DE19704306A1 - Defense projectile for the production of infrared and electromagnetic decoys - Google Patents

Abstract

The invention relates to a defense profile for the protection of platforms against attacking objects whose target drive device operates in the infrared range and in the range of electromagnetic radiation. The invention solves the problem of releasing an infrared dummy charge (3) and a dummy electromagnetic charge (2) in close proximity to each other and in an arrangement adapted to the nature of the attacking object to make the apparent effect plausible, while maintaining a device achieved with the lowest possible weight. The projectile according to the invention has, in particular, an electromagnetic dummy charge (2), an infrared dummy charge (3) and an electronic device (4) which permits the following sequence of functions: at a time T1 after the start of the projectile closing of the electronic contacts; thereafter at a time T2 initiation of the severing device (6) of the projectile tip (5); at a time T3 initiation of the release device (12) of the dummy electromagnetic charge (3) and at a time T4 initiation of the release device (13) of the infrared dummy charge (3), wherein the times T3 and T4 may also be reversed.

Description

The The present invention relates to the field of countermeasures to protect platforms attacked by enemy objects be guided, for example by guided with a Zielansteuergerät Missile or ammunition guided by fire control. Under a platform are thereby to be protected facilities and in particular military installations in the most general Understood meaning, in particular launcher including Launcher, command posts and the like, as well as the associated carrier or the corresponding Environment, including ships and other carrier vehicles.

Of the Protection of platforms is in many cases by a Combination of measures realized to the device, which directs the attacking object to prevent the object to steer into the platform, and instead to a remote one To direct the area.

The The present invention particularly relates to a device for Carrying out countermeasures to guarantee the protection of naval platforms, such as ships, against the attack of objects by a target driver be directed, in the infrared range as in the field of radar waves (electromagnetic waves in the millimeter to meter range) works. In this type of Zielansteuergeräten be of his Infrared detectors and their detectors for electromagnetic Radiation (radar detectors) supplied information correlated, to determine if they relate to the same platform.

The by the corresponding apparent target functions of the device for Countermeasures generated infrared signature and electromagnetic Signature will be attacked by the target driver of the Object only considered if these signatures are more plausible Way, especially because of their intensity, their spectrum and their spatial position, one and the same platform correspond.

In FR-2 383 419 For example, in order to implement such a countermeasure, the use of two different projectiles is described, of which one projectile carries an infrared dummy charge which generates the infrared signature, while the other projectile carries an electromagnetic dummy charge which generates the electromagnetic signature. The synchronization of these two projectiles to locate the two signatures in a suitable manner in space, and in a given arrangement, encounters great difficulties. In addition, it is evident that this device has a high weight: It comprises two different projectiles and the associated launcher in order to implement the countermeasure.

In an article in the Revue Internationale de Défense (No. 10 (1982) pages 1405-1408) a device is described which has only a single projectile. This projectile, suspended under a parachute to extend the duration of action, releases a combined dummy charge which has emission in the infrared region and ejects around it metal blobs or metal strips, ie so-called chaffs, as electromagnetic baffles. However, this device, which overcomes one of the difficulties of the device discussed above, is still too heavy: the parachute represents a load that does not directly participate in the fake target generation; furthermore, a large portion of the chaff released around the infrared dummy charge is not directly usable for fake target generation; Finally, the relative position of the two signatures with respect to the attacking object is fixed once and for all. In addition, the distribution of the chaff for electromagnetic phony target generation can not be adapted to the specific characteristics or characteristics of the attacking object.

Of the Invention is based on the problem of the problems of weight, Reliability and simplicity of implementation and in particular the problem of non-adaptability of such to solve countermeasures to solve devices and to specify a corresponding defense projectile concept.

The Task we solved according to the requirements.

The dependent claims relate to advantageous embodiments the inventive concept.

The Solution of the above object is within the scope of the invention by using a single projectile whose payload is optimized and which allows the relative position of the infrared signature and to choose the electromagnetic signature.

The present invention relates to a countermeasure projectile which is fired toward the attacking object, such as a launch tube, for positioning in a given space area and arrangement the signatures generated from infrared dummy charge and apparent electromagnetic charge become. The release of these charges occurs in a sufficiently limited range so that the target driver of the attacking object interprets these signatures as having originated from and the same platform. The area of release is at a height and distance selected by the computer of the countermeasure counter of the platform in response to the parameters detected by the countermeasure center for the attacking object concerned. The orientation against the attacking object and the inclination of the launch tube allow the release zone to be achieved in response to the drive parameters of the countermeasure projectile.

