DE2811732C1 - Armour against hollow charge ammunition - Google Patents

Abstract

The armour protection against penetration by shot, and especially hollow charge ammunition, has a number of pockets to hold explosive charges (13) to be detonated by the striking shot, covered by bodies (14) which are blown into the path of the plasma jet generated by the exploding hollow charge. The explosive charges (13) and bodies (14) are structured and deployed so that the pressure force (D) of the explosive gases, and the centre of gravity (S) of the bodies (14) each form a lever arm (a).

Description

The invention relates to a protective device against projectiles, in particular shaped charge projectiles, the made of a base layer with many like a checkerboard arranged recesses for receiving individual, through the explosive charges initiated the projectile impact and these covering interfering bodies exist, which in the Ge intervene lap train (see. DE-OS 20 53 345).

Hollow charge bullets create by detonating them Explosive charge with the help of those arranged in the loading funnel Lining an extremely energetic sting. This is capable of 4 to 10 times the value of the projectile caliber corresponding thickness of high steel plates Strength to penetrate. This is due extremely high penetration rate of the spike on its elongated continuous shape at close distance or its particle sequence in the greater distance between charge and target with longer duration there and his extremely high top speeds of up to 12 km / sec. This results in high and long-lasting traffic jams press in the target material that the latter practically without return view of its strength properties in the spike axis displaced to create a slim hole channel becomes.

To protect against those that represent a highly effective weapon Hollow charges have been developed in a variety of ways and seized. The closest possibility of  Armor reinforcement quickly finds its limit where the significantly increasing building weight is prohibitive becomes. But also in the case of sea vehicles, where the build importance does not play such a role as with land and ins special aircraft, the armor cannot be reinforce to the extent that breakthroughs are great calibrated shaped charges increase.

You are therefore increasingly leaving the path to becoming stronger Armor and take measures, weight and thickness armor while increasing penetration should reduce resistance. Known protective device lines consist of multilayer walls, the individual layers made of different materials are required. Purpose and purpose of this particular wall is the shaped charge spike in the protective material through distraction to take its boring effect and him stop in the material.

To combat such special protection devices more complex Today's design uses slender balancing bullets of higher height Material density and great hardness back, which is a result of very high flight speeds with their kinetic energy just break through these protective structures.

To protect against this type of bullet projectile goes today a development of armor there, with multilayer protection devices, some with several, in one free spacing between walls and layer Ten or layer combinations of interfering walls with reaction layers like explosive layers to create one Install chip effect (see. DE-OS 20 53 345) by the impinging Projectile can be initiated indirectly or directly and inert when they then react or detonate Interference layers diagonally into or through the path of the hurl the projectile.  

A shaped charge spike is destroyed at such protective devices in this way that the sting is chopped over part of its length and the individual sting particles are additionally deflected will. Because the intervention of the inert sturgeon layers in the spiked track happens obliquely (see. DE-PS 20 08 156), continuously brought new interference material into the spike, which is equivalent to the effect of a wall thickening. In order to otherwise it loses in a homogeneous steel wall powerful sting its boring effect and remains armored wall following in such spoilers stuck in a divergent crater. In defense too of the above-mentioned balancing bullets have such interfering walls Explosive layers very effective because because the balancing bullets through those with great kinetic Wegge energy through the detonating explosive layer threw inert wall parts distracted in their path will. This causes the balancing projectiles to get into their Center of gravity tipping out of its railway line and striking towards Part crosswise to a subsequent (further) tank wall, see above that much of the kinetic energy in through direction of impact is lost.

The disadvantage of such a device is that that when the attacking projectiles hit vertically or the shaped charge spike generated an oblique Ver cut between this and the hurled sturgeon layer and thus an iterative intervention does not occur.  

It is an object of the invention, regardless of the impact angle of the projectile or shaped charge spike one Increase in the material intervention in the bullet path achieve or ensure.

This object is achieved according to the invention by that the related explosives and sturgeon body designed and arranged to each other that the resulting pressure force of the explosive gases and the The focus of the interfering bodies each form a lever arm.

The invention has the effect that as a result of this lever poor in detonating the respective explosive charge of the Interfering body experiences a very fast rotary movement or spinning or tumbling within the floor track moves or, at best, even into the floor track is rotated, which means more interference material in each case the shaped charge spike engages as the thickness of the Disturbing body corresponds.

