RU2669947C2 - Method and system for control of launch and explosion of missiles - Google Patents

Abstract

FIELD: blasting operations.SUBSTANCE: method and system are designed to control the launch and explosion of missiles. In the present invention, the power supply, communication and control of the igniters of the engine and the missile explosion are provided through the wire lines of the gun and projectile unit with a contact device between them. Before launching the missile, through communication lines with a direct current voltage of a given level, the energy storage device and the power supply of the missile devices are charged. Using the magnitude of the direct current flowing via the communication lines, the serviceability of the engine igniter and the igniter of the explosion is established. Before launching the missile, via communication lines using AC signals, information is received on the type of missile and the value of the delay time of the missile explosion after its start is entered into the program device. When the missile is launched through a non-linear device with a voltage exceeding a predetermined level, the igniter of the rocket engine is triggered. Also, the power supply of the missile devices after its launch is carried out from the energy storage device. And the firing of the missile explosion igniter takes place after the explosion lag time that is preset in the program device has elapsed.EFFECT: invention makes it possible to improve the efficiency of launch and explosion control.2 cl, 1 dwg

Description

FIELD OF TECHNOLOGY

The invention relates to military equipment, in particular to launching devices and fuses of rockets of reactive systems with fuses triggered after a predetermined time from the moment of the shot.

The invention can also be used to provide power for contact fuses located in the head of the projectile, infrared and radar devices, homing devices, and to enter information about other types of flight tasks.

BACKGROUND

Known methods and devices:

- supplying a control current through a wired communication line with contacts in the rear of the projectile to the igniter of the powder engine of the projectile,

- for charging through a wired communication line with the contacts in the head of the projectile of the capacitor energy storage device of the explosive device and inputting information about the delay of the explosion into it,

- non-contact input of information into the explosive device using induction coils located in the head of the shell and in the gun block, if there is a battery in the head of the shell.

In domestic aviation systems with S-5 and S-8 rockets, the control current to the engine igniters comes from the gun unit through a wire link with the contacts in the rear of the shells. When using shells capable of carrying out an explosion after a predetermined time interval after launch, the explosion delay time is set in the factory. In this case, only one value of the time of its explosion after launch can be entered into the shell. This property of the projectile significantly limits the effectiveness of its use and imposes stringent requirements on the qualifications of aircraft pilots.

In order to improve the accuracy of the system, the current values of the time delays of the explosions, calculated by the equipment of the aircraft, are introduced into the explosive devices of the rocket. The introduction of control commands into the fuses immediately before the launch of the projectile, taking into account the characteristics of the ammunition and the target, as well as the conditions of use, dramatically increases the effectiveness of weapons.

Since explosive devices are located in the head or central part of the shells, equipment for entering information about the delay time of the explosion should be provided in these places.

The Hydra-70 aviation reactive system, which has been in service with a number of countries since the late forties, controls the launch and explosion of shells through contact lines of communication between the gun unit and the tail and head parts of the shell.

In this system, the projectile warheads extend beyond the barrels of the gun block and have plug connectors on them. This implementation of the system has several disadvantages associated with the procedure for their installation and the need to fix the orientation of the projectile around the longitudinal axis relative to the gun barrel.

In recent years, there has been a tendency to create control systems for existing unguided missiles.

In the remote fuse according to US patent No. 4022102, the information entered into the projectile about the delay time of the explosion is carried out by the electromagnetic field of two coils mounted coaxially with the gun barrel. One of the coils is located in the projectile, and the other in the gun barrel. The ability to change the flight mission in a system with an inductive communication line immediately before the launch of the projectile increases the efficiency of its use.

The remote fuse of rockets of reactive systems according to the patent of the Russian Federation No. 2240493, located in the head of the projectile, contains a power source, an electronic temporary device and a receiving device with an induction coil. The inductive communication line contains a second coil installed in the head of the gun barrel.

The fuse for rockets of reactive systems according to the patent of the Russian Federation No. 2456537 contains a receiving circuit based on an inductive communication line located in the head of the projectile.

The disadvantages of the known methods and devices for controlling the launch and explosions of rockets with an inductive communication line include:

- reducing the safety and reliability of shells containing constantly charged batteries,

- the need for storing shells periodically disassemble them to replace the batteries after the expiration of their service life,

- an increase in size, mass, energy consumption and complication of equipment installed in shells and gun blocks, for the implementation of inductive coupling of shells with a gun block,

- the presence in the warheads of shells of inductive coils and electronic devices unprotected from electromagnetic radiation, which leads to instability of the systems with respect to the impact on them of existing and promising types of electromagnetic weapons and ammunition that emit an intense pulse of electromagnetic energy during an explosion.

