DE19601756C1 - Method, for projecting armored object from projectiles, involves shooting grenade against projectile and igniting war head of grenade if shock wave of war head is behind center of mass f projectile - Google Patents

Abstract

The method involves shooting a grenade (16) against the projectile (11). The war head (17) of the grenade is ignited, if the shock wave (18) of the war head is behind the center of mass (21) of the projectile. The grenade may be operated using a time control or a remote control, to ignite it when the projectile has passed it. An Independent claim is included for a unit for implementing the method.

Description

The invention relates to a method according to the preamble of claim 1 and a device according to the preamble of claim 3.

The generic measures are known from DE 41 22 622 A1. A such a so-called reactive armor is based on the main armor of the protective object, such as a main battle tank, with explosives-backed To record plates. If an attacking projectile, especially a KE- Arrow projectile, approaches the object, then a sensor array detects the proximity conditions, in order to finally only the explosives behind that plate detonate the projectile with optimal chances of success is. As a result of the collision, the projectile loses a large part of it for us The target kinetic energy required in the target, it may even be also broken or distracted.

The disadvantage of such reactive armor, which is functional per se, is the large one additional load on the object, namely stationary due to the mass of the reacti onsplatten and dynamic through the reaction effect when explosives lifting a plate from the supporting object. In addition, at schleifli Chen objects to be protected constructively disadvantageous that only certain areas che can be covered with such reaction plates, in particular the Driving elements (chains or wheels) remain unprotected. That makes a special one re threat in the front and thus in the main threat direction Combat vehicle is. Technically and tactically disadvantageous finally also that the object to be protected is already in the area of a blown up plate of their reactive additional protection has been lost because of a such a gap not during the mission, but only in the stage magazine Restore the plate brackets can be closed.  

As a sensor system for active armor, it is known from DE 40 08 395 A1 Determination of the segment to be activated by radar measurement of the trajectory to determine the attacking projectile and from a sequence of measured values to determine the potential impact of the projectile.

Also according to DE 27 19 150 C1 is one - in this case transverse to the approximation Direction of the projectile that can be moved in its plane - armor plate as interference material intended against high-energy projectiles.

The device for protecting objects against known from DE-PS 977 984 Projectile impact points in front of the object to be protected and with a large number of shaped charges in direct spatial connection on whose ignition devices can be triggered in groups, as well as transmitters and the Hollow charge groups assigned receivers, when the foreign body enters a shaped charge group for detonation brin in the associated radiation area gene.

DE 38 31 329 A1 describes a device for combating security objects penetrating the safety zone with mine-like distributed in the safety zone Containers known to have low-lying missiles even in a difficult to understand Should be able to fight the security zone. The containers are with one Fuel-air explosive filled when triggered by a sensor a period of time leads to an ignitable fuel-air mixture cloud.

According to EP 0 175 914 A1, a projectile spends a large-scale interfering element like a parachute that unfolds in front of the approaching projectile.  

The present invention is based on the technical problem, an easier one manageable and in its effect at least with the Re active armor comparable protection against attacking fast projectiles create without the disadvantages of reactive plate armor mentioned in purchase to have to take.

This object is achieved in that the generic Additional measures according to the characteristics of the main claims are designed.

This solution is based on the knowledge that a quick approach is sufficient Projectile, in particular an arrow balancing projectile, by the resulting force kung behind his focus from the attack path at least as far ken that it no longer hits the object to be protected in the longitudinal direction, but either missing or at least in the transverse direction and therefore without great destruction power meets. A blast grenade is removed from the projectile to be repelled sent a grenade, the active part of which is not with a beam-forming or projectile-forming warhead, but with an omnidirectional and very inexpensive explosives mass. The one after the ignition of this warhead, spherically spreading vapor and reacti Pressure waves hit the projectile that is just flying by and practice it a special effect on its larger tail fin area where is pivoted about its center of gravity by the projectile. For this effect there is no need for a precise approximation, even a detonation distance in the The magnitude of up to 1 m still provides sufficient pressure to disrupt the current flight direction of the attacking projectile. This blast Effect can only be delayed until the rear of the projectile Exposed to pressure; because if this influence already on the Projectile tip would take place, the subsequent effect would kung the initial deflection more or less undo.  

