DE2053345A1 - Protective shield against missiles - has on base plate percussion wave resistant slab provided with several recesses filled with explosive charges - Google Patents

Abstract

The base plate (1) is fitted with a further layer consisting of a concussion wave resistant plate (2). The plate carries numerous recesses (3) filled with explosive charges (5). The explosive charges can extend up to the outer surface (6) of the wave resistant plate, or the explosive charge filled recess can be closed up by a lid made of a material conducting well the percussion waves. The base plate is made of a tough steel or aluminium and the damping plate is of a material having high percussion wave absorption qualities with diverse wave impedances. This effect can be also achieved by arranging numerous air gaps between the zones of the recesses.

Description

Messerschmitt-Bölkow-Blohm Ottobrunn, October 23, 1970

Society with 7130

limited liability ZVP3 Jk / sch 2053345

Munich

Protective device against projectiles

The invention relates to a protective device against projectiles, in particular balancing projectiles, with a Base plate.

In a known so-called active protection device of the type mentioned are in hollow, on a supporting base plate fixed bodies in terms of volume

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Much smaller explosive charges housed, in the immediate vicinity of the base plate. Educated The hollow bodies are made up of two intersecting sets of ribs and, compared to the explosive charges, large-sized, resistant plates, each of which has the represent hollow body boundaries facing away from the base plate. On each of these with the adjacent rib sections A fuse needle is attached to the plates screwed together with flexible seals. Latter is dimensioned in length such that there is a gap between its tip and the associated explosive charge remains.

The aforementioned space between the fuse needle and the associated one The explosive charge to which it falls, the resistant plate connected to the fuse needle to the impacting one Throwing a projectile towards you is partly responsible for the often inadequate protective effect, in addition to the unfavorable ratio of plate mass to explosive charge mass the well-known protective device. Once it turns out when there are noticeable deviations in the projectile trajectory from of the plate normals, which result in a corresponding reduction in the direction of the plate normals Impact forces result in the fuse needle as unbridgeable. On the other hand, its presence makes itself felt even if the impact forces that occur to establish effective contact between the fuse needle and Sufficient explosive charge, still noticeable negatively, namely in a detonation that is sometimes considerably delayed the explosive charge. This results in the hit plate being thrown away too late and its effectiveness as a counter projectile because of the unfavorable relationship from plate mass to explosive charge mass and the consequently severely limited plate speed are already in question is posed.

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The invention is based on the object of developing a protective device of the type mentioned at the outset, which offers more effective protection against projectiles, in particular balancing projectiles, than the known design with its movable components _{or the like that are susceptible to failure}

This object is achieved according to the invention in that on the base plate one made of materials with good shock wave damping Properties existing plate (damping plate) with a variety of over the plate surface distributed openings is attached and each plate opening is filled with an explosive charge, which is up to the surface of the damping plate or to a closure cover for the Plate opening reaches.

It is well known that balancing bullets reach - especially when training as buffer bullets - with their high Impact speeds high penetration rates, especially if they are made of special materials such as hard metal or heavy metal. These high The protective device according to the invention ensures penetration rates - even in the event of an oblique projectile impact - impressively reduced to harmless residual penetration performance or completely destroyed . This extremely significant advantage is due to the following facts:

As a result of their reaching up to the surface of the damping plate or their contact with the closure cover, which transmits shock waves well, any explosive charge will not - as in the case of the well-known protective device - Detonated by movable fuse needles, which only have a certain level when the projectile impacts Must travel distance before they come into operative connection with the assigned explosive charge, but un-

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indirectly through the shock wave pressure. This results in extremely short response times before they occur strong detonation shock waves that run into the projectile and through multiple reflection for a decomposition take care of the same in small fragments. Are the explosive charges - as already mentioned elsewhere - through Covered cover that conducts shock waves well, the destructive effect of this comes as a result of the favorable Ratio of lid mass to explosive mass of the impacting projectile at high speeds (for example 1 to 3 km / sec) thrown against the lid still added.