Thus, in the technical field there is a need to provide more efficient methods and devices for launching and detonating a missile.

SUMMARY OF THE INVENTION

The problem to which the invention is directed is the creation of a method and system for controlling the launch and explosion of a rocket, free of these shortcomings.

In one aspect, the invention relates to a system for controlling the launch and explosion of a missile. The proposed system contains a control board, a power supply, key devices, a software device, igniters, communication lines, a contact device, and in addition, it contains a non-linear device, a unit communication unit, a projectile communication unit, an engine control circuit, an explosion control circuit, a charge circuit, and an energy storage device, and the power supply unit is configured to convert the external network voltage to the voltage required by the system devices, the input of the unit is connected to the onboard power supply line of the weapon carrier, the output of the unit is connected to a plateau th management and key device; the control board is configured to receive and transmit information about the presence and magnitude of the consumed current, as well as the type of projectile used, to receive and transmit information about the delay time of the explosion and when the projectile was launched, the input of the control board is connected to the information exchange line of the avionics, the output of the control board connected to the key device of the block and the communication unit of the block; the communication unit of the unit is configured to superimpose control and control signals of alternating current on the direct current flowing through it, to limit and measure direct current, to reduce the output voltage of direct current sufficient to power the projectile devices and insufficient to operate a non-linear device, the output is connected to the line block communication; the key device of the block is configured to increase the DC voltage in the communication line to a level sufficient to fire the igniter of the projectile engine, the output of the key device is connected to the communication line of the block; the communication line of the unit is capable of bi-directional transmission of direct current and AC signals, the output of the communication line is connected to a contact device; the contact device is configured to connect the communication line of the unit and the communication line of the projectile when installing the projectile in the gun unit and breaking contact between them when the projectile is launched; the projectile communication line is capable of bi-directional transmission of direct current and alternating current signals, the output of the communication line is connected to the projectile's communication unit, a non-linear device and an engine control circuit; non-linear device, configured to reduce its resistance to an level sufficient to trigger the engine ignitor when the voltage applied to it increases, the output of the non-linear device is connected to the engine ignitor; the engine control circuit, configured to reduce to a safe level the control current flowing through the engine igniter, the output of the engine control circuit is connected to the engine igniter; the engine igniter is configured to convert the energy of the electric current pulse into thermal energy sufficient to ignite the powder charge of the engine; the projectile communication node is configured to separate the current passing through it into a constant component and an alternating component, the projectile communication node is connected to a software device and a charge circuit; a charge circuit configured to provide a charge with direct current flowing into the energy storage device; the output of the charge circuit is connected to the energy storage device; the energy storage device is configured to store DC energy prior to launching the projectile and spending energy after the projectile is launched, the output of the energy storage device is associated with a software device, a key projectile device and an explosion control circuit; explosion control circuit, configured to reduce to a safe level the control current flowing through the explosion igniter, the output of the explosion control circuit is connected to the explosion ignitor; the software device is configured to issue information about the type of projectile, receive information about the delay time of the explosion and issue an electrical pulse to fire the igniter after a predetermined time interval after the launch of the projectile, the output of the software device is connected to the key device of the projectile; the key device of the projectile is configured to, according to the signal received from the software device, fire the igniter of the explosion, the output of the key device is connected to the igniter of the explosion; the explosion igniter is configured to convert the energy of an electric current pulse into thermal energy sufficient to ignite the powder charge of the explosion.

According to another aspect of the invention, it also relates to a method for controlling the launch and explosion of a missile, according to which, before launching the projectile through the wireline link of the gun and projectile unit, with the contact device, which is torn when the projectile is launched, with alternating current signals, the flight task is entered and information is obtained on the type of projectile, and the energy storage device is charged and the projectile devices are supplied with DC voltage of a given level and the serviceability is determined s ignitors and ignition triggering projectile launch motor through the nonlinear element a voltage exceeding a predetermined level, the power of software and actuators flight mission projectile in flight is provided from power storage unit.

The technical result of the invention is to increase the efficiency of the use of rockets and simplify the equipment of shells and gun blocks in which they are installed.

The specified technical result is ensured due to the fact that the introduction of the flight task into the equipment of the projectile before its launch and its preparation for launch are carried out via an electrically conductive communication line with contacts in the tail of the projectile.

At the same time, measures are provided to exclude the launch of the projectile before the end of the introduction of the flight mission and to obtain information about the type of projectile and its serviceability.

Simplification of the devices of the projectile and gun block is achieved by eliminating the induction coils of the projectile and gun block, as well as their equipment.

