UA63616A - Method for aiming and shooting target (versions) and appliance for its implementation - Google Patents

Abstract

The invention relates to the area of arms and military machines and can be used at moving objects of military machines, for instance, at machines of light armored machines. Main point of the invention is in operative correction of the angle of targeting as function of distance to the target. Method according to the invention is in finding and recognition of the target with choosing respective arms, putting the targeting mark to the mark of the target, measuring distance by means of laser distance measuring device, with input of the measured distance value to ballistic calculator (BC), forming the targeting mark, applying it to the target, with arranging the arms at needed for shooting targeting angle and shooting. At that one performs beforehand input of N values of basic dimensions of typical targets to the memory of the BC, after having measured distance to a typical target one chooses its base from the number of those included to the memory of the BC, and at formation of the mark of targeting one determines its value according to the value of the measured distance and the chosen base of a typical target. At application of the mark to the mark from the target, one surrounds it with the targeting mark, and preserves the dimension of the last one equal to the dimension of the mark from the target under condition of change of the distance to the target, with correction at that for the angle of targeting of the arms as function of distance to the target. Value of distance to the target determined by the dimension of the mark of targeting is used to correct the angle of targeting; this makes it possible to increase accuracy of shooting and rate of firing at target at change of distance to it. To shot at target for which the base is not included to the memory one first determines the base of the target by dimension of the mark, with forming the mark to the target, and the distance measured. This is remembered for the time of work with the target, and applied the same methods of targeting as for the targets with known base. Appliance to realize the proposed shooting methods is disclosed.

Description

Description of the invention

The invention relates to the field of weapons and military equipment, in particular to methods of aiming and shooting 2 at ground and some types of air targets.

A known method of firing a combat vehicle (BM) at a target and a system for its implementation (see RF patent 2772463 dated 07/19/99). The method of firing consists in detecting and recognizing the target, taken for tracking and tracking the target, determining the speed of convergence of the target with the BM, calculating the absolute initial velocity of the projectile, flight time and biased distance from mathematical expressions, determining kinematic angular 70 corrections from mathematical expressions, constant deflection of the barrels of the gun installation (GU) relative to the line of sight and firing at the target, taking into account the additions of ballistic corrections that take into account the aiming angle, the angle of derivation, the speed of the side and longitudinal wind, the parallax of the sight and the GU from mathematical expressions and firing at the target.

Systems that use a similar firing method to impress air targets contain a significant amount of complex and expensive equipment, which includes an active range finder (for example, a laser), which determines the distance to the target with a frequency of 10-30 Hz. These are highly accurate and effective systems, but they are unsuitable for installation on light armored vehicles, the main task of which is to fire at ground targets and low-speed air targets (for example, helicopters) due to the volume of the equipment and its high cost.

On armored vehicles, active and passive methods of distance determination are widely used for aiming and shooting. Active laser rangefinders (LV) with a distance measurement frequency of the order of 0.2 Hz, and passive optical ones are used as distance meters. Such a low rate of distance measurement does not allow you to adjust the aiming angle more often than once every 5 seconds, which worsens the accuracy of shooting in conditions of changes in the distance to the target.

Currently, in armored vehicles, passive methods of distance determination are widely used, which "use optical rangefinders with a base (of known size) on the target (see S.V. Kulagyn et al. "Optical-mechanical devices!" M., Mashinostroenie 1975 ., p. 261). At the same time, the distance to the target is determined by the simplified formula:

DeB/e, o where: B is the base (known size) on the target, "-e is the parallax angle.

The target base is entered into the system memory in advance. By determining the parallax angle to the target, the distance to the target is found. co

The disadvantages of this method of aiming include: - the base of the target must be known in advance and entered into the memory of the device that implements this method of determining it from a distance, and the number of typical targets with known dimensions that are entered into the memory is limited to the reason that the scales that are placed in the field of view of the sight are used as "memory" - low speed, which is caused by the need to measure the angular size of the target according to the distance measuring "du scale" when determining it from a distance with the subsequent alignment of the aiming point with the target, which needs some time. c The closest to the claimed method, in terms of technical essence, is the method of shooting at a target, implemented: with" in the "Weapon Aiming and Control System" (see the Ukrainian patent for the invention Mo53460A, IPC