The fact that the explosive charges are housed in openings of a plate with good shock-absorbing properties are noticeable in two ways: on the one hand, there are excessive pressure loads from the base plate, which can consist of tough high-strength steel, aluminum or the like, kept away. On the other hand, this - even with small distances between the plate openings - in the event of a detonation an explosive charge that has been hit, avoiding the initiation of neighboring, unheated explosive charges especially when the damping plate in question, which can also serve as a neutron reflector, is in development According to the invention, adjacent zones of high shock wave absorption capacity between the plate openings and having different shock wave impedance and / or by extending between the plate openings Air gap is divided into a plurality of plate segments.

The openings in the damping plate intended for receiving the explosive charges can have any cross-section exhibit. However, squares are particularly recommended

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table or rectangular cross-sectional shapes, as these are available in equal distances between the panel openings result in larger surface coverings with explosives than others, Bring plate openings with rectangular cross-sections yet another advantage with it, namely when the explosive charges housed in them have sealing caps of the type mentioned are assigned. Such a rectangular closure cap becomes a striking one If the projectile is thrown in the opposite direction, it hits in the direction of the long sides of the lid in the event of an oblique projectile impact also the rear of the projectile to be defended, which is a particularly effective destruction of the latter Consequence.

In an embodiment of the invention, the explosive charges in the openings of the damping plate consist of explosives such as Tetryl, Hexogen, TNT, Oktogen, Nitropenta or their mixtures. To avoid accidental detonations it is recommended to check the initiation sensitivity of these explosives or explosive mixtures to shock wave pressures from 6 to 30 kilobars, i.e. to shock wave pressures such as those only on impact of projectiles, especially impact projectiles, occur on target objects. This can be done, for example, by phlegmatizing or by adding plastic binders, the latter measure being used to increase the initiation sensitivity also has the advantage of greater explosive strength »

According to a further feature of the invention, each explosive charge consists of at least two different layers Initiation sensitivity. The initiation sensitivity of these layers increases from layer to layer, starting from the base plate, while the power increases can decrease in the same direction. Such an

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Laying of the explosive charges is mainly a closure of the openings containing the explosive charges in the damping plate is advantageous because it prevents it from being thrown away the cap can now also be used such powerful explosives, which per se would not be considered because of their difficulty in initiating them.

In a further development of the invention, at least at the bottom of the plate openings containing the explosive charges, the with continuous plate openings of sections of the Base plate is formed, a barrier made of materials with good shock-absorbing properties such as Lead, polytetrafluoroethylene or the like. Such barriers prevent chipping effects from occurring on the base plate sections adjacent to the explosive charges, especially if they are in accordance with a Another feature of the invention of two or more layers of high shock wave absorption capacity and different Shock wave impedance exist. They also extend pot-shaped over the side walls the panel openings, the distances between the panel openings can be made particularly small, without the explosive charges housed in the latter interfering with each other.

Further details of the invention can be shown schematically in the drawings and below Examples of embodiments described in more detail are taken. Show it:

Fig. La a perpendicular to the plate normal section through an embodiment of protection device according to the invention along the section line Ia-Ia in Fig. Ib,

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Fig. Ib shows a section along the line Ib-Ib in Fig. La,

2a shows a perpendicular to the plate normal

Section through a modified embodiment of the protective device according to the invention along the section line Ha-IIa in Fig. 2b,

Fig. 2b shows a section along the section line Hb-IIb in Fig. 2a and

3 shows a further embodiment of the protective device according to the invention in cross section.

In the case of the protective device against projectiles, in particular balancing projectiles, according to FIGS. 1 a and 1 b is on a base plate 1, which consists for example of tough high-strength steel, a damping plate 2 attached, which between their circular openings designated by 3 adjacent zones 2a, 2b of high shock wave absorption capacity and different shock wave impedance, for example a zone of lead 2a between two zones Polytetrafluoroethylene 2b. In each of the openings 3 of the damping plate 2, each from the designated 6 surface of the damping plate 2 to Extending to the base plate 1, there is a shock wave barrier 4 lying against the base plate 1, which for example made of polytetrafluoroethylene or a similar plastic, and a disk-shaped Charge 5 of explosives with an initiation sensitivity from about 6 to 30 kbar shock wave pressure. These, for example, formed from plastic-bonded tetryl Explosive charges 5, which are adapted in terms of cross-section to the plate openings 3, each range from the impact

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wave barrier 4 to surface 6 of the damping plate 2o

