RU2617898C1 - Method of firing from tank gun - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: when firing from a tank gun, operations of definition shooting conditions deviations from the normal range to the target and its flank speed are performed, select the type of ammunition and loading, calculating the angles of aiming and lateral lead and putting them in the angular position of the gun, the production of Aimed Shot. Further, the sealing conveyor autoloader is performed, it is forced to be heated to a predetermined preheater temperature constant control in the pipeline with shots air temperature of the temperature sensor and when the air temperature measured by one of the sensors, the maximum permissible value, disable the heating conveyor autoloader automatic heating control unit. By reducing the temperature below the maximum allowable include heating conveyor, and each shot is measured, charge temperature is connected to the ballistic calculator by noncontacting temperature sensor immediately prior to loading the gun.

EFFECT: increase of the initial velocity and, accordingly, the damaging effect of the kinetic type shells, increased firing range of other types of projectiles.

4 cl

Description

The invention relates to weapons and military equipment (IWT), and in particular to methods of firing from a tank gun, and can be used at IWT facilities having ammunition located in the conveyor of an automatic loading device (mechanized ammunition stack).

There is a known method of firing from a tank gun, which consists in determining deviations of the firing conditions from normal, determining the range to the target and its flank speed, choosing the type of ammunition and loading it, calculating the aiming angles and lateral lead and entering them into the angular position of the gun, making an aimed shot ( see, for example, Theory and design of the tank. Edited by P. P. Isakov. - Vol. 2. Fundamentals of designing the weapons of the tank. - M .: Mechanical Engineering, 1982 - 252 p.).

However, the specified method of firing does not provide for the management of any parameters of the system "charge - projectile" to improve the accuracy and efficiency of firing.

It is known that the greater the initial velocity of the projectile, the greater the range of its flight, the persistence of the trajectory and the final speed, which in turn depends on the impact of the armor-piercing projectile.

In turn, the value of the initial velocity of the projectile depends on many factors, the main of which are the length of the barrel, the mass of the projectile and charge, the temperature of the charge and the properties of the powder. The physicochemical properties of the powder determine the potential energy of the powder charge and the nature (speed) of its transformation into kinetic energy of the projectile motion. Ceteris paribus, the burning rate of gunpowder depends on calorie content, the initial temperature of the gunpowder, external pressure and a number of other factors (see B. A. Dobryakov. Internal ballistics. Leningrad, 1952 - 254 pp .; ME Serebryakov. Internal ballistics. - M., Oborongiz, 1949).

It follows from the theory of internal ballistics that the temperature of the charge affects the initial velocity of the projectile due to a change in the burning rate of the powder and, therefore, the intensity of the increase in pressure of the powder gases in the shell space of the barrel channel.

With an increase in the initial temperature t _{0 of} gunpowder, its burning rate increases, respectively, the pressure of the powder gases increases at each moment of the projectile movement in the barrel channel, which leads to an increase in its initial speed.

Thus, according to sources (B. A. Dobryakov. Internal ballistics. Leningrad, 1952 - 254 pp .; ME Serebryakov. Internal ballistics. - M., Oborongiz, 1949) with an increase in t ₀ from 0 ° С to 100 ° With the burning rate of nitroglycerin gunpowder with 28% nitroglycerin increases almost 3 times.

In general terms, the dependence of the burning rate of gunpowder on temperature has the following form:

where b is an empirical coefficient equal to an average of 320,

u ₁₅ - the burning rate of gunpowder at a temperature of 15 ° C.

Thus, maintaining at a given level and controlling the temperature of the charge, you can indirectly control the parameters of the system "charge - projectile", increasing, ultimately, the accuracy and efficiency of shooting.

The closest in technical essence is the method of firing from the cannon of the T-90S tank, in which, when adjusting for deviations of the firing conditions from normal, the charge temperature is entered into the ballistic computer using a temperature sensor located in the area of the conveyor with shots of the automatic loading device (AZ), or manually in emergency mode (see Product 184 with the Sosna-U PNM. Supplement to the operating instructions. 184.IE-1. 184.IE-6-212 s).

However, the temperature sensor determines the current local temperature in the area of the shots, not taking into account the actual individual temperature of each charge.

