RU2637392C2 - Method of accounting explosion deviations (explosion group center, submissile explosion group center) of high-precision ammunition - Google Patents

Abstract

FIELD: weapon and ammunition.

SUBSTANCE: when high-precision ammunition does not hit the target, the deviation of the explosion (EGC, SM EGC) of high-precision ammunition is taken from the target center to determine the settings for the new aiming point using the results of the previous launch. The new aiming point is determined taking into account the deviation of the explosion (EGC, EGC SM) of the high-precision ammunition from the target in range and direction. The settings for starts (shots) are determined by the method of full (shortened) training from the firing (starting) artillery position at the center of the target.

EFFECT: expansion of functional capabilities due to taking into account the deviations of the explosion, submissile explosion group center of the high-precision ammunition based on the results of the notch of the explosion to determine the coordinates of the new aiming point in order to reduce the time and expense of high-precision ammunition for destroying targets when firing with high-precision ammunition.

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Description

The invention relates to the field of shooting and fire control of artillery, namely to shooting and fire control of high-precision munitions with a closed fire (starting) position.

High-precision artillery munitions include guided and adjusted shells (mines) with a semi-active laser homing head, guided by a laser beam reflected from a target, and shells with self-aiming warheads (EBs).

The conditions that impede or preclude the execution of fire missions by guided (adjusted) ammunition from closed fire (launch) positions are:

dust, smoke, rain, snowfall, fog;

the height of the lower boundary of the clouds is less than 400 m;

the average wind speed at the homing (correction) section is more than 15 m / s for shells and more than 7 m / s for min;

offset correction of more than 7-50 divisions of the goniometer;

the presence of a solar disk in the field of view of a laser target designator-rangefinder (LCD) (Rules of shooting and fire control of artillery, Publishing House of the Ministry of Defense of the Russian Federation, 2011. - 250 p., Art. 547).

Accordingly, when firing at a target with high-precision ammunition from a closed firing (starting) position under the above conditions, a miss is possible, which leads to a second shot (launch) with a high probability of a repeated miss. Repeated misses lead to an unreasonable increase in the consumption of high-precision ammunition for targets, an increase in the time for performing fire missions and a decrease in the effectiveness of firing artillery from closed fire (launch) positions in general.

Closest to the proposed method is a method of accounting for deviations of ammunition breaks when firing direct fire (see Rules for firing and controlling artillery fire, Publishing House of the Ministry of Defense of the Russian Federation, 2011 - 250 p., Art. 353). In this method, when firing artillery with direct fire, the deviations of the shells from the target in range (discontinuity signs) and in the direction are determined by the place where the shells, fragments (burst cloud or funnel) fall or by observing the deviation of the path relative to the target (aiming point (TP)) and the measured deviations are corrected by changing the settings of the sights.

The disadvantage of this method is its feasibility only for direct fire.

The objective of the invention is to increase the effectiveness of firing of artillery units when firing from closed firing (starting) positions, reducing the time and consumption of high-precision munitions to destroy targets when firing high-precision munitions.

The technical result of the invention is that in the case of missed high-precision ammunition reconnaissance according to the results of notching the gap (the center of the group of discontinuities (CGR), the center of the group of explosive elements (CGR BE)) and taking into account its deviation determine the coordinates of the new aiming point. These coordinates are transmitted by a formalized message to the means of destruction and are recounted relative to the direction of fire (launch).

The specified technical result is achieved by the fact that when high-precision ammunition does not hit the target, the deviation deviation (CGR, CGR BE) of high-precision munitions from the center of the target is taken into account to determine the settings for the new aiming point using the results of the previous launch. The new aiming point is determined taking into account the deviation of the gap (CGR, CGR BE) of high-precision ammunition from the target in range and direction. Settings for launches (shots) are determined by the method of complete (reduced) preparation from the firing (starting) position of artillery in the center of the target.

Thus, a fairly universal method of accounting for deviation of the gap (CGR, CGR BE) was proposed, which reduces the time and consumption of high-precision munitions.

