RU2465532C1 - Device to launch missile from mobile carrier - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: device comprises a sight with transmitters of angles and angular speed of a sighting line in two mutually orthogonal planes, a unit connected to sensors for generation of a signal of missile launch permit by the angular position of the sight sighting line, connected with an indicator of angular position of the sight sighting line, a launching plant with a sensor of missile availability, a device for missile homing connected to the sensor of missile availability of the launch plant, a unit for generation of an integral signal for missile launch permit, inputs of which are connected to the unit for generation of a signal for missile launch permit by angular position of the sight sighting line, the sensor of missile availability of the launch plant and device of missile homing accordingly, a serially joined switch of a "Launch" signal and a unit for generation of missile launch signal, the second inlet of which is connected to the outlet of the unit for generation of an integral signal for missile launch permit, an indicator of missile launch permit, connected to an outlet of the unit for generation of an integral signal for missile launch permit, and a sensor of mobile carrier heel connected to the missile homing device.

EFFECT: improved accuracy of firing.

1 dwg

Description

The invention relates to the field of placing weapons on a mobile carrier and can be used to launch missiles from a land, sea or air mobile carrier, such as a helicopter.

A device for launching a rocket from a helicopter (RU 2087831 C1, 08.20.1997, IPC F41G 3/22, B64D 7/08), comprising a sight arrow operator with sensors of angles and angular velocity of the line of sight in two mutually orthogonal planes, connected to the sensors rocket launch enable signal generating unit, “Start” signal switch, missile launch circuit switch connected to the “Start” signal switch and the output of the missile launch enable signal generating unit, arrow operator-enable signaling switch connected to the output of the missile launch enable signal, and an indicator of the angular deviation of the line of sight of the gunner’s sight for the pilot, connected to the second and third outputs of the missile launch enable signal generation block.

This device allows you to launch missiles from a fixed launcher, rigidly oriented relative to the longitudinal axis of the mobile carrier, in the absence of direct visibility of the target by the driver of the mobile carrier, for example, an aircraft pilot.

The launch enable signal is generated in it provided:

where α _mountains , β _vert are the angular deviations of the line of sight (LP) of the sight of the operator arrow in two mutually orthogonal planes (in the horizontal and vertical planes, respectively) relative to the “zero” direction of the drug, in which the signals from the sensors of its angular position are zero (in in particular, with respect to the longitudinal axis of the movable carrier, if the “zero” direction of the drug coincides with the direction of its longitudinal axis);

ω _mountains , ω _vert - the angular velocity of the drug in two mutually orthogonal planes (horizontal and vertical planes, respectively);

Δt _well - time of an uncontrolled flight of a rocket - time of a flight of a rocket from the moment of its start to the moment of the start of its formation by the on-board control system of the steering command control commands according to the mismatch signals between the rocket and the aircraft. Mismatch signals are generated by the onboard missile control system based on the signals received from its guidance device (optical direction finder with a device for transmitting guidance signals to the missile, laser or radar guidance systems);

φ, Ψ are the maximum allowable angular values within which the specified minimum range of combat use of a complex of guided missile weapons placed on a mobile carrier is ensured.

The missile launch enable signal generating unit that is part of this device, connected to the rocket launch circuit switch and the arrow indicator for the operator-launch missile, it would be more correct to call the missile launch enable signal generating unit for the angular position of the LV of the arrow of the operator-shooter. It really generates a signal for launching a missile launch, but only by one sign - by the sign of the presence of the LV sight of the operator arrow in the angular zone allowed for launching the rocket, given by formulas (1). It is understood that a missile is located on the launcher (launcher) and the missile guidance device is ready (operational).

However, the first of these conditions — the presence of a rocket on a selected launcher — is not always automatically performed.

The fact is that on a mobile carrier, as a rule, several launchers are placed (as an option, one launcher with several guides for installing missiles). Moreover, in various versions of the combat load of a mobile carrier, which can be equipped with other types of weapons other than guided missiles, missiles can be installed not on all of them, but only on some. In addition, in combat conditions, part of the initially installed missiles or even all missiles can be used up earlier - until the decision by the shooter-operator to use the missile to hit a specific target is taken.

