RU2360210C2 - Underwater cartridge - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: cartridge is arranged with certain ratios of its parts and comprises cartridge case of bottle type with igniter cap, powder charge and bullet with head and tail parts, which is arranged with polymer coat.

EFFECT: increased range and concentration of shooting, penetrating action of bullet, provides for possibility of shooting from standard samples of land small arms.

3 dwg

Description

The proposed object of the invention relates to the field of small arms cartridges used for firing under water.

Known 5.66-mm cartridge MPS according to patent RU 2122176 C1, which contains a sleeve with an igniter capsule, a powder charge and a bullet having a body and a head part with a cavitator.

A characteristic feature of the bullet of this cartridge, selected as a prototype, is the large relative length (the ratio of the length of the bullet to the caliber of the weapon is 21.2d, where d is the caliber of the barrel bore) and the presence of a flat cut (cavitator) in the head part (bullet tip), diameter which is 0.34d. The body of the bullet is made gauge, centered on the barrel. The bullet is singleton and made of steel. The cartridge is designed for firing under water from a special underwater automatic submachine gun with a smooth barrel, that is, without rifling, with a caliber of 5.66 mm, that is, more than the caliber of the 5.45 mm barrel of standard combat weapons (such as a Kalashnikov assault rifle) by the value of the depth of the rifling .

Analysis of the design of the known cartridge and the bullet in particular, taking into account the results of their practical application, shows that the unreasonably overestimated values of the ranges of changes in the structural dimensions of the bullet elements, that is, their non-specificity, have led to the presence of the following disadvantages in the cartridge:

- large dispersion of bullets - for example, when firing 5.66 mm MPS cartridges from an APS machine gun, the effective aiming range under water does not exceed 12 ... 15 m, while the lethal effect of the bullet remains at a range of up to 25 m (R ₁₀₀ = 0 , 2 m - at a distance of 13 m);

- low penetrating and penetrating effect of the bullet - at a distance of 5 m, the protective elements of bulletproof vests 6B19 and 6B20 do not break through.

At the same time, it is impossible to use these cartridges for firing from standard combat weapons with rifled barrels of existing calibers, for example, 5.45 mm AK series assault rifles.

The objective of the present invention is to develop the design of the cartridge, allowing the use of standard ground-based small arms samples for firing under the barrel of conventional barrels of existing calibers without modifications (without changing the structural dimensions) of both the guiding part of the bore (the depth of the grooves and their pitch), and providing at the same time, a large range of aimed shooting, high accuracy of fire and a large penetrating effect of the bullet, taking into account the possibility of immersion up to 60 m.

The problem is achieved due to the fact that in an underwater cartridge containing a bottle-type sleeve with a capsule, a similar cartridge case with a capsule of a standard land cartridge, for example, 5.45 × 39 mm 7H6, a powder charge and a polymer-coated bullet having a head part in the form of a combination a cylinder and two truncated cones, a leading part that does not interact with grooves (not crashing into grooves), and a tail part in the form of a truncated cone with a blind longitudinal hole from the bottom cut, the cartridge is made with the following ratio of its pairs ametres:

- diameter of the leading part of the bullet (outer diameter) d _p = (0.98 ... 0.99) d;

- bullet length l _p = (19 ... 25) d _p ;

- the length of the bullet head h = (5.2 ... 6.4) d _p ;

- the diameter of the front flat cut (cavitator) of the bullet d _p = (0.27 ... 0.35) d _p ;

- the diameter of the cylindrical section of the top of the bullet head d _c = d _n = (0.27 ... 0.35) d _p ;

- the length of the cylindrical section of the top of the bullet head 1 _c = (0.1 ... 0.2) d _p ;

- the angles of the front and rear truncated cones in the head of the bullet, respectively 7 ... 10 ° and 6 ... 8 °;

- the diameter of the cross section of the conjugated cones of the bullet head d _c = (0.4 ... 0.6) d _p ;

- the length of the tail of the bullet (rear truncated cone) h _x = (0.6 ... 1.1) d _p ;

- the value of the angle of the truncated cone in the tail of the bullet 10 ° ± 30 ';

- diameter of the hole from the side of the bottom cut of the bullet d _x = (0.5 ... 0.6) d _p ;

- the depth of the hole from the side of the bottom cut of the bullet l _x = (0.3 ... 0.5) d _p .