In the implementation of the invention is the reason of the recesses wedge-shaped in the base layer and with a wedge shaped explosive charge.

In a further embodiment of the invention, the wedge-shaped Reason with an explosive charge of the same thickness, on the one wedge-shaped Interfering body sits.

In order to ensure under all circumstances that when entering hit a projectile or shaped charge spike one Charge is initiated, is the base layer according to the invention provided on both sides with mutually offset recesses.  

Another feature according to the invention is the reason of the recesses only partially with a blasting load of material to be documented in relation to the interfering body or whose focus is shifted.

To detonate the explosive charge when a the explosive charge does not directly hit Hohlla Ensuring the spike is after another Feature according to the invention that uncovered by the load Partial area of the bottom of the recess with one Charge related relatively thin initiation layer which detonates the charge.

In the drawing, three embodiments according to the Invention shown:

As shown in Fig. 1a, recesses 12 with a wedge-shaped base are seen in a base layer 1 on the back, which are covered with a wedge-shaped explosive charge 13 in cross section. Completely flush with the surface of the recesses 12 are each by an interfering body 14 in the form of a plate with the focus S. With H an impacting shaped charge spike is designated. This brings the charge 13 to the detonation and penetrates the base layer 1 to produce a slim funnel-shaped breakdown channel. The wedge-shaped design of the charge 13 results in a lever arm a between the compressive force D of the explosive gases and the center of gravity S of the interfering body 14, as a result of which the interfering body 14 a is thrown off rotatingly and interferes with the hollow charge spike H, which now runs through, and chops it up ( FIG. 1b ). The hollow charge rod H, which in this way took its drilling effect, is no longer able to penetrate a protective wall behind it.

Referring to FIG. 2a, the recesses 22 are arranged on both sides of the supporting layer 1 and the underlying recesses 22 on one side are offset from the located on the other side recesses 22.

Here, too, the recesses 22 are wedge-shaped in cross section, but are covered with an explosive charge 23 of constant thickness. In this sitting depending weils a wedge-shaped bluff body 24, its center of gravity S with respect to the resulting pressure force D is also displaced from dilating pressure gases, so that here also the both sides centrifuged disruptive bodies 24 a rotational movement out (Fig. 2b).

In Fig. 3a, the recesses 32 are quite angular in cross section and the base is only partially covered with a load 33 . The remaining part of the base area is covered with an initiation layer 35 which detonates the charge 33 when the shaped charge spike H passes. The disruptive body 34 are graded abge on its underside. Due to the lever arm a between the compressive force D and the center of gravity S, the disturbing bodies 34 also experience a rotary movement here and engage iteratively in the spiked track.

The protective device according to the invention is also for Ab Weir of balancing bullets is suitable in so far as it their trajectory in the transverse direction and thus be disturbed be brought to a halt at the destination.

Claims (6)

1. Protective device against projectiles, in particular shaped charge projectiles, which consist of a base layer with many checkerboard-like recesses for receiving individual explosive charges initiated by the projectile impact and covering interfering bodies which intervene in the projectile path, characterized in that the mutually associated Explosive charges ( 13 , 23 , 33 ) and sturgeon bodies ( 14 , 24 , 34 ) are designed and arranged to each other so that the resulting compressive force (D) of the explosive gases and the center of gravity (S) of the sturgeon bodies ( 14 , 24 , 34 ) each form a lever arm (a). 2. Protection device according to claim 1, characterized in that the reason of the recesses ( 12 , 22 ) in the base layer ( 1 ) designed wedge-shaped and with a wedge-shaped explosive charge ( 13 ) is occupied. 3. Protection device according to claim 2, characterized in that the wedge-shaped base is covered with a continuously thick explosive charge ( 23 ) on which a wedge-shaped interfering body ( 24 ) sits. 4. Protection device according to claim 1 to 3, characterized in that the support layer ( 1 ) is provided on both sides with mutually offset recesses ( 22 , 32 ). 5. Protective device partially according to claim 1 and 4, characterized by in each case one of the bottom of the recess ( 32 ) only partially occupying, relative to the disruptive body ( 34 ) or to its focus (S) offset explosive charge ( 33 ). 6. Protection device according to claim 5, characterized in that the explosive charge ( 33 ) uncovered partial area of the bottom of the recess ( 32 ) with a with the explosive charge ( 33 ) related thin initiation layer ( 35 ).