The blast grenades can be brought by means of launching tubes, which in staggered in different directions and / or on a rotating tower of the to be protected object are arranged. These pipes pose neither in terms of their mass still with regard to the reaction occurring at the start of a grenade a remarkable additional load on the load-bearing structure of the protective object, and they are easily reloaded even during use bar.

This creates an easy way to make the effect approach faster To reduce projectiles to the harmless side impact, while at the same time due to the high starting speed of the blast grenades, the impact Distance to the projectiles to be fought off from the realizable response detectors Reaction centrifuge plates compared to three times (down to Order of magnitude of almost 10 meters) is increased.

Additional alternatives and further training as well as further features and advantages le of the invention result from the further claims and from the following Description of one in the drawing limited to the essentials highly abstracted preferred example of use for the inventive Solution. The only figure in the drawing shows a top view with non- A true-to-scale principle representation of a scenario according to the invention.

The object 12 to be protected against the threat of a rapidly approaching projectile 11 , such as a guided missile or, in particular, as outlined by an arrow-shaped balancing projectile (KE projectile), is a heavily or lightly armored vehicle, such as a main battle tank or an armored personnel carrier. Its main threat direction is generally defined by the azimuthal angular range of approximately 30 ° on either side of the pre-direction. This threat area 13 is covered by at least one launch tube 15 pivotable with the tower 14 . There can also be several such launch tubes 15 angularly offset against each other in the front area fixed or directional on the object 12 to be protected.

These are firing tubes 15 for grenades 16 with a non-directional or blast warhead 17 that are light in terms of apparatus and easy to reload in terms of handling technology, that is to say with a cheap active part consisting only of compressed explosives. The grenade 16 is the approaching projectile 11 ent started and its warhead ignited when the resulting gas swath and reaction pressure wave 18 predominantly, or initially, not on the area of the tip 19 , but on that of the tail unit 20 of the threat -Projectile 11 acts. As a result, the latter is pivoted about its center of gravity 21 and is deflected out of the attack path 22 , at least from the direction of attack, so that it misses the endangered object 12 or at least does not strike it lengthways but in the transverse direction and therefore does not pose any serious danger to the normal armoring of the object 12 represents more.

Which of several differently oriented launch tubes 15 sends a grenade 16 to the approaching projectile 11 is determined by a radar sensor 23 on board the object 12 to be protected, comparable to the sensor control from DE 41 22 622 A1 cited at the beginning. The detonator 24 of the blast defense grenade 16 is tempered either when it leaves the launch tube 15 in accordance with the distance and speed information determined by the sensor 23 about the approaching projectile 11 if it is a time detonator 24 ; or the detonator 24 works remotely with radio triggering from the sensor 23 or with a tension cable trigger via which the blast grenade 16 is tied to the object 12 . Instead or in addition, the grenade 16 can be equipped with an proximity detector 25 to ensure that the pressure wave 18 does not yet act on the tip 19 of the approaching projectile 11 , but mainly on the area behind its center of gravity 21 .

Claims (6)

1. A method of protection against the threat emanating from a rapid projectile on a ge-armored object, characterized in that a grenade is fired at the approaching projectile, the warhead of which is ignited when the approach situation results in a predominant effect of the gas vapor and reaction pressure wave of the ignited warhead to the projectile area behind the center of gravity. 2. The method according to claim 1, characterized, that the grenade is timed or remotely controlled as it passes the projectile is detonated. 3. Device for carrying out the method according to one of the preceding claims, characterized in that the object to be protected ( 12 ) is equipped with at least one launch tube ( 15 ) covering the main threat area ( 13 ) for a grenade ( 16 ). 4. Device according to claim 3, characterized in that re-oriented and / or side-directional launch tube re ( 15 ) are provided. 5. Device according to claim 4, characterized in that the grenade ( 16 ) is equipped with a blast warhead ( 17 ) which can be ignited via radar or via a tether line. 6. Device according to claim 4, characterized in that the blast grenade ( 16 ) with a proximity detector ( 25 ) for initiating the igniter ( 24 ) upon passing the projectile to be defended ( 11 ) is permitted.