeping it in a limited range of values, which is especially important for self-defense weapons.

The instability of the burning of powder charges gives a large dispersion of the initial velocity of the bullets in a series of shots, as well as a dispersion of the speeds of the missile elements, which leads to a low accuracy of fire. In addition, this leads to a lack of clear orientation of the bullets when cutting weapons into the barrel or moving in a cartridge, in the case of barrelless weapons, and somersault of the bullet after exiting it (in flight). Therefore, in the presence of a powder charge in the ammunition, even with a rubber or non-metal bullet, it is difficult to guarantee a non-lethal outcome of the shot.

To solve this problem, various methods of modifying the powder composition are used to improve its ballistic characteristics. However, it is practically impossible to obtain gunpowder with the necessary combustion characteristics in the low-pressure region characteristic of self-defense weapons.

Bullets made of non-metallic plastic material, as a rule, have rounded shapes. The rounding of the bullet head contributes to its better aerodynamics (subject to stabilization). However, this form of bullet also contributes to penetrating wounds.

Known traumatic cartridge containing a sleeve made of a polymeric material, equipped with a conductive element to ensure electrical contact between the igniter capsule of the cartridge and the electric gun of the weapon, an additional housing, powder charge, the igniter capsule (KB) and a bullet made entirely or on the outer surface of elastic material . The additional body is placed in a polymer sleeve with the possibility of fixation from mutual axial movement, and the rear of the bullet is made in the form of a sealing sleeve / 4 /. This decision was made as the closest analogue.

An additional metal case, placed inside the polymer sleeve with the possibility of fixation, cannot serve to strengthen it, due to the predominance of the effect of re-reflection of the energy of gases without its absorption.

The use of a powder charge leads to the disadvantages indicated above.

The implementation of the bullet with a rounded front and reinforced with a steel core also does not contribute to increased security.

Calculation of specific energy (not more than 0.50 J / mm ² ) is carried out on the geometric diameter of the bullet. However, the use of gunpowder and the construction of the bullet lead to its unpredictable flight (somersault). The diameter of the collision spot in this case, as a rule, is much smaller than the calculated geometric diameter of the bullet, respectively, and the area of the spot is also smaller than the calculated one. Consequently, the real physiological effect of the bullet is much higher than expected. Given the possibility of destruction of the rubber shell, the likelihood of uncontrolled harm increases significantly and often leads to death when firing from non-lethal weapons.

The objective of the invention is to increase the efficiency of the cartridge with the complete exception of the facts of causing grievous bodily harm, simplifying the manufacture of the cartridge, increasing its operational characteristics and reducing material costs for its manufacture.

The problem is solved by the proposed group of inventions. Achievable technical result is an increase in accuracy of fire, stability of ballistic characteristics, high stopping effect, increased safety, operational reliability and durability of cartridges while simplifying the design and reducing the cost of producing a cartridge.

The specified result is achieved in a cartridge containing a plastic sleeve equipped with a conductive element to ensure electrical contact between the igniter capsule of the cartridge and the gun’s electric gun, an igniter capsule, a propellant charge and an elastic bullet, in which the sleeve is made in the form of a cylindrical thin-walled glass with a groove at the base along the base the outer wall, inside the sleeve consists of three cylindrical channels with a sequential decrease in the inner diameter and a corresponding increase in the hollows of the walls of the channels of the liner. The diameter of the lower channel is reduced to the outer diameter of the igniter capsule. The bullet is made of cylindrical shape with flat ends, and as a propelling charge the cartridge contains a pyrotechnic composition that does not contain gunpowder. In this case, the propellant charge is placed in the igniter capsule.

A variant of the claimed cartridge is characterized in that an additional housing in the form of a metal tube is located outside the sleeve along the outer cylindrical wall of the glass.

The presence of an additional housing helps to strengthen the walls of the liner and increase the energy characteristics of the cartridge, as the inner walls of the plastic sleeve partially absorb the energy of the gases, protecting the metal tube from destruction. Any materials, for example, aluminum, steel, composites, etc., reinforcing the sleeve, can be used to perform the additional housing.

According to the invention, the first of the sequentially arranged cylindrical channels inside the sleeve serves to fix the bullet. In the last cylindrical channel there is an igniter capsule. The middle channel, which forms a cavity bounded on one side by a bullet, on the other hand KB, is a combustion chamber of a propellant charge - a pyrotechnic composition that does not contain gunpowder. The dimensions of the combustion chamber are optimized to achieve the required pressure of the combustion products.

