WO2011134596A1 - Method and device for clearing a smokescreen - Google Patents

Abstract

In order to clear a smokescreen (2) as quickly as possible, according to the invention a projectile, such as for example a grenade having an active mass (4) which clears the smokescreen (2), is delivered into the smokescreen (2) and is distributed there at a predeterminable time, by means of a corresponding discharging mechanism in the projectile. Alternatively, according to the invention an explosive charge, which is ignited in the smokescreen (2) in order to generate a pressure wave for clearing the smokescreen, can be used as active mass (4).

Description

 DESCRIPTION

Method and device for removing a camouflage nebula

The invention relates to a method for eliminating a camouflage mist by means of an introduced into the camouflage active mass.

Such a method is known for example from the document DE 17 59 331 A. In this document, to eliminate fog, it is proposed to apply a mixture of dry ice, liquid air and silver iodide from above onto the mist by means of an aircraft. As the mixture sinks into the mist, the dry ice and liquid air cause the high heat requirement for sublimation to cause the water droplets that form the mist to freeze, thus turning to snow and then raining, causing the mist to evaporate disappears in a short time.

Also from the document DE 199 59 474 A1 a method for the elimination of military camouflage is known in which dry ice is distributed in fine distribution in the Tarnnebel. For this purpose, at least one container receiving the dry ice is located on a slow-flying aircraft. The container is circumferentially provided with nozzles, from which then the dry ice particles are ejected in the mist.

A disadvantage of the known methods, inter alia, that an aircraft or a slow-flying missile is required, which must transport the fog-destroying active mass in one or more containers from which the active mass particles are then ^' ejected above the fog wall and in the fog wall. As a result, the elimination or partial elimination of the camouflage is extremely time consuming. In a battle, therefore, the commander of a battle tank to combat a fogged enemy target must first appropriate aviation Request tools, drones, etc., with the help of which then the camouflage mist can be at least partially eliminated. Only then can the target, whose position has generally changed in the meantime, be fought on sight.

The invention has for its object to provide a method and an apparatus with which in a simple way a camouflage nebulisers can be eliminated quickly.

This object is achieved by the features of claim 1. Further, particularly advantageous embodiments of the invention disclose the dependent claims.

The invention is essentially based on the idea not to deploy the active mass for the removal of a camouflage nebula with the aid of an aircraft or with the aid of a container located on a slowly flying aircraft, but with the aid of a missile which can be fired from a firing device, for example a main battle tank, such as grenade or similar.

In a first embodiment of the invention, substances which form condensation nuclei in the camouflage mist after being ejected from the missile (for example silver iodide particles) are used. These cause a growth of fog droplets, so that after a certain time the mist is reflected in the form of rain on the ground.

In a second embodiment of the invention, a solid or a liquid pyrotechnic substance mixture and / or an explosive mixture are used as the active material. The active mass is ignited during deployment by a burster (explosive device) or other dispensing mechanism. The resulting heat vaporizes the mist droplets and gradually eliminates the mist.

Instead of igniting the active mass when deployed from the missile can also be provided that the ejected already from the missile active mass only then by bombardment of the developing aerosol cloud using a primer.

In a third embodiment of the invention, flammable substances, for example metal powder, are used as the active substance, which are produced by the dispensing mechanism. mus be distributed as an aerosol in the fog. By irradiating the aerosol cloud with laser light, the particles of the active substance are then ignited, so that they burn off in the wall of smoke. The resulting heat then evaporates the mist droplets.

In a fourth embodiment of the invention, hygroscopic substances are used as active compound. These can store water due to their crystal or molecular structure. For example, compounds from the group of framework-forming alkali metal and alkaline earth aluminum silicates (zeolites) are suitable for this purpose. These have (in the dewatered state) cavities in which water can be stored. Due to the finely distributed particles of active substance, the mist droplets are absorbed and, as a result of the increase in weight of the particles of active substance, they then sink to the bottom.

In a further alternative of the invention, an explosive charge is used as the active mass, which detonates in the mist and generates a pressure wave. By this pressure wave, the mist is then partially displaced (diluted) and transparent.

