RU2320951C2 - Round for medium-and large-caliber guns - Google Patents

Abstract

FIELD: artillery armament, applicable in designing of rounds to medium-and large-caliber guns.

SUBSTANCE: the round includes a shell, case and a propellant charge having a weight of tubular ballistic powder in a sealed combustible case. A weight of tubular pyropowder is placed in the periphery of the ballistic powder weight, the mass of the pyropowder makes up of the mass of the ballistic powder, and the force of the ballistic powder makes up 1.1 to 1.3 of the force of the pyropowder.

EFFECT: enhanced powder of the propellant charge.

4 cl, 4 dwg

Description

The invention relates to shots, in particular to propellant charge circuits, and can be widely used in the design of shots for medium and large caliber guns.

Currently, work to improve artillery systems is aimed at increasing their power, increasing the firing range and armor penetration. In this regard, particularly high demands are placed on the initial velocity of the shells. Separate-loading shots for an armor-piercing feathered sub-caliber projectile (BPS) consist of a main charge isolated from each other and an additional charge placed on the projectile.

Separate loading shots are known containing a sample of granular or a combination of granular and tubular pyroxylin gunpowders placed in a burning sleeve fastened with a metal tray, described in the Handbook of Artillery Ammunition to Be Utilized and Destroyed by Nova Publishing House, 1992, pp. .88-93. A technical solution is known according to the certificate of authorship No. 228962, in which a hinge of tubular ballistic high-energy powder (HEP) is introduced into an additional charge, which under certain conditions gives an increase in the velocity of the projectile.

In the shot taken as a prototype from the Handbook of Artillery Ammunition to be disposed of and destroyed by Nova Publishing House, 1992, p. 93, the shot contains a projectile, main charge and additional charge. The main charge contains ballistic gunpowder, pyroxylin tubular gunpowder, a set of igniters and a flame arrester placed in a sealed sleeve with a burning body. The additional charge contains a weighed portion of pyroxylin gunpowder of tubular and grained forms, placed in a sealed combustible shell, and attached to the birthing part of the BPS.

The disadvantage of this technical solution is that the directions for a further increase in the power of the powder charge are not defined. So, the use of tubular gunpowder in the main charge does not allow to significantly increase the weight, because to increase the loading density, it is necessary to reduce the diameter of the tube channel, which leads to an increase in the pressure gradient when firing at temperatures from 40 to minus 50 ° C. In this case, the pressure value of the powder gases becomes unacceptable for the artillery system.

The technical solution also does not define the conditions for the use of powerful ballistic gunpowders to increase the power of the artillery system. The use of ballistic VEP encounters serious difficulties due to reduced mechanical strength and flammability, which requires an individual design solution for the charge depending on the design data and technical requirements.

The use of EPs in the development and testing of new or modernized shots in some cases led to an abnormal functioning of the propellant. The analysis of the test results showed that the reasons for the unsatisfactory functioning are the use of new ballistic WEPs with reduced mechanical compressive strength, the presence of an elongated combustion chamber in new tank guns and a higher pressure of powder gases. The latter contributes to an increase in the amplitude of longitudinal waves of gas pressure (compression). At the moment of ignition of the charge, the elongated ballistic powder of the main charge experiences dynamic overloads, which, under extreme conditions, lead to the loss of stability of the powder tubes and their destruction.

Increasing the strength of powerful gunpowder is a separate technical task and often leads to a decrease in the energy of gunpowder and an increase in the ignition delay time. The development of new guns with elongated combustion chambers is associated with the need to place large masses of propellant charge to further increase the power of the gun.

The objective of the present invention is to create a shot, the propellant charge of which increases the power of the artillery system by using more powerful ballistic gunpowder, increasing the weight of gunpowder and ensuring the reliability of the charge, which has ballistic gunpowder, including reduced strength.

A common feature of the prototype with the shot proposed by the authors is the presence of a burning sleeve fastened to a pallet, and a weight of gunpowder.

Unlike the prototype, in the shot proposed by the authors on the periphery of ballistic gunpowder, a weighed portion of pyroxylin powder was introduced, and the mass of pyroxylin powder is 8-20% by weight of ballistic powder, and the strength of ballistic powder is 1.1-1.3 pyroxylin powder.

In particular cases, the invention is characterized by the following features:

- ballistic powder is made in the form of a tube with a cut with a ratio of the diameter of the channel (d _k ) to the thickness of the burning arch (2e ₁ ) of the tube 0.25-0.8;

- in the propellant charge a sample of tubular pyroxylin powder is placed coaxially with the beam of ballistic powder, while the mass of the powder is 5.5-20% of the mass of ballistic powder;

- the shot is equipped with an additional charge located on the hull of the projectile in a sealed combustible shell, and the mass of the additional charge is 0.4-1.0 of the mass of the main charge of the shot.

