DE102005006943A1 - Device for protection against weapons effects by hollow charge - Google Patents

Abstract

The device serves to protect against a weapon effect by hollow charge and has at least one protective element. The protective element is arranged pivotably.

Description

The The invention relates to a device for protection against weapons effects by hollow charge, which has at least one protective element.

such Influence of weapons by hollow charge are generated especially by Panzerfäusten and typically consist of gas clouds, plasma and metal particles. A corresponding shaped charge jet is as a high energy beam trained, has a speed of several kilometers / second and a range of many meters. Due to the high propagation speed is such a weapon effect by hollow charge to be able to the outer skin area penetrate from armored objects and stored in the area To get ammunition.

Especially Such a shaped charge jet is capable of the skin area a surface ship to penetrate and in the area of ammunition congestion a mass detonation cause significant damage to the vessel or can lead to a sinking of the ship.

Problematic At such weapons effects by hollow charge is thus not the actual mechanical damage through the shaped charge jet itself, but through the shaped charge jet initiated explosion of stored in the area of the attacked object Explosives.

task It is the object of the present invention to provide a device mentioned type to construct such that at low construction weight a high Protective effect is achieved.

These Task is inventively characterized solved, that this Protective element is arranged pivotably.

The Use of a pivotable protective element makes it possible the propagation of the shaped charge jet at a relatively small thickness of the protective element a large oppose to penetrating material thickness. When striking the shaped charge jet on the protective element is this through the kinetic energy of the shaped charge jet both in the propagation direction pivoted as well as transversely to the direction of propagation. In carrying out the Pivoting movement of the protective element is thus spreading Hollow charge jet continuously in a local in the region of the protective element changing Material area opposite. The shaped charge jet must thereby in the region of the protective element a much larger amount of material penetrate, as the actual thickness of the protective element corresponds.

It done over it a significant disruption and deflection of a linear propagation of the shaped charge jet, So that the Spread disturbed becomes. After all is also a scattering of the originally narrow focused shaped charge jet achieved so that the Energy density of the shaped charge jet is reduced.

A advantageous design is that the protective element plate-like is trained.

to disorder a spread of the shaped charge jet proves to be particular as beneficial that the Protective element a curved Design has.

A Use of the force of gravity when positioning the protective element can be done by the Protective element in a vertically upper portion of his Expansion over a pivot joint is connected to a supporting structure.

to support a positioning of a possible huge Quantity of material in the propagation region of the shaped charge jets provided that the Protective element with a component of movement transverse to a direction of action is positioned pivotably.

A typical embodiment is that the Protective element is designed as a buckle plate.

A high mechanical resistance is achieved by the Protective element is formed at least partially made of steel.

The provided material properties can be further improved be that Protective element is at least partially coated.

the acting hollow charge jet opposite hard material properties are achieved by the Protective element in the region of a direction of action facing surface provided with a coating of ceramic.

To avoid weakening of the material due to chipping, it is provided that the protective element is provided with a coating in the region of the surface facing away from an action direction tion is provided from tissue.

A particularly stable overall construction is achieved in that the protective element is arranged within an absorption space.

to further disorder a propagation of the shaped charge jets, it proves to be advantageous that the absorption space is arranged at a distance to a shelter.

One Advance of the shaped charge beams is further limited by that the Absorption space on the one hand and the shelter on the other hand at least in the area of their mutually facing boundaries of partitions Steel are limited.

A further improvement of functionality can be achieved by that at least one of the partitions at least partially coated.

Unbreakable Material properties through the use of composite materials can thereby be achieved that the Coating the partition designed from a break-proof plastic is.

A further increase the protective effect by combined provision of several consecutive arranged material collections, radiation deflection and radiation scattering can be achieved by having at least two protective elements are arranged one behind the other in the direction of action.

A typical application is defined by the fact that the protective element in the range a ship is arranged.

Also is preferably intended that the ship as a surface ship is trained.

Especially In one application, it is also contemplated that the shelter be considered an ammunition storage room is trained.

In The drawings are exemplary embodiments of the invention shown schematically. Show it:

1 a partial representation of a cross section through the hull of a ship with arranged next to protected areas protection device against shaped charge jets and

2 an enlarged view of the protection device.

The picture in 1 shows a partial representation of a cross section through a ship ( 1 ) in the area of the fuselage ( 2 ). In an interior ( 3 ) of the fuselage ( 2 ) is adjacent to an outer wall ( 4 ) of the ship ( 1 ) an absorption space ( 5 ), in the region of which at least one protective element ( 6 ) is arranged. At the in 1 illustrated embodiment are in a direction of action ( 7 ) successively three protective elements ( 6 ) are each positioned at a distance relative to each other. The absorption space ( 5 ) is at a distance ( 8th ) to a shelter ( 9 ). In the region of their mutually facing boundaries of the absorption space ( 5 ) on the one hand and the shelter ( 9 ) on the other hand of walls ( 10 . 11 ), which also limits the distance ( 8th ) limit. In the illustrated embodiment, the partitions ( 10 . 11 ) substantially in a vertical direction.