E4101/36, g4103/06, P4109/00, publ. 15.01. 2003), which consists in identifying and recognizing the target, choosing the appropriate weapon used to impress the specified target, placing the sighting mark on the b 75 mark of the target, measuring the distance and entering the measured value from the distance into the ballistic calculator, forming the aiming mark with the taken into account corrections, placing an aiming mark on the target, providing the weapon (95) with the required aiming angle for firing and firing. b The disadvantage of this method of firing is the low accuracy of firing and the rate of firing at the target in the conditions of a change in the distance to the target. This happens because when the distance to the target is changed, the aiming angle between the two measurements - 70 of the distance remains unchanged and does not correspond to the current value of the distance, which worsens the accuracy of shooting. For

To adjust the aiming angle, it is necessary to update the value of the distance to the target entered into the calculator, for which the aiming mark is "zeroed" by moving it to a point on the television indicator where it corresponds to the sighting axis of the rangefinder and is called the rangefinder sighting mark, superimpose it on the mark from the target, measure distance to the target and enter it into the calculator, after that it moves to the point corresponding to the aiming angle, turning into an aiming mark, put it on the target and fire. Such in thus, to update the value of the distance to the target, it is necessary to interrupt the firing of the target, resume it after updating the distance, and again interrupt the firing of the target when its distance is changed, which reduces the accuracy of fire and the rate of fire on the target.

In addition, under conditions of failure of the active range finder, there is no reliable information about the distance to the 60th target, which makes aiming shooting impossible.

The basis of the invention is the task of creating a method of aiming and shooting at a target, which allows, by using a passive method of determining the distance to the target, as well as a combination of using active and passive methods of determining the distance to form the aiming angle, to increase the accuracy of shooting and the rate of firing at the target in conditions of changing the distance to the goal, as well as to increase the reliability of the functioning of the system, which implements this method.

The task is achieved due to the fact that in the known method of aiming and shooting at a target, which consists in detecting and recognizing the target, choosing the appropriate weapon used to impress the specified target, placing the sighting mark on the mark from the target, measuring the distance and entering the measured value from a distance to the ballistic calculator, formation of the aiming mark with the corrections taken into account, placing the aiming mark on the target, providing the weapon with the necessary aiming angle for firing and firing, "n" values of the basic dimensions of typical targets are entered into the memory of the ballistic calculator in advance, after measuring the distance to the typical targets select its base from among those entered in the memory of the ballistic calculator, when forming the aiming mark, set its size in accordance with the value of the measured distance and 70 selected base of a typical target, and when superimposing the aiming mark on the mark from the target, frame the mark from the target with the aiming mark and support have its size equal to the size of the mark from the target when changing the distance to the target, while adjusting the weapon aiming angle as a function of the distance to the target.

The task is also achieved by the fact that in the known method of aiming and shooting at the target, which consists in identifying and recognizing the target, choosing the appropriate weapon used to impress the specified target, placing the sighting mark on the mark from the target, measuring the distance and entering the measured value distance to the ballistic calculator, forming the aiming mark with corrections taken into account, placing the aiming mark on the target, giving the weapon the required aiming angle for firing and firing, before starting firing and before measuring the distance to the target with an unknown base in advance, choose the target base, for example, vertical or the horizontal size of the target, cover the basic size of the mark from the target with the aiming mark, and after measuring the distance and entering the distance value into the ballistic calculator, calculate the base of the target and remember the value of the basic size of the target for the time of working with this target, while maintaining the size of the aiming mark equal to the base p measuring the mark from the target when the distance to the target changes.

The presence of new features in relation to the known features of the prototype in the proposed technical solution allows, after determining the distance with an active rangefinder, to select from the memory of the ballistic computer one of the pre-recorded and known "n" values of the bases of typical targets, which are formed with the help of the ballistic computer the size of the aiming mark is equal to the base size of the mark from the target and the measured distance, which "allows you to eliminate the time for manually setting the size of the aiming mark corresponding to the base of the target, then apply the aiming mark to the target, and, having given the weapon the required aiming angle for shooting, shoot at the target . When the distance to the target changes, the size of the mark from the target changes, so the gunner, using Gezo controls, changes the size of the aiming mark, keeping its size equal to the basic size of the mark from the target, while the ballistic calculator adjusts the value of the aiming angle. Thus, the adjustment of the aiming angle during firing is carried out when the distance to the target is changed as quickly as the gunner can do it. Thanks to this, the accuracy of shooting and the rate of firing at the target increases when the distance to it changes.