The projectile according to the invention contains a charge for fake target generation in the area of electromagnetic waves (referred to here for short as electromagnetic dummy charge) and the associated release device, a charge for fake target generation in the infrared range (referred to here for short as infrared dummy charge) and the associated release device, an electronic unit and a separator for the projectile tip, which protects the charges and release devices listed above. The projectile according to the invention is characterized in that the electronic unit comprises an energy source, a closing device for closing electrical connections between the electronic unit and the electromagnetic dummy target charge, the infrared dummy charge and the separating device and a programmable memory to realize the following sequence of functions: At a time T ₁ after the launch of the projectile, the programmable memory triggers the closing device for the electrical connections; then, at a time T ₂ , the memory initiates the operation of the projector tip severing device; at a time T ₃ , the memory initiates the operation of the apparent occlusion electromagnetic-discharge device, and at a time T ₄ , the memory initiates the operation of the infrared-apparent-charge-releasing device. The times T ₃ and T ₄ preferably follow each other chronologically; However, it is also possible within the scope of the inventive concept to reverse their order by appropriate programming of the memory.

The surveillance radar as well as other monitoring sensors of the platform to be protected detect an attacking object, evaluate the corresponding data and select the appropriate countermeasure. The computer of the control center determines the times T ₁ , T ₂ , T ₃ and T ₄ and transmits them to the programmable memory of the electronic unit before the projectile is fired. The time intervals T ₂ -T ₁ , T ₃ -T ₂ and T ₄ -T ₃ are preferably preprogrammed and adapted to the platform to be protected and / or the most dangerous attacking object, which can cause the greatest damage, and take into account the service life of the various devices. By optimizing these intervals to ensure platform protection at the scene of operations, the countermeasure computer only determines the time T ₁ as a function of the propulsion parameters of the projectile and the range in which the apparent target charge is to be released. The intervals T ₂ -T ₁ , T ₃ -T ₂ and T ₄ -T ₃ are further reprogrammable to adapt the operating sequence of the projectile to any subsequent change in the behavior of the attacking object.

Advantageously, the apparent occlusion electromagnetic discharge device has a delay in operation whose duration determines the relative position of the electromagnetic signature and the infrared signature with respect to the attacking object. If the duration τ of this operation delay is greater than the time interval T ₄ -T ₃ , the infrared dummy charge is released at time T ₄ and the apparent electromagnetic charge is released at time T ₃ + τ to T ₄ , then the projectile already has the range in which the infrared signature is located, wherein the electromagnetic signature, seen from the attacking object, is located in front of the infrared signature.

In contrast, when the duration τ is smaller than the time interval T ₄ -T ₃ , the apparent electromagnetic charge is released at time T ₃ + τ, which is before T ₄ , and the projectile subsequently sets the infrared apparent charge later at time T ₄ free, which lies after T ₃ + τ; the infrared signature is then in front of the electromagnetic signature when looking at the signatures of the attacking object. In all cases, the delay τ is such that the two dummy target loads are released in very close areas so that the infrared signature and the electromagnetic signature from the target driver of the attacking object are interpreted as being signatures from one and the same platform.

This delay can be realized in various ways, for example by electronic means. However, the delay in the operation of the apparent occlusion electromagnetic discharge device is preferably a pyrotechnic delay. The delay has a fixed duration accordingly. Accordingly, two types of projectiles can be distinguished, namely projectiles in which the duration of the delay is greater than the time interval T ₄ -T ₃ at which the electromagnetic signature is released before the infrared signature, and projectiles in which the duration of the delay is smaller is the time interval T ₄ -T ₃ , in which the spatial distribution of the signatures is reversed.

The platform to be protected comes with a these projectile types or also equipped with both types of projectiles. The countermeasure counter computer then selects the type of projectile to deploy depending on the information it has received regarding the nature of the attacking object.

The projectile is preferably further equipped, in a manner known per se, with a launcher safety device, in which a comparison is made with an acceleration profile on launch and the exit from the launcher or solution from the launcher is detected. The sequence of functions triggered at the time T ₁ by the memory of the electronics unit becomes effective in this case only when the launcher safety device has detected the start of the projectile. The term "taking effect" is understood to mean the performance of the functional sequence or the remaining sequence of functions, ie the separation of the projectile tip and the release of the dummy target charges.