An increase in the thickness of the walls of the liner in each subsequent channel provides reinforcement of the bottom of the liner, necessary to maintain the structure when exposed to the pressure of the combustion products. The wall thickness of the sleeve of the last channel, the difference between the outer diameter of the sleeve and the diameter of KB, provides not only hardening of the bottom, but also a reliable fit of the capsule in the hole of the channel without breakthrough of gases and displacements due to high temperatures.

As a powder-free pyrotechnic composition, a composition including lead thiocyanate, potassium perchlorate and lead chromate can be used. It was found that, due to its physicochemical characteristics, this composition may also be suitable for use as the main propellant charge, which eliminates the use of gunpowder. The given composition example is not restrictive, and any pyrotechnic composition that does not contain gunpowder, capable of fulfilling the function of a propellant charge in its characteristics, may also be suitable.

The use of a pyrotechnic composition for the formation of a propellant charge (without gunpowder) and its placement in an igniter capsule is a fundamental difference between the claimed cartridge and the prior art.

The use of a pyrotechnic composition with stable combustion characteristics as a propellant charge provides increased accuracy of fire and stability of the bullet speed at a given charge mass, and also allows you to adjust it (speed) and keep it in a limited range of values, which is especially important for self-defense weapons.

The implementation of the bullet in the form of a cylinder with flat ends without an additional shell or core greatly simplifies production and makes it safe in every way.

The material for the manufacture of bullets are rubbers and thermoplastics. Preferred materials are rubber and polyvinyl chloride. Combinations of these materials may also be suitable.

The flat surface of the bullet from the side of the propellant charge ensures uniform pressure of the combustion products on the bullet, which leads to a clear orientation of the bullet during movement and the exclusion of somersault of the bullet after leaving the cartridge. The flat end of the head of the bullet almost completely eliminates the possibility of penetrating wounds. The ratio of the length to the diameter of the bullet is selected in the range from 1 to 2, which also determines the stabilization of the movement of the bullet.

By fulfilling the proposed shape of the bullet and stabilizing its movement, the collision area is consistent with the calculated geometric diameter of the bullet, and therefore, the ability to determine the expected dynamic impact.

The belts on the side of the bullet are used for obturation and allow you to securely fix the bullet in the cartridge.

Fig. 1 shows a training and traumatic cartridge, according to the first option. The cartridge contains a polymer sleeve 1, an electric igniter capsule with a pyrotechnic composition - propelling charge 2, a combustion chamber 3, a polyvinyl chloride bullet with annular belts for obturation 4, a conductive element 5.

Figure 2 shows the second version of the cartridge - a traumatic cartridge. The cartridge contains a polymer sleeve 1, an electric igniter capsule with a pyrotechnic composition - propelling charge 2, a combustion chamber 3, a polyvinyl chloride bullet with annular belts for obturation 4, a conductive element 5, an additional housing 6.

The proposed options for cartridges work as follows. When connecting the electrical contacts with the KB and the conductive element, an electric igniter capsule is activated, which leads to ignition of the propellant pyrotechnic charge 2. Under the pressure of the gaseous products of the combustion of the propellant charge in the combustion chamber 3, the bullet 4 flies out of the cartridge. Obturating belts, pressing against the inner surface of the sleeve, hold the bullet until the required boost pressure is reached.

The test results of the cartridges for speed and accuracy are shown in tables 1 and 2.

As examples, 12 training and traumatic (option 1) and 12 traumatic (option 2) cartridges were tested.

Table 1 (training and traumatic cartridge) No. p / p one 2 3 four 5 6 7 8 9 10 eleven 12 Bullet speed, m / s 119.1 115.3 116.5 118.2 119.0 117.8 113.9 123,2 116.7 118.1 119.8 114.6

Vcp. = 117 m / s; ΔV = 9.3 m / s

table 2 (traumatic cartridge) No. p / p one 2 3 four 5 6 7 8 9 10 eleven 12 Bullet speed, m / s 162.4 167.1 161.9 161.3 164.1 167.3 165.1 165.7 164.9 169.5 169.7 167.3

Vcp. = 165.5 m / s; ΔV = 8.4 m / s

Tests carried out when firing from 5 m showed an accuracy of 11 cm for both types of cartridges.