Further details and advantages of the invention will become apparent from the following, explained with reference to a figure embodiment.

In the figure, 1 denotes a main battle tank whose view is obstructed in the direction of an unillustrated enemy target by a smoke screen 2.

The main battle tank 1 has a firing device 3 for firing missiles (not shown in detail, but known to the skilled person), such as grenades or the like, which are intended to effect an at least partial elimination of the camouflage nebula 2. For this purpose, the respective missile contains, for example, a pyrotechnic or explosive-containing burster and an active mass, which is distributed over a large area in the fog wall 2 by means of the ripper.

In the illustrated embodiment, the missile has already reached the fog wall 2 and the burster (explosive device) is detonated, so that the active material particles 4 are arranged distributed in the fog wall 2 and form an aerosol cloud 10 within the fog wall. In the exemplary embodiment shown, the active substance particles 4 are combustible substances which have not yet been ignited during the dispensing process. the. Rather, this is done by a subsequent irradiation of the aerosol cloud 10 by means of laser light 5 of a power laser 6 located on the main battle tank 1.

Of course, the invention is not limited to the embodiment described above. Thus, instead of a Zerlegers as Ausbringmechanismus the active mass particles of course also another dispensing mechanism can be used.

In addition, the missile with the active mass to eliminate the cloak nebula can also be designed such that it can be fired like a normal artillery projectile of the main weapon 7 of the main battle tank 1.

LIST OF REFERENCE NUMBERS

1 main battle tank

 2 camouflage fog, fog wall

3 launcher

 4 active mass, active mass particles

5 laser light

 6 power lasers

 7 main weapon

10 aerosol cloud

Claims

1. A method for eliminating a camouflage mist (2) by means of a camouflage mist (2) einbringbaren effective mass (4), characterized in that the active mass (4) by means of a shootable missile in the camouflage mist (2) is conveyed.

2. The method according to claim 1, characterized in that the active mass (4) - by means of a corresponding Ausbringmechanismusses in the missile - in the Tarnnebel (2) is distributed.

3. The method according to claim 2, characterized in that the distribution of the active mass (4) in the camouflage mist (2) by ignition of a collider arranged in the missile (explosive) takes place.

4. The method according to claim 2 or 3, characterized in that as the active mass (4) substances are used, which form after application from the shell in the Tarnnebel (2) condensation nuclei, so that the Tarnnebel (2) in the form of rain precipitates to the ground.

5. The method according to claim 4, characterized in that silver iodide particles are used as active material.

6. The method according to claim 2 or 3, characterized in that as the active mass (4) a solid or a liquid pyrotechnic composition and / or an explosive mixture are used.

7. The method according to claim 6, characterized in that the pyrotechnic composition and / or the explosive mixture are ignited in their application from the shell.

8. The method according to claim 6, characterized in that the pyrotechnic Substance mixture and / or the explosive mixture is first in the Tarnnebel (2) is distributed, so that an aerosol cloud (10) of these particles in the Tarnnebel (2) is formed, and then by bombardment of the active mass particles (4) existing aerosol cloud (10 ) is ignited by means of an ignition charge the aerosol cloud (10).

9. The method according to claim 2 or 3, characterized in that as active mass (4) a combustible substance is used, which is distributed in the Tarnnebel (2), so that an aerosol cloud (10) of these particles in the Tarnnebel (2 ), and that then by irradiation with laser light (5) of the aerosol cloud (10) is ignited.

10. The method according to claim 9, characterized in that as the active mass (4) a combustible metal powder is used.

11. The method according to claim 2 or 3, characterized in that as active compound (4) hygroscopic substances are used.

12. The method according to claim 11, characterized in that zeolites are used as the active mass (4).

13. The method according to claim 1, characterized in that for the purpose of generating a pressure wave within the camouflage nebulas (2) the active mass (4) within the camouflage nebula (2) is brought to explosion or detonation.

14. An apparatus for eliminating a camouflage mist (2) by means of a in the camouflage mist (2) einbringbaren effective mass (4 characterized by a missile for receiving various active masses (4).

15. The apparatus according to claim 14, characterized in that the missile has a pyrotechnic or explosive-containing burster or dispensing mechanism.