To Another preferred embodiment is the projectile furthermore with a safety device for detecting the projectile tip separation equipped. The initiation of the release devices for the Scheinzielladungen are then only effective if this safety device the separation of the projectile tip has detected. This safety device for recording The projectile tip separator can be of the mechanical slide type be the transmission of the signals of the pyrotechnic Break the chain.

at a first embodiment of the invention Projectile is the separator for the projectile tip a pyrotechnic charge, which the projectile tip forward The pyrotechnic charge generates gases, which hurl the projectile tip as a whole forward.

at a second embodiment of the invention Projectile is the separator for the profile top a pyrotechnic charge that shatters the tread tip. The tread tip can facilitate this fragmentation Have weakened areas or predetermined breaking points.

The projectile according to the invention can be driven by an engine with solid propellant. The operating time of such a solid-state engine is advantageously smaller than the time T _1m predetermined for the minimum range of the projectile.

The Projectile can also be driven by mortar effect be, with appropriate devices familiar to the expert are.

The Projectile points regardless of the nature of its drive Devices for stabilizing its trajectory, for example Fins that are extendable, foldable or other suitable Be able to be trained. The projectile tip of the invention Projectile represents the entire panel or part of the panel of the projectile and is advantageously profiled.

The Defense projectiles according to the invention will be advantageous arranged side by side on one or more controllable carriages. The Countermeasure Control Center controls the operation of these carriages: alignment against the attacking object and firing tendency. The Central Countermeasures identified the projectiles (type of delay) and checked her condition; it transmits to the electronics unit of the selected projectile used for the flight of the Projectile required information, initiates the activation the energy source and then gives the launch command for firing this projectile.

Out The above explanation goes to the advantages of the present invention Invention, which are seen in particular in that a single projectile for a fake mission sufficient is. Another advantage is that the projectile is light and does not carry a non-active load such as a parachute; Furthermore is the payload of the infrared dummy charge and the electromagnetic Optimized apparent charge. In addition, the allowed Sequence of release the realization of two types of arrangements the release of the apparent target charges and accordingly the achievement a very large adaptability to the nature of the attacking object.

The Invention will become more apparent in the following with reference to the drawings explains; show it:

1 : an embodiment of a projectile according to the invention;

2 : a block diagram of the electronics unit;

3 : the course of a sequence of fictitious target generation in a projectile according to the invention in a representation not to scale;

4 : the relative positions of the infrared signature and the electromagnetic signature for different ranges of the projectile.

1 is a perspective view, partially in section, of a projectile according to the invention. In this example, the projectile is from an engine 1 powered by solid propellant, which represents the rear part of the projectile. At this engine are, in order from the rear End of the engine toward the top of the projectile, by means of a chassis 11 an electromagnetic dummy charge 2 and its associated release device 12 , then a chassis 18 , which is an infrared dummy charge 3 and its associated release device 13 wears, and then a chassis 19 provided that an electronics unit 4 carries on which a severing device 6 for separating the projectile tip 5 is attached. The projectile tip 5 represents a fairing which extends the cowling of the engine; it has the shape of a projectile tip at the front end. The projectile tip 5 can on the chassis 18 and 19 slide. The chassis 11 carries a finger 7 which detects the exit from the launcher tube; this finger is shown in the position after exiting. The chassis 18 and 19 also carry fingers 8th and 9 that in under the projectile top 5 retained position are shown; these fingers 8th and 9 capture the separation of the projectile tip 5 and act on the safety devices.

The electrical connections between the electronics unit 4 and the separating device 6 and the release devices 12 . 13 done via wires or lines along the electromagnetic apparent charge 2 and the infrared dummy charge 3 are arranged and pass through corresponding bushings in the various chassis. These lines are protected by the projectile tip.

The electromagnetic apparent charge 2 For example, it consists of a stack of bundles of metallized baubles or strips ("chaffs") commonly used to generate the electromagnetic signature; however, other types of reflectors may be used to realize this electromagnetic signature.

The infrared dummy charge 3 consists of pyrotechnic substances, the combustion of which results in radiation in a suitable spectral range. For this purpose, preferably for reasons of service life, to produce this charge, a stack of plates or sheets is used, which are impregnated with a combustible substance, wherein the combustion of these plates or sheets is done with atmospheric oxygen and thereby the infrared signature of a ship located on a platform is produced.