So, for example, when loading the ammunition in the tank’s AZ in winter immediately before firing (when the shots are at a negative temperature), the structural elements of the ammunition can maintain a positive temperature, therefore, the temperature sensor will transmit false information about the actual charge temperature to the ballistic computer of the fire control system, which ultimately leads to an erroneous determination of deviations of the shooting conditions from normal and, accordingly, to an incorrect calculation of the aiming angles and ovogo preemption and possible slip in the conduct of the shooting. In addition, the ammunition located in the AZ conveyor in the area of the tank driver’s mechanic and near the engine and transmission compartment can have a significant temperature difference (tens of degrees), especially in winter, which also leads to errors in the calculation of aiming angles, reduced accuracy and gun firing efficiency.

The objective of the present invention is to increase the initial velocity of the shells and the accuracy of firing from a gun, as well as reduce errors in the calculation of aiming angles depending on the temperature of the charge.

The essence of the invention lies in the fact that in the known method of firing from a tank gun, which includes the operation of determining deviations of the firing conditions from normal, range to the target and its flank speed, choosing the type of ammunition and loading it, calculating the aiming angles and lateral lead and entering them into the corner the position of the gun, the production of an aimed shot, additionally carry out the sealing of the conveyor of the automatic loader, its forced heating to a predetermined temperature by the heater, is constantly monitored in Weier shots with the air temperature and the temperature sensor when the air temperature measured by a sensor, the limit value display disable conveyor autoloader heating control unit. When the air temperature drops below a predetermined value by the heating control unit, the conveyor is heated, and the charge temperature of each shot is measured immediately before loading the gun with a non-contact temperature sensor connected to a ballistic computer. The heater is placed under the conveyor. Air temperature sensors (at least four) are placed symmetrically inside the conveyor.

The proposed method of shooting can be implemented in various ways.

So, in modern serial domestic tanks of the T-90 type, for the implementation of the method it is necessary:

- close the AZ conveyor with a tight casing;

- place a piping system under the conveyor, connecting them to the cooling system of the power plant of the tank through an automatic heating unit;

- install air temperature sensors inside the conveyor AZ and connect them to the automatic heating unit;

- install a device for non-contact measurement of the temperature of the charge on the line of sending a shot into the charging chamber of the tank gun, for example, a radiometer with a digital output connected to a ballistic computer.

Thus, the proposed method of firing will ensure that the shots in the AZ conveyor are heated to the maximum permissible temperature specified in the operational documentation for the ammunition, which will lead to the maximum possible increase in the initial speed and the damaging effect of the kinetic type shells (armor-piercing, armor-piercing subcaliber shells), as well as increasing the range firing other types of shells. Non-contact measurement of the actual temperature of each charge immediately before the shot will provide a correct account of its influence on the accuracy of firing from a gun.

Claims (4)

1. A method of firing from a tank gun, including the operation of determining deviations of the firing conditions from normal, range to the target and its flank speed, selecting the type of ammunition and loading it, calculating the aiming angles and lateral lead and entering them into the angular position of the gun, firing an aimed shot, characterized in that they additionally carry out the sealing of the conveyor of the autoloader, its forced heating to a predetermined temperature by the heater, constant monitoring in the conveyor with shots of the air temperature ear with temperature sensors and when the air temperature measured by one of the sensors reaches the maximum permissible value, they turn off the heating of the conveyor of the charging machine by the heating control unit, when the air temperature drops below the set by the heating control unit, turn on the heating of the conveyor, and the charge temperature of each shot is measured immediately before loading the gun with a non-contact temperature sensor connected to a ballistic computer. 2. The method according to p. 1, characterized in that the heater of the conveyor of the automatic loading device is placed under it and connected to the cooling system of the power plant of the tank through the heating control unit, to the input of which signals from air temperature sensors in the conveyor of the automatic loading device are supplied. 3. The method according to p. 1, characterized in that the air temperature sensors (at least four) are placed symmetrically inside the conveyor of the charging machine. 4. The method according to p. 1, characterized in that the non-contact sensor (for example, a radiometer with a digital output) for measuring the temperature of the charge of the shot immediately before loading the gun is placed in a device installed on the line for sending the shot into the charging chamber of the tank gun.