EP1875152B1 - Camouflage and decoy munitions for protecting objects against guided missiles - Google Patents

Description

The invention relates to a camouflage and deception ammunition for the protection of objects against missiles, the fog and / or dummy targets forming agents that produce Täuscheffekte that affect the location of the missile.

To protect objects against missiles, camouflage and deception ammunition is used in a known manner, which forms an artificial fog or fake targets, from which the approaching missile is deflected due to target-like signals.

So is out of the DE 100 65 816 A an ammunition for generating a mist containing both a fog and an IR active mass. From the EP 0 512 202 A method is known for protecting objects emitting IR radiation against missiles, in which the missile is located from the object to be protected, and subsequently launching projectiles which generate interference radiation clouds. The Störstrahlungswolke initially sends a short time a strong IR radiation from which the Aufschalt- and tracking electronics of the seeker head of the missile is disturbed. Subsequently, several large-area and homogeneous pyrotechnic, the IR signature of the object in approximately similar infrared decoy target clouds are generated.

If guided missiles are located on the approach to the approach by sensing hot spots in the tail of the rocket and controlled depending on the respective position to the target, it is known to deceive the control system of the rocket by creating hot spots that act in the same wave range , Sensing a wrong hotspot will generate an incorrect control signal and deflect the missile.

In order to produce such deflection effects, so-called jammers are known. Jammers are lamps that are attached to the target and emit homogeneous or pulsed light signals in the desired spectral range. It is also known, such deflection effects by To produce pyrotechnic torches or light-body, which are burned or fired at the vehicle to be protected.

Electronic jammers and pyrotechnic torches have the disadvantage that they only represent a deflection point. Also, these stationary jamming and pyrotechnic torches can be elucidated and used as a special target signature. With excessive approach of the missile, this measure therefore also provides no protection.

Shed filaments have the disadvantage that they must be fired as additional ammunition with the other defenses with and thus increases the cost significantly. Furthermore, they have the disadvantage that they form a single ongoing hotspot that can be detected and suppressed by modern missile detection systems.

The US 5,499,582 A ( DE 28 11 016 ) relates to a throwing body with a throwing agent cup and a centrally located Zündzerlegereinheit with a Zündzerlegerladung. The bursting charge is in known manner in contact with the ejection charge. The litter container is characterized in that due to its deep drawn aluminum can form a spherical Täuschwolke in a very short tent. Therefore, the firing layer should be easily flammable, but then not burn off too quickly to give the desired and required longer sustained infrared radiation for a deceptive cloud.

The US 5,585,594 A ( DE 42 44 682 ) relates to a high-intensity pyrotechnic infrared exchange torch, which in turn has compacted tablets of an infrared-emitting pyrotechnic composition for deceiving a projectile which is incident on the aircraft.

From the FR 2 849 680 A1 a camouflage ammunition is known, in which additionally in the active charge pyrotechnic luminous bodies are included, which can produce a variety of distributed in space hot spots.

Starting from the FR 2 849 690 A The invention is based on the object to provide a camouflage and Täuschmunition for the protection of objects against missiles, which offers the broadest possible protection.

This object is achieved according to the invention in that the camouflage and Täuschmunition in addition to fog and / or fake targets forming active ingredients additionally contain pyrotechnic luminous or luminous active materials that produce a variety of distributed in space hot spots.

According to the invention thus the deflection effect is integrated by hot spots in a camouflage and Täuschmunition. The camouflage and deception ammunition according to the invention provides comprehensive protection by camouflaging both the threatened object, as well as the desired deception signals. At the same time, many hotspots are generated as deceptive signals. The deception signals can be generated directly when the ammunition is launched and / or on its trajectory and / or when dismantling the ammunition. The distracting lighting effect can thus act at different locations and at different times in order to deceive different missiles with different approaches (flat approach, excessive approach, etc.). Thus, lighting effects can be generated directly on the target object, for example a vehicle, or starting from the target object In the air or at a distance from the target object in the air, in particular from the Zeriegungspunkt to the ground. Thus, it can be ensured that the deflection effect is independent of the flight principle in the LOS (line of sight) of the missile location.

In a particular embodiment of the burnup is controlled so that instead of a sustained radiation, a pulsating radiation is emitted. This is also effective against modern tracking devices that can detect and isolate persistent signals.

The integration of the hot-spot builders in the stealth and deception ammunition can be realized in various ways, which can also be combined with each other:
1.
Complementing the discharge charge of the ammunition by a hot-spot granule, which acts in the desired wave range:
The granules which supplement the ejection charge can be supplemented on the basis of phosphorus red or on the basis of flares and / or IR flares, in order to achieve optimum effect in the desired wavelength range.
Example of luminous bodies based on phosphorus red: 60-80% Phosphor red 30-10% Nitrates of the first and second main groups 5-10% Light metals such as magnesium and / or aluminum about 5% Binders such as aqueous dispersion adhesive
Example of luminaires based on IR illuminant: 50-70% potassium nitrate 20-10% hexamethylenetetramine 5-10% Diazidicarbonamid 1-5% Metal powder such as silicon and / or boron 1-5% Binders such as rubber accroides, polyvinyl butyrate
Second
Attaching a pellet to create a trail of light in the form of hot spots on the cartridge to be fired.
Example for the recipe of pellets: 50-70% potassium nitrate 20-10% hexamethylenetetramine 5-10% Diazidicarbonamid 2-5% Metal powder such as silicon and / or boron 1-5% Binders such as rubber accroides, polyvinyl butyrate
Third
Adding granules or pellets to the disintegrator charge that produce hot spots in the desired wavelength range:
Example for the formulation of granules or pellets: 50-80% barium 20-50% magnesium 0-10% binder
4th
Laboratory preparation of hotspots producing flares or pellets in the nebulas or sham targets.
Example for the recipe of flares or pellets: 60-80% Phosphor red 5-20% Nitrates of the first and second main groups 0-10% Light metals such as magnesium and / or aluminum 5-20% Binders such as aqueous dispersion adhesive

Claims (7)

1. Camouflage and decoy munition for protecting objects against guided missiles, which munition contains active substances which form smoke and/or spoof targets, the munition additionally containing pyrotechnic flares which produce a multiplicity of hotspots distributed in three dimensions, characterized in that the injection charge for the munition has a hotspot granulate added to it and/or granulates or pellets are added to the break-up charge of the munition and produce hotspots in the desired wavelength band.
2. Camouflage and decoy munition according to Claim 1, characterized in that pellets are fitted to the cartridge to be fired, in order to produce hotspots.
3. Camouflage and decoy munition according to Claim 1 or 2, characterized in that flares or pellets which produce hotspots are incorporated in the munition active substances which form smoke or spoof targets.
4. Camouflage and decoy munition according to one of Claims 1 to 3, characterized in that the decoy signals can be produced immediately on firing of the munition and/or on its trajectory and/or when the munitions break up.
5. Camouflage and decoy munition according to one of Claims 1 to 4, characterized in that the deflecting flare effect can be achieved at different locations and at different times.
6. Camouflage and decoy munition according to one of Claims 1 to 4, characterized in that the active compound which produces hotspots does not burn continuously, but in a pulsating form.
7. Use of a camouflage and decoy munition according to one of Claims 1 to 6, in order to decoy different missiles with different approach paths, such as low-level approach, high-level approach etc.