As a result of using the proposed technical solution, the effectiveness of firing artillery from closed fire (starting positions) is increased due to:

reduction in the number of misses by high-precision ammunition;

reducing the number of precision munitions required to perform a fire mission.

The proposed technical solution is due to the fact that the coordinates of the new aiming point are determined in the following order (Fig. 1 is a simplified block diagram of the calculation of the gap (CGR, CGR BE) from the center of the target, Fig. 2 is an example of how to account for deviations of the gap (CGR , CGR BE) of high-precision ammunition from the center of the target of the previous launch for the launch position of the multiple launch rocket system), provided that the equipment is for various types of measurements, radio transceivers, data processing, aiming, etc. uses standard, in particular rangefinders, high-speed computers, transceiver stations, etc.

After firing a high-precision munition, the reconnaissance unit, using regular means, determines the rectangular coordinates X _P1 , U _P1 and height h _P1 based on the results of rupture detection (CGR, CGR BE) of a high-precision munition;

и дирекционный угол

с огневой (стартовой) позиции артиллерии на разрыв (ЦГР, ЦГР БЭ);the obtained values of the rectangular coordinates of the gap X _P1 , _P1 determine the geodetic range

and directional angle

from the firing (starting) position of artillery to break (CGR, CGR BE);

и геодезической дальности до цели

:calculated deviation of the gap (CGR, CGR BE) from the target in range Δ Д ₁ as the difference of the geodetic range in the gap

and geodetic range to the target

:

и дирекционного угла по цели

:the deviation of the gap (CGR, CGR BE) is calculated from the target in the direction Δα ₁ as the difference of the directional angle of the gap

and directional angle for the target

:

и отклонения разрыва (ЦГР, ЦГР БЭ) от цели по дальности ΔД₁ со своим знаком:determine the geodetic range by the new aiming point D _TP1 as the difference of the geodetic range to the target

and deviation of the gap (CGR, CGR BE) from the target in range Δ Д ₁ with its sign:

и отклонения разрыва (ЦГР, ЦГР БЭ) по направлению Δα₁:determine the directional angle from the new aiming point as the difference of the directional angle to the target

and deviation of the gap (CGR, CGR BE) in the direction Δα ₁ :

the values of D _TP1 and α _TP1 determine the rectangular coordinates of the new aiming point X _TP1 , _TP1 , which take into account the deviation of the gap (CGR, CGR BE) of the first launch (shot);

based on the obtained coordinate values X _TP1 , _TP1 calculate the installation for striking (shooting).

If it is necessary to carry out control of determining the installations, the launch is carried out only by an instrument (combat vehicle) involved in the first launch (shot).

Having received data (coordinates) for the second gap (CGR, CGR BE) (X _P2 , U _P2 ), the results are taken into account in the same order, while the geodetic data to the new aiming point is determined relative to the previous aiming point as follows:

where ΔД ₂ , Δα ₂ are the deviations of the second gap (CGR or CGR BE) from the target in range and direction relative to the firing, starting position of the artillery.

According to the calculated data, the installations for launches (shots) are determined by the method of complete (reduced) preparation from the firing (starting) position of artillery in the center of the target.

Further, if it is necessary to control the determination of the settings after the shot (launch) according to the newly introduced data, the procedure for determining the aiming point will be the same as for the second gap.

Claims (1)

A method of accounting for deviations of discontinuities (center of a group of discontinuities (CGR), center of a group of discontinuities of combat elements (CGR BE)) of high-precision ammunition, including determining the rectangular coordinates of a gap (center of a group of discontinuities, center of a group of discontinuities of combat elements) based on the results of their notching, determining the geodetic range and directional angle from the firing (starting) position of artillery to break (CGR, CGR BE), calculation of the deviation of the gap (CGR, CGR BE) from the target in range and direction relative to the firing (starting) position of artillery, determine geodetic data to a new aiming point according to the values of the geodetic range and directional angle from the firing (starting) position of the artillery to the gap (CGR, CGR BE), the definition of the rectangular coordinates of the new aiming point, which take into account the deviation of the gap (CGR, CGR BE) of the first launch ( shot), calculation based on the obtained coordinate values of the new aiming point and installations for striking (shooting).

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