In the protective device according to FIGS. 2a and 2b, a base plate 11, which is made, for example, of aluminum consists, a shock wave-absorbing plate 12 made of polytetrafluoroethylene or an equivalent material. In this embodiment by two shares intersecting air gaps 13, 14 broken down into segments 15 damping plate 12 in turn has a plurality of Openings 16 on. The latter (16) as well as the plate openings in Fig. La and Ib extend from the base plate 11 to the surface of the damping plate 12 designated by 18, but differ from those due to their rectangular cross-sectional shapes. In each of these rectangular plate openings 16 is between a three-layer shockwave barrier 17 and a closure cover 19 made of a shockwave that conducts well Metal an explosive charge composed of two layers 20, 21 of different initiation sensitivity clamped in such a way that the initiation-sensitive layer 20, which at the same time is also less powerful can be, directly adjoins the closure cover 19. Of the three layers 23, 24, 25 of the shock wave barrier 17, to which the more difficult to initiate layer 21 of the explosive charge 22 adjoins, consists of middle (24), for example, made of lead, while the other two layers 23, 25, for example, made of polytetrafluoroethylene are made.

In the case of the protective device against projectiles shown in FIG. 3, in particular balancing projectiles, the base plate denoted by 31 and the damping plate attached to it by 32. The damping plate 32 has in this embodiment to the base plate 31 closed openings 33, - each with a

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Explosive charge 34 fully filled pots 35 serving as a shock wave barrier are fitted. These are locked for example pots 35 made of a suitable metal by having the surface 36 of the damping plate 32 flush cover 37 "

Patent claims:

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Claims (1)

Messerschmitt-Bölkow-Blohm Ottobrunn, October 23, 1970 Society with 7130 limited liability ZVP3 Jk / sch Munich Claims (l.J protection device against projectiles, especially balancing projectiles, with a base plate, characterized in that on the base plate (1, 11, 31) a plate made of materials with good shock wave absorbing properties (damping plate 2, 12, 32) is attached with a plurality of openings (3, 16, 33) distributed over the plate surface and each Plate opening (3, 16, 33) is filled with an explosive charge (5, 22, 34) which extends to the surface (6) the damping plate (2) or up to a shock wave well transmitting closure cover (19, 37) for the Plate opening (16, 33) reached 2. Protection device according to claim 1, characterized in that the particular Base plate (1, 11) made of tough, high-strength steel or aluminum, attached damping plate (2, 12) Zones (2a, 2b) adjacent to one another between the plate openings (3) have a high shock wave absorption capacity and having different shock wave impedance and / or by between the plate openings (16) Air gaps (13, 14) is divided into a plurality of plate segments (15). 3. Protection device according to claim 1 and 2, characterized in that the explosive charges (5, 22, 34) in the openings (3, 16, 33) of the damping -11- 609885/0001 plates (2, 12, 32) made of explosives such as tetryl, .Hexogen, TNT, Oktogen, Nitropenta or their mixtures exist and the initiation sensitivity of the explosives or explosive mixtures by phlegmatizing, Adding plastic binders or the like to shock wave pressures of about 6 to 30 kbar is increased. 4. Protection device according to claim 1 to 3, characterized in that the explosive charges (22) in the openings (16) of the damping plate (12) from at least two layers (21, 22) of different initiation sensitivity are built up and the initiation sensitivity of the base plate (11) starting from Explosive charge layer (21) to explosive charge layer (20) increases, while the power decreases in the same direction. 5ο protective device according to one or more of the claims 1 to 4, characterized in that at least on the base of the explosive charges (5, 22, 34) containing plate openings (3, 16, 33), the continuous plate openings (3, 16) of sections the base plate (1, 11) is formed, a barrier (4, 17, 35) made of materials with good shock-absorbing properties Properties such as lead, polytetrafluoroethylene or the like is established. Protective device according to Claim 5, characterized in that the shock wave barrier (17) each of two or more layers (23, 24, 25) of high shock wave absorption capacity and different Shock wave impedance is built up. -12- 809885/0001 7. Protection device according to claim 5 or 6, characterized characterized in that the shock wave barrier is more form-fitting than the plate opening (33) Pot (35) is formed which receives the explosive charge (34). 609885/0001 Empty soap