The invention is illustrated by drawings. Figure 1 shows a cartridge assembly containing a bullet 1, a bottle-shaped sleeve 2, a powder charge 3, and an igniter 4. Figure 2 shows a separate bullet having a head part of value h, a leading part of value H and a tail part of value h _x . Figure 3 shows the position of the bullet in the cavity on the trajectory, where R is the rebound strength.

The results of studies of the movement of elongated bodies (in this case bullets) in water in the mode of developed cavitation and their interaction with an obstacle allow us to state that if we take into account only the geometric dimensions of the bullet (without taking into account its mass characteristics), then:

- the range of the bullet, the accuracy of fire are most sensitive to variations in the length of the bullet and the diameter of the flat cut (cavitator) of its head;

- the magnitude of the kinetic energy of the bullet, its speed when meeting the obstacle is also most determined by the diameter of the flat cut of the bullet head;

- the penetrating effect of the bullet is most sensitive to the shape of the generatrix of the head of the bullet, the optimization of which is to minimize the force of drag during penetration;

- the transverse and longitudinal dimensions of the cavitation cavity (cavity) along with the value of the translational velocity of the bullet and the value of hydrostatic pressure (depth of immersion) are determined, first of all, by the value of the cavitator.

It was found that an increase in the diameter of the cavitator more than 0.35d _p leads to a significant increase in the frontal resistance of the incoming water flow, while a decrease in the diameter of the cavitator less than 0.27d _p leads to a more rapid washing out of the bullet head with water. Accordingly, bearing in mind the great significance of this parameter, the range of its change should not be significant, but rather should be more specific.

This fully applies to the total length of the bullet. With a small bullet length (less than 19d _P ), it has large angular displacements in the cavity of the cavity; With an increase in the length of the bullet more than 25 d _P, premature washing of its tail with water takes place - the firing range decreases, the total length of the cartridge increases, the longitudinal dimensions of the power unit and the weapon model as a whole increase.

According to the invention (Fig. 2), the bullet head at a certain length is made in the form of a cylinder connecting to the next two truncated cones. With the dimensions of these elements given above, firstly, the cylindrical section prevents premature closure of the bullet head and increases the firing range, and secondly, the formed profile of the head is optimal from the point of view of the bullet penetrating the obstacle and preventing its premature spall destruction at the time interaction with it, and, thirdly, the condition is provided for the fit of the bullet head into the internal cavity of the cavity.

Setting the length of the bullet head equal to the value (5.2 ... 6.4) d _p prevents premature engagement by the front of the bullet body (in Fig. 2, point A) over the side surface of the cavity, and accordingly, the range of the bullet increases. The latter is especially important when the tail of the bullet touches the borders (side surface) of the cavity.

The tail part is also made in the form of a truncated cone and additionally has a blind hole.

The presence of a blind hole from the bottom of the bullet contributes to:

- a decrease in bottom resistance to its movement on the trajectory, and, accordingly, a decrease in the velocity drop along the trajectory;

- transfer of the center of gravity forward, and consequently, an increase in the frequency of oscillations of the bullet in the cavity relative to its longitudinal axis. As a result, the flight path of the bullet becomes more straightforward and as a final result the accuracy of fire increases.

The tail narrowing (truncated cone) for given parameters also provides a decrease in bottom resistance and at the same time leads to an increase in the area of its interaction with the side surface of the cavity at the moment of their contact on the trajectory. As a result, the ricocheting force R increases, the oscillation frequency of the bullet in the cavity increases, and the accuracy of fire increases accordingly.

The size of the outer diameter of the leading part of the bullet is determined by observing the requirements to ensure the prevention of breakthrough of powder gases through the grooves and along the perimeter through the side gaps formed by the outer surface of the bullet body and the inner surface of the barrel (along with the grooves), as well as the minimum wear of the grooves of the barrel channel during shooting under the water.

