RU2539707C1 - Control over artillery units fire - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: invention relates to controlled weapons, particularly, to control over combat activities of artillery units and elements at seen fire. For control purposes target coordinates are defined and topographically tied-in by reconnaissance means. Then, survey tie-in is transmitted via commanding officer control board (COCB) to senior officer control board (SOCB) via digital radio communication channel. Fire settings are computed at SOCB for designated target and artillery pieces to transmit messages with settings of fire from SOCB to artillery piece terminals. Artillery piece display indicates said setting of ire to be executed at gun and projectile. Note here that meteorological conditions are defined with the help of portable computer-aided meteorological set plugged to SOCB and stored therein. Then, said conditions are used for calculation of fire settings for definite target and for artillery pieces selected for its destruction.

EFFECT: automated preparation for fire, enhanced combat performances of artillery unit.

3 cl, 2 dwg

Description

The invention relates to the field of control and regulation, and more specifically to guided weapons.

The invention is intended to control the military operations of both the calculation of the weapon complex and the artillery formation unit during preparation and during the battle when firing at targets with guided and unguided shells and mines.

A known method of controlling an artillery gun when firing (patent RU No. 2379614 C2 from 01.20.2010, IPC F41G 5/00), selected for the prototype, the essence of which is as follows. The firing position (OP) of the artillery battery is located at a great distance from the line of combat contact with the enemy. A command and observation point (KNP) of the battery is deployed near the contact line with a complex of automation tools, including the commander’s control panel (PUK) of the battery, laser target-range finder (LCD), as a reconnaissance device, satellite navigation equipment (ASN) and digital radio station (TsRS) ), and the outputs of the LCD, ASN and the central control system through the connectors are connected to the PUK. Using the ASN, the coordinates of the LCD are determined and entered into the PUK. Near the firing position of the battery, a battery fire control center (fire control system) is deployed with a set of automation tools, including a control panel for the senior officer (EMP) of the battery, to which the ASN and the central control center are connected via connectors. The coordinates of the battery guns are entered into the ASEM from the ASN, and the meteorological and ballistic shooting conditions are entered from the keyboard. On KNP batteries using LCDs measure the distance to the target, azimuth and elevation angle of the target relative to the target indicator. The measurement results are transmitted to the CCP, converted into a rectangular coordinate system, displayed on the CCP screen and transmitted to the CCP via a digital radio channel. In the PUSO, using the coordinates of the targets received by radio, the measured coordinates of the guns entered from the keyboard of the meteorological and ballistic conditions of firing, the firing settings for the guns and the flight mission data for the shells are calculated. The calculated firing settings and flight mission data are transmitted over the air to the gun terminals (OT) of each gun, where they are displayed on the OT screen and are implemented on the gun and projectile. A shot is being fired.

The disadvantage of the prototype is that the prototype does not provide for the possibility of automatically introducing meteorological conditions of firing into the PUSO battery and using data on enemy targets obtained using unmanned aerial vehicles (UAVs) in the PUC, as well as the mode of servicing firing at the enemy’s reconnaissance and defeat target .

The objective of the invention is:

- reduction of time spent on meteorological preparation for firing in artillery formation due to the automated determination and input of meteorological conditions for firing at the VMS, immediately before calculating firing targets for the chosen enemy target;

- the expansion of the functionality of the artillery formation is ensured by using the coordinates of the enemy’s targets obtained in UAVs using UAVs;

- service of firing at the enemy’s reconnoitered and accepted to defeat targets.

This problem is achieved due to the fact that in the known method of controlling an artillery gun during firing, which includes determining and topographic binding of target coordinates using reconnaissance means, transferring them through the control panel of the artillery formation commander to the control panel of the senior artillery formation officer via a digital radio channel , topographic reference of gun positions in the control panel of a senior officer of the artillery formation, calculation in the control panel of a senior officer A unit of artillery formation of firing installations for a specified target and guns, transmission of a message with firing installations from the control panel of a senior officer of artillery formation to gun terminals via a digital radio channel, display of firing installations on the gun terminal screen of each gun and their implementation on the gun and shell.

What is new is that the meteorological conditions for firing are determined using a portable automated meteorological set (AMC), connected to the PUSO using a connector, stored in the PUSO and used in calculating the shooting settings for the specified target and guns. The introduction of the AMK into the artillery formation allows the calculation of gun firing systems in an automated mode when changing weather conditions at any time.

To determine the coordinates of the enemy’s targets, it is possible to use UAVs, interaction with which is carried out through the ground control unit (NPU) of the UAV associated with the PUK with a digital radio communication channel, and it is possible to service firing at the enemy’s reconnoitered and accepted target. Introduction to the UAV artillery formation allows you to determine the coordinates of the target beyond the line of sight (terrain folds, mountainous terrain, forest, etc.); determine the coordinates of targets at ranges exceeding the operating range of the LCD; real-time transfer of photos and video images to NPU UAV for identification of targets and shooting service.

The firing service includes determining, with the help of intelligence tools, the deviations of the center for grouping shell explosions from the center of the target, storing them in the control panel of the commander of the artillery formation and transferring the deviations from the control panel of the commander to the control panel of the senior officer of the artillery formation via a digital radio channel. Then, in the control panel of the senior officer of the artillery formation, the corrections in the firing setup are calculated and transmitted over the air to the gun terminal of each gun. When firing is installed on the screen of the gun terminal, corrections are displayed and corrections are implemented in the firing setup on guns and shells with a view to taking them into account during further firing.