Recalculation of speeds into kinetic energy shows that with a bullet weight of 5.8-5.9 g, the energy of the bullet of the training and traumatic cartridges was 37-42 J, and the traumatic in the range of 75-85 J.

Thus, the proposed group of inventions is deprived of previously identified shortcomings of known cartridges and meets the requirements for this type of ammunition, and in terms of its characteristics and advantages it significantly exceeds the known analogues.

The dimensions of the cartridges and elements are selected in accordance with the required task and the known laws of ballistics. The cartridge can be made of any caliber and for various weapons, such as pistols, rifles, training weapons or self-defense weapons. The cartridges may contain rubber bullets or other non-metallic bullets, shot, shells other than bullets, for example, liquid-filled shells, capsules.

The proposed cartridges have high adaptability, simplicity, real safety and efficiency.

Improved indicators and characteristics of cartridges are a comprehensive indicator, due to the general constructive implementation of the invention, namely the presence of a sleeve made in the form of a single whole part, the use of a propellant charge without gunpowder and the use of an elastic cylindrical bullet with stable ballistics and the interconnection of structural elements.

The proposed group of inventions expands the arsenal of ammunition and is a competitive product.

Information sources

1. RU 2406058, F42B 5/30, publ. 12/10/2010

2. RU 6442, F42B 5/313, publ. 04/16/1998

3. FR 1524935, F42B 7/12, publ. 05/10/1968

4. RU 57444, F42B 5/02, publ. 10/10/2006

Claims (10)

1. A traumatic cartridge containing a plastic sleeve provided with a conductive element to ensure electrical contact between the igniter capsule of the cartridge and the electric gun of the weapon, an igniter capsule, a propellant charge and an elastic bullet, characterized in that the sleeve is made in the form of a cylindrical thin-walled glass with a groove at the base along the outer wall, inside the sleeve there are three cylindrical channels with a sequential decrease in the inner diameter and a corresponding increase in thickness tenok sleeve channel, said lower channel diameter reduced to the outer diameter of the primer, the bullet shape is cylindrical with flat ends, and as the propellant charge comprises pyrotechnic composition containing no powder, placed in the primer. 2. The cartridge according to claim 1, characterized in that the first of the consecutively arranged cylindrical channels serves to fix the bullet inside the sleeve, and the middle channel forming a cavity bounded on one side by the bullet, on the other hand the igniter capsule, is a propellant combustion chamber - pyrotechnic composition. 3. The cartridge according to claim 1, characterized in that the propellant charge comprises a pyrotechnic composition comprising lead thiocyanate, potassium perchlorate and lead chromate. 4. The cartridge according to claim 1, characterized in that the elastic bullet is made of rubber or thermoplastic, preferably polyvinyl chloride. 5. The cartridge according to claim 1, characterized in that on the side surface of the bullet made obturation belts. 6. A traumatic cartridge containing a plastic sleeve provided with a conductive element to ensure electrical contact between the igniter capsule of the cartridge and the electric gun of the weapon, an igniter capsule, a propellant charge and an elastic bullet, characterized in that the sleeve is made in the form of a cylindrical thin-walled glass with a groove at the base along the outer wall, inside the sleeve there are three cylindrical channels with a sequential decrease in the inner diameter and a corresponding increase in thickness of the channels of the sleeve, the diameter of the lower channel being reduced to the outer diameter of the igniter capsule, along the outer cylindrical wall of the beaker there is an additional body in the form of a metal tube, the bullet is made of cylindrical shape with flat ends, and contains a pyrotechnic composition containing no gunpowder as a propellant, placed in the igniter capsule. 7. The cartridge according to claim 6, characterized in that the first of the sequentially arranged cylindrical channels serves to fix the bullet inside the sleeve, and the middle channel, forming a cavity bounded on one side by the bullet, on the other hand, is an igniter capsule, a propellant combustion chamber - pyrotechnic composition. 8. The cartridge according to claim 6, characterized in that the propellant charge comprises a pyrotechnic composition comprising lead thiocyanate, potassium perchlorate and lead chromate. 9. The cartridge according to claim 6, characterized in that the elastic bullet is made of rubber or thermoplastic, preferably polyvinyl chloride. 10. The cartridge according to claim 6, characterized in that on the side surface of the bullet made obturating belts.

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