In addition, there is the possibility of autonomous determination of the distance to the target with a known base, which allows i) to ensure aimed shooting in the absence of an active rangefinder, to increase the reliability of the functioning of the system. For this, a known base of the target is chosen, a mark is placed on the mark from the target, covering the basic size of the mark from the target, while the ballistic calculator forms the aiming angle in accordance with the dimensions of the mark. When the dimensions of the marks and marks from the target are equal, fire is opened.

When using the method according to the second option, its basic size is chosen based on the mark from the target, for example, "the vertical or horizontal size of the target, the sighting mark is placed on the mark from the target and, controlling its size, cover the selected base of the mark from the target with the sighting mark. Then they measure the distance with a laser. rangefinder and enter it into the ballistic calculator, while calculating the base of the target based on the measured distance y? and the angular size of the aiming mark from the expression: B-D/y. Then remember the base size of the target while working with this target, using it in further work as a known base.

Thus, the method according to the first and second options due to operative adjustment of the angle

Gee! aiming allows you to increase the accuracy of firing and the rate of fire on a target with an unknown base in advance when the distance to the target changes, and increase the reliability of the system's functioning. The method of determining the distance to the target is described in the book by S.V. Kulagin and others. "Optical and mechanical devices". M., Mashinostroenie, 1975, pp. 304-327),

Ge") is implemented in optical aiming devices installed on objects of armored vehicles.

For example, in optical sights BP-1-42 (BI1-2-42), installed on an infantry fighting vehicle (BMP-2) for - aiming from a cannon and a machine gun. In the field of view of the sight there is a fixed grid, by which it is determined

F distance to a typical tank-type target, (see the book "Infantry combat vehicle. Technical description and instruction on zksploatsii". -- M. Voenizdat. 1987), after which the aiming point is chosen. The specified sights are compact, simple, relatively inexpensive, but have general disadvantages: - significant errors in determining the distance to the target, due to the inaccurate alignment of the target base and the rangefinder grid, - the distance measurement and guidance functions in them are spread out, which increases the total aiming time, reduces pace" and accuracy of aiming fire when the distance to the target changes, requiring adjustment of the aiming angle, - the design of such sights does not allow automating the process of determining the distance and entering the values of the distance to the ballistic calculator without significant constructive improvements, v - the number of typical targets to which the distance is determined , limited.

Known optical sights for aerial shooting (see S.V. Kulagin and others. "Optical-mechanical devices!". M.,

Mechanical engineering, 1975, p. 304-327), containing the optical sight of the sight with the device for forming the image of the sight reticle, the controls that ensure the input of information into the sight about the base of the target and the adjustment of the size of the aiming mark, the device for forming a signal at a distance from the target, a computer that produces aiming angles of 65 , a gyroscopic builder of angular corrections with a mirror that changes the position of the line of sight. When a target is detected, the pilot determines its type and sets the base of the target with the handle, enters it into the computer, aligns the center point of the aiming mark with the target using the remote handle connected to the remote signal sensor, and frames the target with a rangefinder ring. Based on the known dimensions of the target and the diameter of the rangefinder ring, the calculator determines the distance to the target, which is used to determine the aiming angle of the weapon. Holding the aiming mark on the target and framing the contour of the target with a rangefinder ring, the pilot fires.

In these sights, the process of entering the current distance to the target into the calculator and using its values in the calculator to determine the aiming angles is automated, however, these sights also have disadvantages: - when using this method of determining the distance in the sights of armored vehicles, the error of determining the distance will be 7/o greater, because the aiming mark, which frames the base of the target (for example, the height or width of a tank or BMP) and has the shape of a circle, will introduce a distance determination error due to the inaccuracy of the alignment of the target base and the diameter of the rangefinder ring, and changing the shape of the aiming mark to a rectangular one requires a significant change in the design sight, - such devices without further development cannot be used in sights with optical-electronic /5 sensors (for example, in sights containing a television transmission camera with a television indicator that uses an electronic image for aiming) not only because of the complexity of the combination, but also because significant hardware redundancy.