The implementation of the proposed method is illustrated by graphic materials that contribute to its better understanding.

Figure 1 presents the control circuit of the weapon systems of artillery units before using the proposed invention.

Figure 2 - presents a control scheme for weapons systems of artillery units using the invention.

Management of weapons systems of artillery units when firing unguided and guided projectiles by the proposed method is as follows.

The firing position of the artillery formation is located at a great distance from the line of contact. An artillery formation KNF with a complex of automation equipment, including LCD, artillery launcher, ASN, TsRS, is deployed near the military contact line, with the LCD, ASN and TsRS exits through connectors connected to the artillery launcher, and the artillery formation launcher interacts with the digital UAV radio channel. Using the ASN, the coordinates of the LCD are determined and entered into the PUK of the artillery formation, the LCD is oriented. The position of KNP and LCD is displayed on a digital map of the area. Near the firing position of an artillery formation, an artillery ASW is deployed with a complex of automation tools, including an artillery artillery ASW, to which ASN, TsRS and AMK are connected through connectors. The coordinates of the guns of the artillery formation are entered into the PUSO from the ASN, the shooting conditions are entered from the AMK, and the ballistic shooting conditions and the main direction of shooting are entered from the keyboard. The position of the ASW and guns is displayed on a digital map of the area. In the case of using the LCD to determine the coordinates of the target on the KNL artillery formation using LCDs measure the distance to the target, azimuth and elevation of the target relative to the target. The measurement results are transferred to the artillery formation launchers, converted into a rectangular coordinate system, displayed on the artillery launchers launcher screen on a digital terrain map and transmitted to the artillery launcher via a digital radio channel. If a UAV is used to determine the coordinates of a target, its rectangular coordinates are transmitted from the UAV of the UAV to the artillery formation launchers, displayed on the artillery formation launcher screen on a digital terrain map, and transmitted to the artillery launcher via a digital radio channel. In the PUSO, using the coordinates of the targets received by radio, the measured coordinates of the guns, determined using the AMC meteorological conditions of firing, entered from the keyboard of the ballistic firing conditions, the firing settings for the guns and the flight mission data for the shells are calculated. The calculated firing settings and flight mission data are transmitted over the air to the OT of each gun, where they are displayed on the OT screen and are implemented on the gun and projectile. Produce a shot.

In order to increase the efficiency of firing and reduce the consumption of shells for performing a fire mission, within the framework of the proposed method of firing, a service mode for firing at the enemy’s reconnoitered and accepted targets for destruction is provided. The management of armament complexes of the artillery formations during firing of unguided and guided projectiles in the service mode of firing at the enemy’s reconnaissance and defeat target is carried out as follows.

On KNP with the help of LCD or using the information received from the UAV of the UAV, the deviations of the center of grouping of discontinuities (CGR) of shells from the center of the target (CC) are determined, which are entered into the CCP and transmitted to the CCP via a digital radio channel. In the PUSO, using the deviations of the CGR shells from the center received by radio, corrections to the firing installations are calculated and transmitted over the air to the OT of each gun, where they are displayed on the OT screen and implemented on guns and shells. Produce a shot.

The use of the invention allows to reduce the time of preparation of an artillery formation for firing by reducing the time for meteorological preparation, allows to detect targets and serve firing on a time scale close to real, which will generally increase the combat effectiveness of firing of artillery artillery systems.

Claims (3)

1. The method of controlling the weapon systems of artillery formations during firing, including determining and topographic binding of the coordinates of targets using reconnaissance means, transferring them through the control panel of the commander of the artillery formation to the control panel of the senior officer of the artillery formation via a digital radio communication channel, topographic linking of the positions of the guns in the control panel senior officer of the artillery formation, the calculation in the control panel of the senior officer of the artillery formation is established firing range for the specified target and guns, sending a message with firing settings from the control panel of a senior artillery officer to the gun terminals via a digital radio channel, displaying the firing settings on the gun terminal screen of each gun and implementing them on the gun and shell, characterized in that the meteorological shooting conditions are determined using a portable automated weather set, which is connected to the control panel of a senior artillery officer from oschyu connector and automatically stored in the control panel of a senior officer of artillery formations, and then used in the calculation of firing installations for this purpose and attracted for its destruction weapons. 2. The method according to claim 1, characterized in that for determining the coordinates of the enemy’s targets, an unmanned aerial vehicle is used, the interaction with which is carried out through a ground control station for unmanned aerial vehicles, connected to the control panel of the artillery formation commander with a digital radio communication channel. 3. The method according to claim 1, characterized in that the shooting service is carried out according to the enemy’s reconnaissance target and accepted to defeat, including determining, using intelligence tools, the deviations of the center for grouping shell explosions from the center of the target, storing them in the control panel of the artillery formation commander and transmitting deviations from the commander’s control panel to the control panel of a senior artillery officer on a digital radio channel, the calculation in the control panel of a senior artillery officer was formed corrections in the firing settings and their transmission over the air to the gun terminal of each gun, display of corrections in the firing setup on the gun terminal screen and the implementation of corrections in the firing setup on guns and shells with a view to taking them into account during further firing.

Images