Improving the reliability of the system is achieved by eliminating the battery in the projectile and simplifying the system. Improving the stability of the system with respect to possible external radio interference is achieved due to the possibility of shielding all its components, including devices and communication lines.

There is a possibility of applying the invention to the modernization of existing systems with electric igniters of powder charges of engines, since they use electrically conductive communication lines with contacts in the rear parts of the shells.

It should be noted that, since the present invention has a single concept, all explanations in the operation of the system can also be attributed to the functioning of the proposed method.

DETAILED DESCRIPTION OF THE INVENTION

The invention is illustrated by a functional diagram of the method and system.

The functional diagram of the system coincides with the functional diagram of the method and system.

Functional diagram contains:

A power supply unit containing voltage converters of the primary network to the necessary voltages for the remaining elements of the circuit. The power supply unit is connected to the onboard power supply line of the weapon carrier - the aircraft.

A control board containing a transceiver for determining the type of shells used and inputting information about the delay time of an explosion, monitoring energy consumption, and issuing a command to launch shells. The control board is connected with the on-board electronic equipment of the aircraft by digital communication channels.

The key device of the block is made, for example, in the form of an electronic relay, which, when activated, provides an increase in the DC voltage in the communication line of the block to a higher level, relative to the set value.

A communication unit of a unit comprising an adder, for example, a transformer, for summing control signals of alternating current with a direct current voltage, a projectile supply device, and also a resistor for limiting and measuring current, which reduces the direct current voltage in the communication line to a predetermined level.

The communication line of the unit and the communication line of the projectile, made in the form of two-wire lines capable of transmitting direct current and AC signals.

A contact device connecting the communication line of the unit and the communication line of the projectile when installing the projectile in the gun unit and disconnecting them when the projectile is launched.

A nonlinear device with high resistance at a given voltage level and low resistance when this voltage level is exceeded.

Examples of such devices are protective diodes, zener diodes and varistors.

The control circuit of the engine, which ensures that the control current flowing through the igniter of the engine to a safe level, is made in the form of a resistor.

An engine igniter and an explosion igniter that convert the energy of an electric current pulse into thermal energy sufficient to ignite the powder charges associated with them.

A projectile communication unit comprising a device, such as a transformer, for dividing currents flowing through a communication line into alternating and constant components.

The charge circuit, providing unidirectional flow of direct current to the energy storage and made in the form of a diode.

Explosion control circuit, which ensures that the control current flowing through the igniter of the explosion to a safe level and is a resistor of the corresponding rating, connected in series with a diode that protects the circuit from possible short circuits when starting the engine.

A software device containing a communication device, a storage device containing information about the type of the projectile, and a timer with a highly stable generator that ensures the operation of the key device of the projectile after a predetermined time from the moment of its launch.

An energy storage device providing power to the projectile devices after it is launched and made, for example, in the form of a capacitor.

The key device of the projectile, made, for example, in the form of an electronic relay, through which, when it is triggered, a current pulse is supplied to the igniter of the explosion.

The proposed system works as follows.

When the system power is turned on, direct current flows from the power supply unit through the unit's communication unit, communication lines, contact device, engine control circuit, engine igniter, projectile communication unit, explosion control circuit, explosion igniter and energy storage charge circuit. The energy storage device is powered by the software device. The magnitude of the currents flowing through the control circuit is safe for igniters.

Due to the voltage drop across the resistor of the communication unit of the unit at the input of the projectile communication line, a voltage of a given level is established, which is part of the voltage of the power supply. The voltage of the specified level is not enough to trigger a nonlinear element connected in series with the igniter of the explosion. The magnitude of the voltage across the resistor of the communication unit of the block in the control board determines the serviceability of the project igniters. Information about the type of this projectile is transmitted from the software device to the control board by AC signals. From the AC signal control board, current information is transmitted to the software device about the delay time of the explosion after the projectile is launched. This information is stored in the memory of the software device and is resumed with the necessary frequency. Upon receipt of a command from the on-board electronic equipment to launch the projectile through the control board, the key device of the unit is activated, which shunts the resistor of the unit communication unit. As a result, the DC voltage in the communication lines increases to a level sufficient for the non-linear element to operate, which leads to ignition of the powder charge of the projectile engine by the engine igniter. Since the launch of the projectile in the software device, a countdown occurs, the value of which is installed in the memory cell at the last moment in time before the launch of the projectile. After the completion of the countdown, the key device of the projectile is triggered and it explodes.

The functional diagram of the proposed method is similar to the functional diagram of the proposed system.

Changing the DC voltage level in the communication lines of the gun unit with the projectile is carried out according to the claimed method by shunting a resistor installed in the communication unit of the unit. This solution provides power to the voltage of the specified level of the projectile devices before it is launched, and when the voltage of the specified level is exceeded, it triggers through the non-linear element of the ignitor of the projectile engine.