The closest to the claimed system is the "Weapon Aiming and Control System" (see

Declaration patent of Ukraine for the invention Mo53460А, IPC g4101/36, P41053/06, G41059/00 dated 15.01.03), which

Contains a weapon unit, a laser range finder (LV), a television transmission camera (TPC), while the laser range finder and a TV camera are installed together with the weapon unit, a stabilizer of the weapon unit, a gunner operator's remote control with remote LW START and INPUT/RESET buttons, control panel a weapon with a ballistic computer, a mixer, a device for forming signs and a mark and a television indicator, while the laser rangefinder is connected to the ballistic computer through a control bus, a television or transmission camera is connected to a television indicator through a mixer, the console of the first and second gunner operator the outputs are connected to the first and second inputs of the stabilizer of the armament unit, respectively, and the outputs of the stabilizer of the armament unit are mechanically connected through the vertical guidance axis (VN) to the armament unit and through the horizontal guidance axis (GN) - to the turret of the combat vehicle, the first output of the ballistic calculator connected to the input of the device for forming signs and stamps, in the output of which is connected to the second input of the mixer. Gezo The weapons unit is installed in the turret of the combat vehicle and has a 30-mm automatic cannon, a machine gun, a grenade launcher and two anti-tank missile launchers. The laser range finder and the television (7) transmission camera are installed on the unifying platform compatible with the weapons unit. The axes of the laser range finder and the television transmission camera are aligned with the position of the weapon, which ensures the correct aiming of the selected weapon. In this initial position, the aiming mark is the sighting mark, therefore that me) provides when it is superimposed on the mark from the target, the distance to the target is measured with a laser rangefinder, and until the value "about the distance" is entered into the calculator, the aiming angle is zero.

The stabilizer of the weapons unit has two control channels with electric motors and gearboxes of the VN and GN axes, gyroscopic angular velocity sensors and provides spatial stabilization of the weapon, and the control of the position of the weapon is carried out by signals from the operator-gunner's remote control, while the operator-gunner uses channel "40. VN carries out weapon guidance in a plane perpendicular to the axis of the trunnion, and the GN channel - in the plane of the epaulet of the tower and from the machine.

The gunner's operator's console contains two handles connected to GN and VN sensors, which generate signals;" control of the weapons unit, as well as the start button of the laser range finder START LV and a dual-function button

INPUT/RESET, providing remote input at the first push of a button

ENTER/RESET and remote reset by repeatedly pressing the ENTER/RESET button. b The weapon control panel contains a ballistic computer that provides information exchange with the laser range finder, generates an aiming angle signal, which causes the aiming mark to move on the television indicator with corrections for the aiming angle taken into account. Forming device

Ge» of signs and marks ensures the formation of sign information, for example, information about the distance to the target and other official information that is sent to the television indicator through the mixer, and the intersection of sighting or aiming marks.

Ф The mixer ensures "mixing" of the signal of the sighting mark (aiming) into the television signal of the transmission camera and outputs it to the television indicator.

The television indicator provides a display of the scene observed by the transmitting television camera and the aiming or aiming mark.

The system works as follows.

R The gunner, using the control panel and the stabilizer of the weapons unit, points the television transmission camera at the target, controlling the aiming process according to the image on the indicator, superimposes the crosshairs of the sighting mark on the mark from the target, and to determine the distance to the target, presses the LW START button. Information about the distance is sent to the ballistic computer, then to the device for forming signs and marks, and then through the mixer to the television indicator. Information about the distance to the target appears on the television indicator.

The gunner enters the remote value into the calculator by pressing the ENTER/RESET button (remote.

The computer produces a signal that corresponds to the aiming angle, which shifts the aiming mark on the indicator to the aiming angle. The gunner, using the handles of the operator-gunner's remote control through the stabilizer of the weapon unit 65, changes the position of the weapon unit and puts the aiming mark on the mark from the target, which gives the weapon the necessary aiming angle for firing, and starts firing, monitoring its results on the television indicator.

When changing the distance to the target, it is necessary to change the aiming angle, so the gunner periodically resets the distance by pressing the ENTER/RESET button, puts a mark on the mark from the target, presses the START button

To restore information about the distance, the LW presses the RESET/INPUT button to enter the distance into the calculator, puts the mark shifted by the aiming angle on the target, and only after that fires.

This process of retargeting requires a certain amount of time, which reduces the rate of fire on the target, and the delay in adjusting the aiming angle reduces the accuracy of shooting.

In addition, the laser rangefinder is a rather complex device with finite reliability. His refusal of 7/0 will lead to the impossibility of aiming fire. In addition, the hiddenness of the work is not ensured, because laser radiation is an unmasking factor, which is not always acceptable.

The basis of the invention is the task of creating a system for aiming and shooting at a target, which allows to increase the accuracy of shooting and the rate of firing at a target when the distance to the target changes, as well as the reliability of its operation.