The release devices 12 and 13 for the dummy charge 2 and 3 are located in holes with central tubes. Each of these devices has an electrical detonator that ignites a pyrotechnic charge that generates gases that contain the elements of the apparent electromagnetic charge 2 distribute quickly; in the case of infrared dummy charge, it is ignited by the electric detonator. The release device 12 for the electromagnetic Scheinzielladung also has the time delay of their action on a pyrotechnic retarder.

There Further, the density of the infrared apparent charge increases is guaranteed as that of the electromagnetic apparent charge the arrangement in which the infrared dummy charge is at the front, a greater stability of the projectile.

If the projectile is powered by mortar effect is the solids engine by one for this type of launch replaced suitable foot plate. This footplate is wearing the device for stabilization of the projectile.

In 2 the electronic unit is shown schematically. It has a power source W connected to a closing device C for closing the electrical connections between the power source W and the projectile tip separating device and the dummy target discharger releasing devices, more precisely with the detonators of these devices. The operation of the closing device C for closing the electrical connections is controlled by a programmable memory M. The power source W is of the type of an electric battery or a thermal battery; it is put into operation by a command coming from the Countermeasure Control Center.

The programmable memory M, which is connected via a umbilical connection with the countermeasure center, also receives from this the programming of the time T ₁ , which was determined for the mission in question. The countermeasure control center then issues the start command for the projectile, ie for the ignition of the solid fuel engine or the ignition of the discharge charge of the mortar.

At the time T ₁ , the memory M of the closing device for closing the electrical connections gives the closing command, which is executed only when the launcher safety device has detected the start of the projectile.

If the time intervals T ₂ -T ₁ , T ₃ -T ₂ and T ₄ -T ₃ have already been stored in the assembly of the projectile or have been reprogrammed depending on the change in the behavior of an attacking object, only the information T ₁ for the process the mission of the projectile required.

At time T ₂ , the programmable memory M issues a command to the power source W, ei NEN electrical pulse calibrated duration and amplitude to the igniter of the separator for the separation of the projectile tip to deliver.

During the time interval T ₃ -T ₂ , the projectile tip is dropped or smashed.

At time T ₃ , the programmable memory M issues a command to the power source W to deliver an electrical pulse (of calibrated duration and amplitude) necessary to ignite the electromagnetic occlusion target release device. This detonator is followed by a pyrotechnic retarder.

Finally, at time T ₄ , the programmable memory M _commands the power source W to emit an electrical impulse necessary to ignite the infrared apparent-charge-emitting device. The release of the charge and the ignition of the combustible disks takes place virtually instantaneously and leads to the destruction of the electrical connection between the programmable memory M and the electromagnetic apparent-charge-discharge device.

After the combustion of the pyrotechnic retarder of the apparent occlusion electromagnetic discharge device initiated substantially at time T ₃ , this apparent target charge is released.

In 3 the sequence of a sequence of functions is shown. The projectile is schematically illustrated by stacked cells: an engine 1 , an electromagnetic dummy charge 2 , an infrared dummy charge 3 , an electronics unit 4 and a charge of the separation device 6 for the projectile tip 5 ,

At A, the projectile is in the launch tube. It receives the information required for its mission, ie, the command to activate the power source and to program the time T ₁ . Then the start command is given: ignition of the solid fuel engine in this example.

At B, the projectile has left the launch tube, the stabilizer fins are extended, and the operation of the engine 1 is finished.

At C, ie at time T ₁ , the electronics unit closes the electrical connections. This closure is illustrated in a very schematic way by lines showing the cell which houses the electronics unit 4 referred to, with the various cells connecting to the devices 2 . 3 and 6 correspond.

At D, ie, at time T ₂ , the ignition and operation of the projectile tip severing device are performed. A duration T ₂ -T ₁ of the order of 50 ms is sufficient to close the contacts.

At E, the separation of the projectile tip 5 completed; in the presentation of 3 the projectile tip is dropped and shown near the projectile.

At F, ie, at time T ₃ , the electromagnetic occult charge-discharge releasing device is ignited. In particular, ignites the igniter a pyrotechnic retarder. A time duration T ₃ -T ₂ of about 200 ms is sufficient to blow off the projectile tip and for a sufficient distance from the projectile.

At G, ie, at time T ₄ , the infrared apparent-charge-releasing device is fired, which is practically instantaneous; the time period T ₄ -T ₃ is on the order of about 20 ms.