A new set of structural elements allows, in particular, due to:

- placement of a sample of pyroxylin powder on the periphery of ballistic gunpowder to ensure the normal functioning of the shot during prolonged storage, because a sample of pyroxylin powder protects the material of the burning sleeve from the penetration of nitroesters from ballistic powder and as a result, the burning rate remains constant during prolonged storage, which ensures complete combustion of the material of the sleeve;

- the use of ballistic gunpowder with a force of 1.1-1.3 on the strength of pyroxylin gunpowder to achieve the required increase in the initial velocity of the projectile;

- the use of tubular ballistic powder with a cut allows to reduce the channel diameter of the powder tubes and thereby increase the loading density. When the ratio of the diameter of the channel to the thickness of the burning arch of the tube is less than 0.25, the ignition pulse is insufficient for the ignition of the charge at the same time, and with a ratio of more than 0.8, a slight increase in the packing density of the powder tubes and, as a consequence, the charge density;

- placement of a sample of pyroxylin tubular gunpowder coaxially with a ballistic gunpowder weighing 5.5-20% of the mass of ballistic gunpowder to ensure the safe functioning of the shot in guns with a long chamber when using ballistic gunpowder with low mechanical strength due to the simultaneous ignition of the ballistic tube from both ends and creating favorable conditions for burning the entire mass of the charge. The ratio of the mass of pyroxylin powder and its location in the main charge was chosen experimentally. In cases when the pyroxylin powder in the experimental variants of the propellant charge was placed in bulk, satisfactory functioning was not achieved. When the ratio of pyroxylin powder to the mass of the main charge is less than 5.5%, the functioning of the projectile did not meet the necessary requirements: the angle of departure (nutation) of the projectile from the gun was more than acceptable; at a ratio of more than 20%, the functioning of the propellant charge was normal, but did not satisfy the requirement for the initial speed of the BPS;

- the use of an additional charge weighing 0.4-1.0 from the mass of the main charge to use the main charge for various types of shells (high-explosive fragmentation, cumulative, armor-piercing subcaliber, etc.) having different masses and a reserve amount for placing a propellant charge. Moreover, when the mass of the additional charge is less than 0.4 mass of the main charge, the required level of ballistic characteristics is not achieved, and when the mass of the additional charge is more than 1.0 mass of the main charge, problems arise with the functioning of the shot due to the increase in the length of the shot (chamber).

A drawing of the proposed artillery shot is shown in figure 1, where ballistic powder 1, lining of pyroxylin powder 2, lower igniter 3, upper igniter 4, sleeve 5, igniter 6, projectile 7 are indicated.

2 is a cross sectional view of the propellant tube with a longitudinal slit, where the notation is introduced: d _k - diameter of the channel tube powder, 2e ₁ - burning arch thickness of the tube.

Fig. 3 shows a sample of ballistic tubular gunpowder charge, in which a sample of pyroxylin gunpowder 8 is located coaxially with ballistic gunpowder.

Figure 4 presents a drawing diagram of the proposed artillery shot with an additional charge, where are indicated: 9 - a burning shell of an additional charge, 10 - a sample of the powder of an additional charge.

The operation of the shot is as follows: the gun firing system activates the igniter capsule (6) installed in the sleeve (5), after which the force of the flame ignites the lower igniter (3), which transmits the ignition pulse to the upper ignitor (4) and from It ignites the powder of the main charge (1, 2, 8), then the impulse from the powder charge is transferred to the powder (10) and the burning shell (9) of an additional charge, if any, and to the shell (7).

In the particular case when a sample of tubular pyroxylin gunpowder is placed coaxially with the ballistic gunpowder, after ignition of the lower igniter 3, the central bundle of pyroxylin gunpowder 8 is ignited first, which has a significantly shorter ignition delay time compared to ballistic gunpowder. Next, the ignition front is transmitted to the upper igniter 3, which, when activated, ignites the ballistic powder 1 and simultaneously an additional charge 5. From the axis of the main charge, the pyroxylin powder bundle also plays the role of a force rod in the initial period, since the mechanical strength of the pyroxylin powder in the strength of its nature is much higher than that of a ballistic one and does not change with a change in the operating temperature, which contributes to uniform ignition. Thus, ballistic gunpowder ignites from almost both ends, which ensures the normal operation of the propellant charge and the shot as a whole. The positive technical effect of this solution allows the use of powerful new gunpowder in a propelling charge for shots with BPS placed in high-power guns with long combustion chambers. A side technical effect revealed during the tests is a decrease in the pressure gradient when firing shots with temperatures up to 50 ° C, which is currently relevant for a number of systems.

The execution of the shot in accordance with the invention increases the power of the powder charge due to the use of powerful ballistic powders and an increase in the mass of the powder by optimizing the geometric dimensions of the powder elements, ensures the normal functioning of the shot, including during storage and at extreme temperatures of the use of the shot.

The specified positive effect is confirmed by testing prototypes of shots made in accordance with the invention.

Claims (4)

1. Separate loading shot for medium and large caliber guns, including a shell, a sleeve and a propellant charge containing a sample of tubular ballistic powder in a sealed combustible shell, characterized in that a sample of tubular pyroxylin powder is placed at the periphery of the sample of ballistic powder, and the mass of pyroxylin powder is 8-20% of the mass of ballistic powder, and the strength of ballistic powder is 1.1-1.3 strength pyroxylin powder. 2. The shot according to claim 1, characterized in that the sample of ballistic gunpowder is made in the form of a tube with a cut with a ratio of the diameter of the channel of the tube to the thickness of the burning arch of the tube 0.25-0.8. 3. The shot according to claim 2, characterized in that the propellant charge contains a sample of tubular pyroxylin powder coaxially with a sample of ballistic powder, and the mass of pyroxylin powder is 5.5-20% of the mass of ballistic powder. 4. A shot according to any one of claims 1 to 3, characterized in that it contains an additional charge located on the cusp of the projectile in a sealed combustible shell, the mass of the additional charge being 0.4-1.0 of the mass of the main charge.

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