The task is solved in such a way that to the system of aiming and firing at a target, which contains a weapon unit, a laser range finder, a television transmission camera, and the laser range finder and a television transmission camera are installed compatible with the weapon unit, a weapon unit stabilizer, a remote control of the gunner operator with LW START and INPUT/RESET buttons remotely, weapon control panel with ballistic calculator, mixer, marking and marking device and television indicator, while the laser rangefinder is connected to the ballistic calculator via the control bus, television 2o transmission camera via mixer with connected to the television indicator, the operator-gunner's console, the first and second outputs are connected to the first and second inputs of the stabilizer of the armament unit, respectively, and the outputs of the stabilizer of the armament unit are mechanically connected through the vertical guidance axis to the armament unit and through the horizontal guidance axis - with turret of a combat vehicle, you are the first the course of the ballistic calculator is connected to the input of the device for forming signs and marks, the output of which is connected to the second input of the mixer, and in addition, a switch, an OR circuit, a switch for M positions, a device for forming a mark, and the START buttons LV It INPUT/RESET provided additional functions MORE/LESS " respectively, with the third and fourth outputs of the switch connected to the third and fourth inputs of the ballistic computer, respectively, the first and second inputs of the switch connected to the third and fourth outputs of the operator-gunner console, controlling the input of the switch is connected to the output of the OR circuit, and the first and second outputs of the Gezo switch are connected to the first and second inputs of the ballistic computer, the first output of the M-position switch is connected to the fifth input of the ballistic computer, and the other outputs of the switch , starting from the second (87 to the Mth, connected to M-5 by the corresponding inputs of the ballistic computer, and M-1 of the switch outputs, except for the position of the LV, additional o are connected to the inputs of the OR scheme, the output of the mark forming device is connected to the second input of the mark and mark forming device, and the input of the mark forming device is connected to the second output o of the ballistic calculator. co

Inserting the switch allows you to send signals from the START LV, ENTER/RESET buttons to the first and second inputs of the ballistic calculator, if the M-position switch is set to the LV (laser rangefinder) position, and to the third and fourth inputs of the ballistic calculator in other switch positions.

At the same time, the functions of the LW START, INPUT/RESET buttons operate only in one position of the switch on M " positions, when a laser rangefinder is connected to the system, and in other positions of the switch on M positions 7-3) s change to the control function MORE/LESS by the size of the stamp , made in the form of a cross and capable of covering the basic horizontal or vertical size of the mark from the target on the television indicator. ;" The button signals are sent to the ballistic computer to generate sighting (aiming) start codes. Each value of the distance at the selected base corresponds to the determined size of the mark (the space between the rays of the mark).

Ge» Entering the switch to M positions allows you to select from the computer memory the base of one of the M-2 targets entered in the system memory, when determining the distance to the target with a known base, the M-1 position of the switch and allows you to use a laser range finder to measure away from the target, and the M position of the switch

Ge" is used to determine the distance to the target with an unknown base.

The ballistic calculator and the mark forming device allow you to change the size of the mark by signals from - buttons when using the passive method of remote detection. Stamps are received on the stamp forming device

F codes of the center and the dimensions of its horizontal and vertical strokes. Here, the mark codes are converted into a sequence of pulses and enter the mark and mark forming device, the first input of which receives mark signals, and the second - mark pulses. From the output of the specified device to the input of the mixer comes a sequence of signals of signs and brands, suitable for mixing with a television video signal. The signal from the output of the mixer is sent to the television indicator, on which the symbolic information and the visual brand are reproduced

R (aiming).

All the introduced features are necessary and, together with the known necessary features of the prototype, constitute a new set of necessary and sufficient features of the proposed technical solution, which, thus, meets the criteria of "novelty" and "technical level", due to the fact that it is this introduction of new features that makes it possible to implement the task, i.e. to increase the rate of fire on the target and the accuracy of firing when the distance to the target changes, as well as to increase the reliability of the system's functioning.

The essence of the invention is explained by the drawing, which shows the block diagram of the device that implements the method of aiming and shooting at the target. The device contains: 65 weapon unit 1, laser range finder 2, television transmission camera 3, stabilizer 4 of the weapon unit, operator-gunner remote control 5 with dual-function buttons START LV (MORE) 6 and

INPUT/RESET (LESS) 7, weapon control panel 8, containing switch 9, OR circuit 10, ballistic calculator 11, M-position switch 12, mixer 13, mark and mark forming device 14, mark forming device 15, television indicator 16 , axis VN-17, axis GN-18.