The picture in 2 illustrates the design of the protective elements ( 6 ) and the absorption space ( 5 ) in an enlarged and more detailed representation. In particular, it can be seen that the protective elements ( 6 ) pivotable within the absorption space ( 5 ) are arranged. In the illustrated embodiment, pivot joints ( 12 ) as a connection of the protective elements ( 6 ) to a ceiling ( 13 ) of the absorption space ( 5 ) arranged. Such an arrangement has the advantage that the protective elements ( 6 ) due to the gravitational effect in 2 take shown basic positioning. In. corresponding spring load, but it is also conceivable, for example, a lateral arrangement of the pivot joints ( 12 ).

2 further illustrates that the protective elements ( 6 ) have curved shapes. It is thereby for the protective elements ( 6 ) with respect to the direction of action ( 7 ) outwardly curved bulges out. The bulges can in this case be realized such that starting from the pivot joints ( 12 ) first a relatively small curvature and then towards a bottom ( 14 ) of the absorption space ( 5 ) there is a greater curvature. A typical realization of the protective elements ( 6 ) takes place as Beulbleche.

2 also illustrates one beside the outer wall ( 4 ) positioned bazooka ( 15 ), which is designed to generate a shaped charge jet, in the direction of action ( 7 ) on the ship ( 1 ) as well as the protective elements ( 6 ) is oriented.

As material for the protective elements ( 6 ) is in particular a spring steel suitable. A typical one Material thickness is in the range of about 6 millimeters. Particularly suitable is a coating of the protective elements ( 6 ) such that in the region of one of the direction of action ( 7 ) facing a ceramic coating and in the region of the direction of action ( 7 ) facing away from a boundary tissue is arranged. Particularly advantageous is the use of glass fabric. The partitions ( 10 . 11 ) are advantageously formed of steel. A coating with Kevlar liner has proven itself.

In the area of their the ground ( 14 ) of the absorption space ( 5 ) facing the protective elements ( 6 ) free support points, so that when a loading of the protective elements ( 6 ) a pivoting about the pivot joints ( 12 ) around is possible. In the direction of action ( 7 ) is a typical size dimensioning of the absorption space ( 6 ) in a range of about two meters. Preferred is an order of magnitude below two meters. In order to ensure a functional capability, it is particularly conceivable to use the protective elements ( 6 ) vibration-proof in the region of the absorption space ( 5 ).

In general, it is possible to have several separate shelters ( 9 ) in the vertical direction one above the other. It is also intended to have several separate absorption spaces ( 5 ) in the vertical direction one above the other.

Claims (19)

Device for protection against a weapon effect by hollow charge, which has at least one protective element, characterized in that the protective element ( 6 ) is arranged pivotably. Device according to claim 1, characterized in that the protective element ( 6 ) is plate-like. Device according to claim 1 or 2, characterized in that the protective element ( 6 ) has a curved configuration. Device according to one of claims 1 to 3, characterized in that the protective element ( 6 ) in a vertically upper portion of its extension via a pivot joint ( 12 ) is connected to a supporting structure. Device according to one of claims 1 to 4, characterized in that the protective element ( 6 ) with a movement component transversely to a direction of action ( 7 ) is positioned pivotably. Device according to one of claims 1 to 5, characterized in that the protective element ( 6 ) is formed as a bellows. Device according to one of claims 1 to 6, characterized in that the protective element ( 6 ) Is formed at least partially made of steel. Device according to one of claims 1 to 7, characterized in that the protective element ( 6 ) is at least partially coated. Device according to one of claims 1 to 8, characterized in that the protective element ( 6 ) in the region of a direction of action ( 7 ) facing surface is provided with a coating of ceramic. Device according to one of claims 1 to 8, characterized in that the protective element ( 6 ) in the region of a direction of action ( 7 ) facing away from the surface is provided with a coating of tissue. Device according to one of claims 1 to 10, characterized in that the protective element ( 6 ) within an absorption space ( 5 ) is arranged. Device according to one of claims 1 to 11, characterized in that the absorption space ( 5 ) with a distance ( 8th ) to a shelter ( 9 ) is arranged. Device according to one of claims 1 to 12, characterized in that the absorption space ( 5 ) on the one hand and the shelter ( 9 ) at least in the region of their mutually facing boundaries of partitions ( 10 . 11 ) are made of steel. Apparatus according to claim 13, characterized in that at least one of the partitions ( 10 . 11 ) is at least partially coated. Apparatus according to claim 14, characterized in that the coating of the partition ( 10 . 11 ) is formed of a break-proof plastic. Device according to one of claims 1 to 15, characterized in that at least two protective elements ( 6 ) in the direction of action ( 7 ) are arranged one behind the other. Device according to one of claims 1 to 16, characterized in that the protective element ( 6 ) is arranged in the area of a ship. Device according to claim 17, characterized in that the ship ( 1 ) as an overwater ship is formed. Device according to one of claims 1 to 18, characterized in that the shelter ( 9 ) is designed as an ammunition storage room.