RU2539727C1 - Method for improving efficiency of surveillance in specimen of armament of armoured force vehicles - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: method proposes to use TKN-3B surveillance instrument and OU-3GA2 lighting device, which ensure locality surveillance, searching and finding of targets, determination of distance to targets, as well as target indication and adjustment of fire under day and night conditions. With that, the surveillance instrument and the lighting device are located in a tower - a commander's hatch. An indication radar performing target searching in a radar range is installed on the AFV specimen. Information on targets is sent through a signal processing unit to Left - Right indicators. Besides, the latter are located in an input window of the optical-electronic surveillance and sighting instrument. After that, the crew is informed of azimuthal location of an enemy in a battle field relative to the AFV specimen.

EFFECT: increasing awareness degree of a crew on azimuthal location of targets in a battle field relative to an AFV specimen, and reducing detection time.

1 dwg

Description

The invention relates to the field of military equipment, in particular to methods for improving the effectiveness of monitoring the terrain, target recognition, determining the range to targets, target designation and correcting machine gun fire of armored vehicles (BTV).

Known methods for improving the effectiveness of surveillance, for example, for a combat reconnaissance and patrol vehicle, when an optical surveillance device TPKU-2B is used to monitor the terrain, located in a rectangular cutout of a rotating flange mounted in a half-glass at the junction of the vertical windshield and the roof of the hull (see Technical description and instruction manual for combat reconnaissance and patrol vehicle (BRDM-2) Book 1. Publishing house of the Russian Ministry of Defense GABTU, Omsk 2002, p. 86, 89. Open edition).

In addition, there is a method of increasing the efficiency of observation from a BTV sample for the BMP-2 infantry fighting vehicle, in which a device is used to provide monitoring of the terrain, search and detection of targets, determining the range to targets, as well as target designation and correction of fire in day and night conditions TKN-3B, which includes the TKN-3B surveillance device and the OU-3GA2 illuminator located in the tower — in the commander’s hatch (see the Technical Description and Operation Manual for Infantry Fighting Vehicle (BMP-2). Part One. Publishers Russian Ministry of Defense in 2001, p.10, 13, 14, 154. Open edition. Prototype).

The known method of increasing the efficiency of observation from a BTV sample allows you to monitor the terrain, provide search and target detection, adjust fire in day and night conditions.

However, this method does not allow crew members to search for and detect targets when observing terrain beyond the optical visibility of existing (standard) surveillance and aiming devices (that is, optical visibility, depending on their technical characteristics, is limited to a certain viewing sector).

The objective of the present invention is to increase the degree of information of the crew about the location (location) of targets on the battlefield when monitoring the terrain in the daytime and at night, reducing the detection time of the enemy and thereby increasing the likelihood of his defeat.

The technical result of the proposed invention is to increase the degree of informational content of the crew about the azimuthal location of targets on the battlefield relative to the BTV sample, reducing the detection time and increasing the likelihood of their destruction, reducing the likelihood of using enemy weapons based on the BTV model and its crew, as a result of increasing its protection.

The technical solution of the proposed invention is the additional installation on the sample of the BTV radar monitoring station, the signal processing unit and indicators "left" - "right", allowing simultaneously with the optical observation of the crew over the terrain produced through optical (optoelectronic) observation and aiming devices radar surveillance of the terrain and inform the crew about the enemy.

At the same time, a method for increasing the efficiency of observation from a BTV sample is based on the fact that a radar observation station is installed on the upper projection of the sample, which searches for targets on the battlefield in the radar range, in the observation sector, not available for optical observation of the crew, and transmits information via electrical wires into the window of the observation device, flashing indicators to the crew about the azimuthal position of the target (enemy) relative to the BTV sample.

A method for increasing the efficiency of observation from a sample of armored weapons, including the TKN-3B observation device and the OU-3GA2 illuminator, providing terrain monitoring, target search and detection, target range determination, and target designation and fire adjustment in day and night conditions located in the tower - in the commander’s hatch, characterized in that in addition to the BTV sample, a radar observation station is installed, which is used to search for targets in the radar range, information about x through electric wires through the signal processing unit to the indicators “left” - “right”, they inform the crew about the azimuthal position of the enemy on the battlefield relative to the BTV model, provide increased monitoring of the terrain in day and night conditions, reduce the time of detection of targets, increase their likelihood defeat.