The laser range finder 2 is connected to the ballistic computer 11 by a control bus. The television transmission camera Z through the mixer 13 is connected to the television indicator 16. The operator-gunner's console 5, the first and second outputs of which are connected to the first and second inputs of the stabilizer of the armament unit 4, respectively, and the outputs of the stabilizer of the armament unit 4 are mechanically connected through the axis of VN 17 with weapons unit 1 and through the axis

GN at 18-3 with a turret of a combat vehicle (not shown on the drawing). The third and fourth outputs of the console 7/0 of the operator-gunner 5 are connected to the first and second inputs of the switch 9, the control input of which is connected to the output of the OR circuit 10, and the first, second, third and fourth outputs of the switch are connected to the first , the second, third and fourth inputs of the ballistic calculator 11, respectively, the fifth and M-5 of the other inputs of the calculator are connected to the corresponding outputs of the switch on M positions 12, while additionally M-1 outputs of the switch on M positions 12 are connected to the corresponding inputs of the OR scheme 10. The first output of the ballistic calculator 11 is connected to the first input of the device for forming signs and marks 14, the output of which is connected to the second input of the mixer 13. The second output of the ballistic calculator 11 is connected to the input of the device for forming marks 15, the output of which is connected to the second input of the device for forming signs and stamps 14.

The system works like this.

On the television indicator 16, a part of the space that falls into the field of view of the television transmission camera C and the sighting or aiming mark is displayed. The gunner uses the handles of the operator-gunner console 5 to send control signals to the stabilizer 4 of the weapons unit, whose electric motors through their gearboxes (in the figure, not shown) control the angular movement of the weapons unit 1 along the VN 17 axis and the turret of the combat vehicle along the GN 18 axis. This allows point the television transmission camera C in the desired direction and, placing the aiming mark on the mark from the target on the television indicator 16, measure the distance to the target using the laser range finder 2, while the M position switch is set to the LV position. After that, the switch on M positions 12 is set in one of the M-2 positions of the known base on the target. At the same time, the size of the aiming mark becomes equal to the size of the mark from the base of the target, because the ballistic calculator forms the corresponding values of the mark codes based on the known base and the distance measured by the laser range finder. This eliminates the process of manually setting the aiming mark on the mark from the target and shortens the aiming time. The obtained Gezo distance is entered into the ballistic calculator 11 by pressing the ENTER/RESET button. The ballistic calculator 11 produces the aiming angle by shifting the aiming mark to the aiming angle. Gunner - puts an aiming mark on the mark from the target and opens fire. In the process of changing the distance to the target, the Ge gunner uses the buttons MORE 6, LESS 7 to frame the mark from the target with a mark. Changing the size of the aiming mark causes a change in the value of the distance used to produce the aiming angle, which automatically changes the aiming angle, i.e. increases the accuracy of aiming. There is no need to re-target the LV on the target for recovery from a distance, which increases the rate of fire on the target. The impact of disturbing factors acting on the machine is neutralized by the stabilizer of the weapons unit, which allows the gunner to keep the aiming mark on the mark from the target during the movement of the combat vehicle.

Aimed shooting is possible with the help of the proposed device even in the absence of a laser rangefinder (for example, in the event of failure of the LV). In this case, the gunner chooses a passive method of determining the distance, c sets the switch to M positions 12 in one of the M-2 positions of the known base on the target, using the buttons . MORE 6, LESS 7 frames the mark from the target with a mark, which allows you to form the aiming angle for и? selected weapon, and opens fire. Changing the size of the mark causes a change in the aiming angle and does not require time to re-aim. At the same time, compared to optical sights that are installed on light armored vehicles (for example, the BP-1-42 sight), the accuracy of firing and the rate of fire on the target increase when the distance to it is changed.

When setting the switch 12 to the M position, which is intended for determining the distance to the target with an unknown base, for example, vertically, the gunner, controlling the size of the mark, covers the selected target vertically with the mark,

Ge" sets the switch on M positions 12 to the LW position and, pressing the LW START button 6, measures the distance to the target. After indicating the distance on the television indicator 16, the gunner enters the distance to the ballistic calculator by pressing the ENTER/RESET button 7. According to this signal, the mark moves to

Ф is the aiming angle, and the vertical size of the base of the target is entered into the memory of the ballistic calculator 11 during operation with this target. This size is determined from the known ratios of a right triangle by angle and leg. The angle at which the target is observed is determined by the angular size of the mark, and the leg is the distance, in Obtained in this case from a laser rangefinder. At the same time as the target base is determined, an aiming mark is formed with the size and position required for shooting.