The second condition may also not be fulfilled, since a missile guidance device (for example, an optical direction finder with a device for transmitting guidance to a missile, a laser or radar guidance system) may fail by the time the shooter makes a decision to use the missile, in particular as a result of combat damage to equipment, media or the consequences of this damage.

Therefore, it is more rational to provide aggregate or integral information about the launch launch resolution to the operator-shooter indicator, taking into account the fulfillment of these three conditions (finding the arrow of the operator-gunner’s sight in the angular zone allowed for launching the missile, the presence of the missile on the selected launcher and the serviceability of the missile guidance device). It makes no sense. provide information on the launch arrow indicator to the operator arrow if there is no missile on the selected launcher. This, in this case, false, information will only mislead the operator-shooter who will try to launch the missile to no avail, initiating the Start signal switch, which, obviously, will reduce the rate of fire, and therefore the effectiveness of the guided missile system, mounted on removable media. Launching a rocket with a faulty missile guidance device will lead to missile loss and missed combat mission.

The use of other indicators to provide the operator-shooter with information about the presence of a missile at the launcher and the readiness (operability) of the missile guidance device complicates the work of the operator-shooter, who, in preparation for launching a rocket in a combat situation, must take into account information from three indicators, distracting from monitoring the battlefield and tracking an already chosen target, and will also reduce the rate of fire of a complex of guided missile weapons mounted on a mobile carrier. To enter, for example, information from three indicators that would not obscure part of the terrain image, would not impair the quality of terrain visibility and, at the same time, be different and perceived by the operator’s peripheral vision without difficulties, to enter the sight of an optical sight, for example, is practically impossible.

The disadvantages of this device can be attributed to the fact that it does not take into account the possibility of changing the roll angle of the movable carrier after the launch of the rocket.

The aim of the claimed invention is to increase the efficiency of a complex of guided missile weapons mounted on a mobile carrier, by increasing the accuracy of shooting, especially at closely located targets, with changes in the roll of the mobile carrier after the launch of the rocket.

To achieve a technical result in a device for launching missiles from a mobile carrier, including a sight with sensors of angles and angular velocity of the line of sight in two mutually orthogonal planes, a unit for generating a signal for launching the launch of the rocket by the angular position of the line of sight of the sight connected to the sensors, connected to the angle indicator sight sight lines, a launcher with a missile presence sensor, a missile guidance device, an integrated launch enable signal generating unit p chum, the inputs of which are connected to the block for generating a signal for launching a rocket by the angular position of the sight line of sight, the sensor for launching a rocket launcher and the guiding device for the rocket, respectively, connected in series to the Start signal switch and the rocket launch signal generating block, the second input of which is connected to the output a unit for generating an integrated signal for launching a launch permit, and an indicator for enabling a rocket for launching, connected to the output of a unit for generating an integrated permission signal missile launch, a roll sensor connected to the missile guidance device is introduced, and the missile guidance device is connected to the missile launcher presence sensor.

Figure 1 shows a functional diagram of the inventive device, where the sight 1 is presented, with sensors of angles 2, 5 and angular velocity 3, 4 of the line of sight in two mutually orthogonal planes, a block for generating a signal for launching permission to launch according to the angular position of the line of sight of the sight 6, indicator the angular position of the line of sight of the sight 7, the unit for generating the integral signal for launch launch permission 8, the launch permission indicator for rocket 9, the Start signal switch 10, the rocket launch signal generation block 11, launcher ka 12 with a missile sensor 13, a missile guidance device 14 and a roll sensor of a movable carrier 15.