In this case, the entire outer surface of the bullet has a polymer coating instead of varnish.

This coating, in addition to its intended purpose - to avoid corrosion, helps to reduce friction between the outer surface of the bullet and the inner surface of the barrel channel formed by the rifling fields at the time of the shot, and, accordingly, to reduce the loss of the initial velocity of the bullet and barrel wear.

In addition, due to the above properties, the polymer coating also contributes to an increase in the breakdown action of a bullet, especially when firing at thick-walled barriers made of viscous materials. That is, the polymer coating additionally serves as a lubricant.

When fired in an aqueous medium, powder gases, acting on a bullet, provide it with forward motion along the barrel. But since the outer diameter of the bullet is less than the diameter of the bore (in the fields), the bullet does not interact with the rifling (does not crash) and moves through the fields. In turn, the presence of a large relative length of the bullet, insignificant in the size of the gap between the bullet and the fields of the bore (0.02 ... 0.03 mm per side), as well as insignificant in the depth of the rifling, taking them into account in a spiral, leads to " inhibition of bursting gases, premature breakthrough of powder gases during the movement of a bullet along the barrel channel does not occur.

At the moment a bullet exits the barrel, a flat cut (cavitator) in the head of the bullet interacts with the incoming liquid flow, contributing to a change in the shape of the lines of the flow and their subsequent separation from the guiding surface of the cavitator and the formation of a zone (cavity) that does not contain liquid. The dimensions of the cavitation cavity in the initial portion of the trajectory are such that it completely covers the entire bullet.

When the bullet moves along the trajectory, under the influence of the initial perturbations and the moment of gravity, it makes oscillatory movements inside the cavity of the cavity, Fig.3. In this case, as the tail part reaches the boundary of the cavity, it rebounds and it begins to move to the opposite boundary of the cavity. The cycle repeats. As a result of the summation of the translational and oscillatory movements of the bullet, the trajectory of its flight is presented in the form of a sinusoid. The smaller the amplitude and the greater the oscillation frequency of the bullet in the cavity of the cavity, the better the dispersion characteristics of the shots.

The presence of a tail constriction leads to an increase in the area of interaction of the bullet with the side surface of the cavity, to an increase in rebound strength, to an increase in the frequency of oscillations of the bullet in the cavity of the cavity, and, accordingly, to “straighten” the trajectory of its flight, that is, to increase the accuracy of fire.

In turn, the use of the same cartridge case in a special underwater cartridge as in a conventional land cartridge, as well as the presence of rifling in the barrel bore, allows us to expand the range of use of weapons and shoot cartridges on land and under water with cartridges corresponding to the environment.

The test results showed that when used for shooting under water from a 5.45-mm automatic submachine gun (dual-medium special) cartridges with bullets of the proposed design, the accuracy of firing increased by more than 35% (compared with the results of firing from a 5.66 mm submachine gun APS with MGTS standard cartridges), and the effective firing range (at which the required lethal effect was preserved) was brought up to 32 m. The optimization of the shape of the bullet head made it possible to break through aluminum plates with a thickness of more than 50 mm (MPS - 30 m).

From this machine gun, land shooting with 5.45 mm machine guns of the 7N6 type is also possible.

Claims (1)

An underwater cartridge containing a bottle-type sleeve with an igniter capsule, a powder charge and a bullet with a head and a tail, characterized in that the bullet is made with a polymer coating, while the outer diameter of the bullet d _p is 0.98-0.99 barrel bore diameter in fields, the length of the bullet head is (5.2-6.4) d _p , the top of the bullet head is made in the form of a cylinder with a length of (0.1-0.2) d _p and a diameter of (0.27-0.35 ) d _n, connecting to two successive truncated cones, the values of which are respectively equal angles 7-10 ° and 6-8 °, and the diameter of sech Nia at their interface is (0,4-0,6) d _n, the tail portion of the bullet is formed as a truncated cone length (0,6-1,1) d _n with an angle of 10 ° ± 30 'and with a blind hole with side of the bottom slice, the diameter of which is (0.5-0.6) d _p , and the depth is (0.3-0.5) d _p .

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