At H, ie after a time τ, which corresponds to the duration of the delay by the pyrotechnic retarder of the electromagnetic apparent-charge device release device, this is released. In this example, the period of time τ is on the order of about 70 ms; this is about 20 ms longer than the time period T ₄ -T ₃ . Under these conditions, the projectile has been moving toward the attacking object since point G, at which the infrared apparent-charge was released, and the apparent-charge electromagnetic charge has been released before the infrared apparent-charge. The electronics unit is also disconnected here. The constructive structure of the projectile and the sequence of the functional sequence are such that the projectile remains intact until the release of the two dummy target charges.

In 4 three releases are shown at different distances from the platform P. In these examples, the arrangement of the infrared signature and the electromagnetic signature is such that the electromagnetic signature corresponding to the chaff distribution cloud represented by a disk is prior to the infrared signature, when the arrangement of the attacking object represented in the present case by a missile R forth considered; the infrared signature represents the cloud in which the burning discs or plates are distributed.

The release of the infrared apparent charge and the apparent electromagnetic charge at the desired distance from the platform is achieved by the inclination of the carriage and the data corresponding to the time T ₁ . The dummy charge are released at substantially the same level to achieve sham effects of sufficient duration while the elements which generate the infrared signature and the electromagnetic signature fall down.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• FR 2383419 [0005]

Cited non-patent literature

• - Revue Internationale de Défense (No 10 (1982) pp. 1405-1408) [0006]

Claims (10)

A defense projectile for positioning an infrared signature and an electromagnetic signature generated by an infrared dummy charge and a dummy electromagnetic charge, comprising: - an infrared dummy charge ( 3 ) and an associated release device ( 13 ), - an electromagnetic dummy charge ( 2 ) and an associated release device ( 12 ), - an electronic unit ( 4 ) and - a separating device ( 6 ) for a projectile tip ( 5 ), which the electromagnetic apparent charge ( 2 ), the infrared apparent charge ( 3 ) and the associated release devices ( 12 . 13 ), characterized in that the electronics unit ( 4 ) a power source (W), a closing device (C) for closing electrical connections between the electronic unit ( 4 ) and the electromagnetic dummy charge ( 2 ), the infrared apparent charge ( 3 ) and the separating device ( 6 ) and a programmable memory (M) to achieve the following sequence of functions: - at a time T ₁ after the projectile is fired, the memory (M) triggers the closing device (C), - then at a time T ₂ initiates the memory (M) the operation of the separation device ( 6 ) for the projectile tip ( 5 ), - at a time T ₃ , the memory (M) initiates the operation of the release device ( 12 ) for the electromagnetic dummy charge ( 2 ), and - at a time T ₄ , the memory (M) initiates the operation of the release device ( 13 ) for the infrared apparent charge ( 3 ), wherein the times T ₃ and T _{4 may be} chronologically consecutive or interchanged in their order. Projectile according to Claim 1, characterized in that the release device ( 12 ) for the electromagnetic dummy charge ( 2 ) and / or the electronics unit ( 4 ) is designed so that the operation is delayed, the duration of this delay (τ) being such that it determines the relative position of the release of the electromagnetic apparent charge ( 2 ) and the infrared apparent charge ( 3 ) certainly. Projectile according to Claim 2, characterized in that the delay in the operation of the release device ( 12 ) for the electromagnetic dummy charge ( 2 ) is a pyrotechnic delay. Projectile according to one or more of claims 1 to 3, characterized in that the memory (M) of the electronic unit ( 4 ) function sequence is only effective when a launcher safety device has detected the start of the projectile. Projectile according to one or more of Claims 1 to 4, characterized in that the initiation of the release of the electromagnetic apparent charge ( 2 ) and the infrared apparent charge ( 3 ) is only effective when a safety device for detecting the projectile tip separation, the separation of the projectile tip ( 5 ). Projectile according to one or more of Claims 1 to 5, characterized in that the separating device ( 6 ) for separating the projectile tip ( 5 ) is a pyrotechnic charge containing the projectile tip ( 5 ). Projectile according to one or more of Claims 1 to 6, characterized in that the separating device ( 6 ) for separating the projectile tip ( 5 ) is a pyrotechnic charge containing the projectile tip ( 5 ) smashed. Projectile according to one or more of claims 1 to 7, characterized in that it is driven by a solid propellant ( 1 ) is driven by a solid propellant. Projectile according to Claim 8, characterized in that the service life of the solid-matter engine ( 1 ) is smaller than the predetermined time T _1m for the minimum range of the projectile. Projectile according to one or more of the claims 1 to 7, characterized in that it by mortar effect is driven.