The device operates as follows. The signals from the sensors of angular position 2, 5 and angular velocity 3, 4 LV in each of the two mutually orthogonal planes enter the block for generating a signal for launching a rocket by the angular position of the sight line of sight 6. From the output of the block for generating a signal for launching a rocket for launching a permission for a rocket in the line angular position sighting sight 6 signals of angular deviations of the drug in two mutually orthogonal planes, adjusted for the lead, in the case of the presence of angular velocities of the drug in these planes, are input to the indicator of the angular position I sight line of sight 7, providing the driver of the mobile carrier with the necessary visual information to combine the direction of movement of the mobile carrier with the direction of the drug (i.e. with the direction of the target selected by the arrow operator) with the required accuracy. When the LV of sight 1 is in the angular zone allowed for rocket launch, at the output of the rocket launch permission signal generation block by the angular position of the sight line of sight 6, a rocket launch permission signal will be generated based on this feature, which will then be transmitted to the input of the rocket launch permission integral signal generation block 8 . The signal from the sensor of the presence of the rocket 13 of the launcher 12 and the signal of readiness for work (serviceability) are received at the other two inputs of the block for the formation of the integral signal for launching the launch of rocket 8. missile guidance devices 14, respectively. Given the readiness for operation (serviceability) of the missile guidance device 14, the presence of the missile on the launcher selected by the operator-operator 12, and the LV sight in the angular zone allowed for the launch of the missile, an integral missile launch enable signal is generated at the output of the integrated missile launch permit 8 signal. coming further to the input of the rocket launch signal generation block 11, making it possible for this block to generate ignition pulses to launch the rocket by pressing the arrow operator VK of the start signal trigger 10, and to the rocket launch permission indicator 9. When the rocket launch permission indicator 9 shows the launch permission symbol, the operator-operator launches the rocket by pressing the start signal switch 10. The signal from the roll sensor of the mobile carrier 15 is proportional the roll angle of the movable carrier, in digital or analog form, enters the missile guidance device 14. When the rocket starts, the current value of the roll angle of the movable carrier is remembered by the signal from the missile sensor 13 of the launcher 12. After the rocket launch, the stored value of the roll angle of the mobile carrier is subtracted from the changing current value of its roll angle from the roll sensor 15. The difference signal obtained in this way between the current and stored roll angle taken with the opposite sign is used as a control signal for turning on the roll of the field of view of the guidance device of the rocket 14 in order to maintain its orientation along the roll, available at the time of launch of the rocket.

As a sight 1, or, in accordance with the terminology currently used, an overview and aiming system (since it is not just an optical sighting device, but a complex system, including, for example, a stabilizer, a range finder, a survey system, which has in its up to three viewing channels (television, thermal imaging, optical), partially (optical direction finder) or fully (laser guidance system) missile guidance device) can be used, for example, an optical sight with gyrostabil zoned head mirror.

As sensors for the angular position of the LV 2, 5, for example, transformer sensors of the SKT225D type can be used.

As sensors for the angular velocity of the LV 3, 4, for example, the potentiometers of the handles of the remote control of the sight can be used, which specify the speed of movement of the gyrostabilized head mirror of the sight, i.e. optical axis or line of sight.

The block for generating a launch permit signal for the launch according to the angular position of the sight line of sight 6 can be made, for example, in accordance with the functional block diagram of the rocket for launch launch permission signal, described in the description of device RU 2087831 C1, with the addition of an analog-to-digital converter and controller for transmitting information about the angular deviations of the LV of the sight 1 in two mutually orthogonal planes to the input of the indicator of the angular position of the line of sight sight 7 in the digital sequence code.

As an indicator of the angular position of the line of sight of the sight 7 can be used, for example, a television indicator of the driver of the mobile carrier, which is displayed, for example, in the form of a rectangle, the angular zone of the allowed launch of missiles. The position of the drug is marked with a certain symbol, for example, a crosshair moving around the screen of the television indicator depending on the change in the angular position of the drug.