The invention is illustrated in figure 1, which shows a device that provides a method for increasing the efficiency of observation from a BTV sample, where: 1 - a BTV sample; 2 - radar monitoring station; 3 - indicator “left”; 4 - indicator “right”; 5 - electric wires; 6 - optical-electronic device for monitoring and aiming with an input window; 7 - signal processing unit.

When conducting surveillance from the BTV 1 sample over the battlefield, the operator uses an optoelectronic surveillance and aiming device 6 designed to monitor the terrain, recognize targets, determine the range to targets, target designation and adjust fire weapons. The effectiveness of observation of the battlefield depends on such factors as: atmospheric transmittance (weather conditions), time of year and day, fluctuations in the machine’s body if monitored on the move, as well as technical characteristics of the observation and aiming device itself. When a target appears on the battlefield outside the optical visibility of the device, that is, outside the field of view, the radar observation station 2, designed to conduct reconnaissance and identification of targets in the radar range, depending on the azimuthal direction of the target relative to the BTV 1 sample, sends a signal through electrical wires 5 to the signal processing unit 7. The signal processing unit 7 is intended for receiving and processing signals from the radar monitoring station 2, generating a signal and sending it to the “rights” indicator o ”4, or the“ left ”indicator 3 located in the input window of the optoelectronic observation and aiming device 6, depending on the azimuthal location of the target on the battlefield relative to the BTV model 1. Thus, when the“ right ”indicator 4 and the indicator blink “Left” 3 provides information to the crew member conducting the observation about the location of the target (enemy) on the battlefield.

An example of the method. The operator monitors the battlefield from the input window of the optoelectronic observation and aiming device 6 located on the BTV sample 1. When a target appears outside the optical visibility zone (outside the viewing sector) of the optoelectronic observation and aiming device with entrance window 6, the radar observation station 2, sends a signal via electric wires 5 to the signal processing unit 7. The signal processing unit 7, depending on the azimuthal direction of the target relative to the sample, BTV 1 generates and sends a signal to the dictator “right” 4 or the indicator “left” 3, located in the input window of the optoelectronic surveillance and aiming device 6, provides information to the crew member monitoring the location of the target (enemy) on the battlefield.

показана электросвязь между радиолокационной станцией наблюдения, блоком обработки сигналов и входным окном оптико-электронного прибора наблюдения.Figure 1 dashed

shows the telecommunication between the radar monitoring station, the signal processing unit and the input window of the optoelectronic monitoring device.

The proposed method allows to increase the degree of detection of targets (enemy) on the battlefield at different times of the year and day, under various meteorological conditions, to reduce the time of detection and to increase the likelihood of defeating the enemy on the battlefield and, as a result, the use of enemy weapons on the model of BTV and located in him crew.

Literature

1. Technical description and instruction manual "Combat reconnaissance and patrol vehicle (BRDM-2)." Book 1. Publishing house of the Ministry of Defense of the Russian Federation GABTU, Omsk, 2002, p.86, 89. Open edition.

2. Technical description and operating instructions "Infantry fighting vehicle (BMP-2)", part one. Publishing house of the Ministry of Defense of the Russian Federation, 2001, p.10, 13, 14, 154. Open publication.

Claims (1)

A method for increasing the effectiveness of observation from a sample of armored weapons, including the TKN-3B observation device and the OU-3GA2 illuminator, providing terrain monitoring, target search and detection, target range determination, and target designation and fire adjustment in day and night conditions located in tower - in the commander’s hatch, characterized in that an additional radar observation station is installed on the BTV’s sample, which is used to search for targets in the radar range and transmit information about them through electric wires through the signal processing unit to the indicators “left” - “right”, and the indicators “left” - “right” are in the input window of the optoelectronic device, inform the crew about the azimuthal position of the enemy on the battlefield relative to the BTV sample.