The exchange of information between the equipment of the gun unit and the projectile is carried out by alternating current signals. The amplitude of these signals is selected so that they do not significantly affect the operation of the nonlinear element. Thus, in the claimed method uses one electrically conductive line of communication between the gun unit and the projectile, both to prepare the projectile devices for launch and for launching it.

The power supply of the projectile devices after its launch comes from the energy store. The capacity of the energy storage device is selected sufficient to ensure the functioning of the software device during the flight and to operate through the key device of the igniter of the projectile explosion.

The applicant encloses the claims of the invention, which reflects the essential features of the invention. One skilled in the art will understand that the invention is not limited to the present description and can be carried out in various ways, within the scope of the claims. In this case, a more complex work program can be introduced into the projectile after its launch, and various types of projectile control devices can be provided with power during the flight of the projectile.

Claims (2)

1. A system for controlling the launch and explosion of a missile, comprising: a control board; Power Supply; key devices; software device; igniters; communication lines; contact device; and characterized in that, in addition, it comprises a non-linear device, a unit communication unit, a projectile communication unit, an engine control circuit, an explosion control circuit, a charge circuit and an energy storage device; moreover, the power supply unit is configured to convert the voltage of the external network to the voltage required by the system devices, the input of the unit is connected to the onboard power supply line of the weapon carrier, the output of the unit is connected to the control board and the key device; the control board is capable of receiving and transmitting information about the presence and magnitude of the consumed current and the type of projectile used, receiving and transmitting information about the delay time of the explosion and the moment of launch of the projectile, the input of the control board is connected to the information exchange line of the on-board electronic equipment, the output of the control board is connected with the key device of the block and the communication unit of the block; the communication unit of the unit is capable of superimposing control and control signals of alternating current on the direct current flowing through it, limiting and measuring the direct current, reducing the output voltage of the direct current sufficient to power the projectile devices and insufficient to operate the non-linear device, the output is connected to the communication line of the unit ; the key device of the block is configured to increase the DC voltage in the communication line to a level sufficient to fire the igniter of the projectile engine, the output of the key device is connected to the communication line of the block; the communication line of the unit is capable of bi-directional transmission of direct current and AC signals, the output of the communication line is connected to a contact device; the contact device is configured to connect the communication line of the unit and the communication line of the projectile when installing the projectile in the gun unit and breaking contact between them when the projectile is launched; the projectile communication line is capable of bi-directional transmission of direct current and alternating current signals, the output of the communication line is connected to the projectile's communication unit, a non-linear device and an engine control circuit; the nonlinear device is configured to reduce its resistance to an level sufficient to fire the engine ignitor when the voltage applied to it increases; the output of the nonlinear device is connected to the engine ignitor; the engine control circuit is configured to reduce to a safe level the control current flowing through the engine igniter, the output of the engine control circuit is connected to the engine igniter; the engine igniter is configured to convert the energy of the electric current pulse into thermal energy sufficient to ignite the powder charge of the engine; the projectile communication node is configured to separate the current passing through it into a constant component and an alternating component, the projectile communication node is connected to a software device and a charge circuit; the charge circuit is configured to provide a constant current charge flowing into the energy storage device; the output of the charge circuit is connected to the energy storage device; the energy storage device is configured to store DC energy prior to launching the projectile and spending energy after it is launched, the output of the energy storage device is associated with a software device, a key projectile device and an explosion control circuit; the explosion control circuit is configured to reduce to a safe level the control current flowing through the explosion igniter, the output of the control circuit is connected to the explosion ignitor; the software device is configured to issue information about the type of projectile, receive information about the delay time of the explosion and issue an electrical pulse to fire the igniter after a predetermined time interval after the launch of the projectile, the output of the software device is connected to the key device of the projectile; the key device of the projectile is configured to, according to the signal received from the software device, fire the igniter of the explosion, the output of the key device is connected to the igniter of the explosion; the explosion igniter is configured to convert the energy of an electric current pulse into thermal energy sufficient to ignite the powder charge of the explosion. 2. A method of controlling the launch and explosion of a rocket projectile, which consists in the fact that before launching the projectile through a wireline link between the gun and projectile unit and the contact device, which is torn when the projectile is launched, by AC signals, the flight task is entered and information about the type of projectile is obtained , as well as the charge of the energy storage device and the power supply of the projectile devices with a DC voltage of a given level and the serviceability of the igniters is determined, and the operation of the igniter for starting the engine with aryada through the nonlinear element a voltage exceeding a predetermined level, the power of software and actuators flight mission projectile in flight is provided from power storage unit.

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