P» Next step, the gunner sets the switch on M positions 12 to the M position, intended for determining the distance to the target with an unknown base, while the START LV buttons 6 and INPUT/RESET 7 acquire the MORE/LESS function. After determining the target base, further work with this target is the same as with a target with a known base.

The claimed system was manufactured and tested as part of a modernized infantry fighting vehicle, confirming its advantages over the prototype technical solution.

Claims (3)

The formula of the invention b5 1. The method of aiming and shooting at a target, which consists in identifying and recognizing the target, choosing a weapon used for the corresponding target, placing the sighting mark on the mark from the target, measuring the range and entering the measured value of the range into the ballistic calculator, forming the aiming mark with the amendments, superimposing the aiming mark on the mark from the target and providing the weapon with the necessary aiming angle for firing and firing, which differs in that "M" values of the basic dimensions of typical targets are entered into the memory of the ballistic calculator in advance, after measuring the range to the typical target, choose its base from among those stored in the memory of the ballistic calculator, when forming the aiming mark, its size is set in accordance with the value of the measured range and the selected base of a typical 7/0 Chile, and when superimposing the aiming mark on the mark from the target, the mark from the target is framed with the aiming mark support its size equal to measure of the mark from the target when changing the range to the target, while adjusting the aiming angle of the weapon as a function of the range to the target. 2. The method of aiming and shooting at a target, which consists in identifying and recognizing the target, choosing the weapon used for the corresponding target, placing the sighting mark on the mark from the target, measuring the range and /5 entering the measured range value into the ballistic calculator, forming the aiming mark with the corrections taken into account, superimposing the aiming mark on the mark from the target and giving the weapon the necessary aiming angle for firing and firing, which differs in that before starting firing and before measuring the range to the target with an unknown base in advance, the base of the target is selected, for example, vertical or horizontal size targets, cover with the aiming mark the basic size of the mark from the target, and after measuring the range and entering the range value into the ballistic calculator, calculate the base of the target and remember the value of the basic size of the target for the time of working with this target, while maintaining the size of the aiming mark equal to the size of the mark from goals with change and range to the target, while adjusting the weapon's aiming angle as a function of range. 3. The system of aiming and firing at a target, which contains a weapon unit, a laser range finder, a television and transmission camera, and a laser range finder and a television transmission camera are installed compatible with the weapon unit, a stabilizer of the weapon unit, a remote control of the gunner operator with the START LV and "INTRODUCTION" buttons /RANGE RESET, a weapon control panel with a ballistic calculator, a mixer, a mark and mark generator and a TV indicator, while the laser range finder is connected to the ballistic computer via a control bus, a TV camera is connected to a TV Gezo indicator via a mixer, a remote control operator-gunner is connected by the first and second outputs to the first and second inputs of the stabilizer of the armament unit, respectively, and the outputs of the stabilizer of the armament unit are mechanically connected through - the vertical guidance axis to the armament unit and through the horizontal guidance axis - to the turret of the combat vehicle, the first output of the ballistic calculator is connected to the input of p a device for forming signs and a mark, the output of which is connected to the second input of the mixer, which differs in that it has a switch, an OR circuit, a switch for M positions, a device for forming a mark, and the buttons START LV and " o INPUT/RESET additional MORE-LESS functions are provided, respectively, with the third and fourth outputs of the switch connected to the third and fourth inputs of the ballistic computer, respectively, the first and second inputs of the switch are connected to the third and fourth outputs of the operator-gunner console, controlling the input of the switch is connected to the output of the OR circuit, and the first and second outputs of the switch are connected to the first and second inputs of the ballistic computer, the first output of the M-position switch is connected to the fifth input of the ballistic computer, and the other outputs of the switch , starting from the second to the Mth, are connected to the corresponding M-5 inputs of the ballistic calculator, and the M-1 outputs of the switch, except for the LW position, are additionally connected to the inputs;" circuit OR, the output of the mark forming device is connected to the second input of the mark and mark forming device, and the input of the mark forming device is connected to the second output of the ballistic calculator. (22) (95) (22) - 50 42) P 60 b5