The unit for generating the integral signal for launch launch permit 8 may include, for example, a controller and an AND circuit. The signal of readiness of the guidance device of the rocket 14 for operation (serviceability) in a digital serial code is supplied from the information output of the guidance device of the rocket 14 to the controller and then in the form of a logic level signal to one of the inputs of the "AND" circuit. The two other inputs of the “I” circuit respectively receive signals from the block for generating the launch launch permission signal according to the angular position of the sight line of sight 6 and from the presence sensor of the rocket 13 of the launcher 12. At the same time, the integrated launch enable permission signal will be generated at the output of block 8 only when the fulfillment of all three conditions - when the LV sight is within the angular zone allowed for launching the missile, the presence of the missile on the launcher 12 and the readiness for operation (serviceability) of the missile guidance device 14.

As an indicator of permission to launch missiles arrow operator 9 can be used, for example, an LED inserted into the eyepiece of the sight. The radiation of the LED is fixed by the peripheral vision of the operator arrow.

The start signal switch 10 can be implemented, for example, in the form of a start button.

The rocket launch signal generation block 11 can be made, for example, in the form of a series-connected switch and a pulse shaper (pulses) of normalized duration to initiate the rocket ignition circuits. At the same time, the signal input of the switch is connected to the start signal switch 10, and its control input is connected to the output of the unit for generating the integral signal for launch launch permit 8.

As a launcher 12 with a missile sensor 13 can be used, for example, a standard aviation launcher APU-4/4 with four guides for installing missiles. When a rocket is mounted on a rail, one of the contacts of the rail launch connector is shorted to the APU-4/4 housing, connected to the housing of the mobile carrier, to which, in turn, the bodies of all blocks of electronic equipment installed on the mobile carrier are connected. When an arrow operator selects one or another guiding signal, the “Housing” signal coming from this contact to the unit for generating the integrated launch permit signal will be informational, indicating the presence of a rocket on this guide. When the rocket starts with the guide, the contact opens, interrupting the receipt of the “Housing” signal to the block for generating the integral signal for launch launch permission 8, which indicates the absence of the rocket on this guide.

As the guidance device of the rocket 14 can be used, for example, an optical direction finder beacon infrared spectral range mounted on the rocket, with a radio link. The direction finder determines the angular deviations of the beacon of the rocket relative to its own optical axis, verified with the direction of the drug, converted further in accordance with the selected control law into guidance signals of the rocket. The radio link transmits the generated guidance signals aboard the rocket. In it, guidance signals are subjected to time-pulse modulation and, in the form of powerful microwave pulses of superhigh frequency, are emitted by the radio antenna in the direction of the LV.

After the launch of the rocket, the difference signal between the current roll angle received from the roll sensor of the mobile carrier 15 and the roll angle value stored at the time of the launch of the rocket is fed, for example, to an electric motor that rotates the four-quadrant direction finder photodetector around an axis passing through its center and perpendicular to the plane of the photodetector . The rotation of the photodetector is carried out until the difference between the current and stored values of the roll angle of the movable carrier is compensated. In this case, the direction finder photodetector maintains the same roll orientation as it had when the rocket was launched, and registers the angular mismatch of the rocket relative to the LV in the rocket reference coordinate system.

As the roll sensor of the movable carrier 15, for example, a gyroscopic device based on a three-stage gyroscope can be used.

Claims (1)

A device for launching a rocket from a mobile carrier, including a sight with sensors of angles and angular velocity of the line of sight in two mutually orthogonal planes, connected to the sensors, a block for generating a signal for launching the rocket by the angular position of the line of sight of the sight, connected to an indicator of the angular position of the line of sight of the sight, a launcher installation with a missile presence sensor, missile guidance device, a unit for generating an integrated rocket launch enable signal, the inputs of which are connected to the unit the formation of the launch permit signal on the angular position of the sight line of sight, the missile launcher presence detector and the missile guidance device, respectively, the Start signal switch and the rocket launch signal generating unit, the second input of which is connected to the output of the integral launch permit enable signal generating unit , and a launch rocket enable indicator, connected to the output of the unit for generating an integrated rocket launch enable signal, characterized in that in A roll sensor of a movable carrier connected to a missile guidance device was introduced, and a missile guidance device is connected to a missile launcher presence sensor.