DE1578100B - Shaped charge for landmines - Google Patents

Description

is, where Q ₁ (g / cm ³ ) is the explosive density _{and ρ 2} (g / cm ³ ) is the density of the insert material and the opening angle of the shaped charge insert (2) is about 90 °, and that the tip of the conical shaped charge insert (2) flattened or cut off and replaced by a cone (4) made of inert material, primarily plastic, e.g. B. polyethylene is replaced.

2. Hollow charge according to claim 1, characterized in that, assuming an explosive density, for example of Hexotol 60/40, of about 1.7 (g / cm ³ ) and a density of the insert material, for example a copper or zinc alloy, of about 5, 0 (g / cm ³ ) the ratio of the wall thicknesses is about 9: 1.

3. Hollow charge according to claims 1 and 2, characterized in that the explosive filling (3) is hemispherical to parabolic in connection with the cylindrical head part towards the shaped charge base, wherein the center of the hemisphere lies approximately in the tip of the shaped charge insert cone.

4. Hollow charge according to claims 1 to 3, characterized in that the hollow charge housing (1) at the lower end with a centric arranged, cylindrical threaded connector (7) for receiving the transfer charge (8) or is provided for fastening a bell screw connection (9), which in turn is an ignition device (11) and a pilot jet focusing device (10).

5. Hollow charge according to claims 1 to 4, characterized in that for attaching the The shaped charge insert (2) in the housing (1) is a hollow charge insert inserted into the housing (1) from the front (2) centrally supporting ring (5) is used, whose directed towards the explosive filling (3) Wall (6) runs approximately at right angles to the conical wall of the insert (2).

The invention relates to a shaped charge for landmines with a shaped charge insert in the area of a metallic shaped charge cylindrical explosive coating, which is placed against the transfer charge arranged on the bottom of the shaped charge Dome-shaped runs out, and with an upwardly directed shaped charge effect, to combat from moving targets with limited ground armor.

In addition to mines that can be laid in the roadway or the terrain and from a large load of explosives exist with which they can move targets such. B. vehicles, by explosive and / or fragmentation effects damage from below or from the side,

ίο where, in the case of armored vehicles, the damage usually only sufficient to make the vehicle immobile, mines are also known that the ground armor penetrate by means of a shaped charge. Among other things, there is also a land mine above-directed shaped charge known that the vehicle rolling over it from a certain depth fought, wherein the cover layer over the shaped charge before the ignition of the shaped charge itself, d. H. before they take effect, blown away by a propellant attached to the top of the mine will.

In the case of a shaped charge mine of the type mentioned above, a large one is required to achieve the desired effect Amount of explosives required. The mine is not only heavy, unwieldy and expensive, it is also conditional with concealed laying there is also a lot of digging that is difficult to camouflage.

In contrast, the shaped charge mine according to the invention is a light land mine, whose task is to provide limited ground armor in a vehicle rolling over it with hollow charge projectiles of the usual type not only to create a hole in the armor, but also the to give a shaped charge insert deformed into a plunger so much energy that this plunger is behind the armor still causes explosive and incendiary effects even at a greater distance. The special task the invention is thus to be seen in the design of the shaped charge so that it can be operated with a minimum of effort when ignited a thin, sharply bundled and closed one even at a greater distance Generates high energy mass jet.

According to the invention it is proposed for this purpose to design the shaped charge so that in one of the cylinders Cross-sections of the shaped charge represent the ratio of the radial strength of the effective explosive occupancy is approximately constant to the wall thickness of the conical shaped charge insert and is 3 · -, where

Si

Qi (g / cm ³ ) is the _{density of explosives and ρ 2} (g / cm ³ ) is the density of the insert material and the opening angle of the shaped charge insert is about 90 ° and that the tip of the conical shaped charge insert - flattened or cut off and replaced by a cone made of inert material , mainly plastic, e.g. B. polyethylene is replaced.

In this case, the shaped charge can next to the cylindrical head part against the shaped charge base towards hemispherical to parabolic, with the center of the hemisphere approximately in the Tip of the shaped charge insert cone lies.

A land mine with a shaped charge according to the invention not only ensures good penetration performance of the plunger generated during ignition with a small distance between the shaped charge and the armor, but is also at a greater effective distance, e.g. B. up to a distance of 0.3 m and more fully effective. The vertically after

However, upstream beam creates not only a melt hole through the ground armor, but creates a fire behind or above this and breaks through or melts through at a distance metallic targets placed by armor; d. that is, it also penetrates one behind the armor arranged partition.

Details of the invention can be found in the description of an exemplary embodiment shown in the drawing emerged.

The drawing illustrates in a longitudinal section the basic charge structure of a rotationally symmetrical shaped charge according to the invention.

To achieve internal, a high ram effectiveness is aimed for. This is partly due to the strength of the Explosive filling 3 in relation to the shaped charge insert, on the other hand by the opening angle er-5 suffices. The limit is the angle at which no more jet arises, but the deformed insert flies away as a whole. As already mentioned, this results with the proposed insert material and the explosives used, an optimal ίο occupancy ratio of 1: 9.

Model tests with the mine structure described have shown, for example, with a charge caliber of 56 mm and a blast distance in Size of five times the diameter of insert 2,

In a downward approximately hemispherical up to 15 that is 220 mm, with a 20 mm armor steel plate, parabolically tapering shaped charge housing 1 is a bullet diameter of 9 mm, a gap between a conical shaped charge insert 2 and a bullet diameter of 9 mm and a flaking plate is the jacket of the shaped charge case 1 a 20 mm diameter blast. One provided at a distance from fabric filling 3. The shaped charge insert 2, 800 mm erected, 2 mm dural plate showed a one made of a known, for shaped charge bullet hole 100 × 80 mm. A second 2 mm zinc alloy or the like, set up in a layer of commonly used material such as copper, further spacing 1600 mm, increases in the dural plate and shows punctures with a wall thickness of 3 to 5 mm from the edge towards the center . Diameter in a field of 200 x 150 mm. On the basis of the above "" according to the invention, the distance from the shaped charge is increased from the five-fold relationship and assuming 25 times the insert diameter to seven times the use of an insert material with a density of 5 insert diameter, ie to 308 mm, so (g / cm ³ ) and of an explosive with a density of 1.7 (g / cm ³ ), the 20 mm armored steel plate shows a bullet. B. Hexotol 60/40, has an optimal ratio of diameter of 8 mm and a scrap diameter of the strength of the effective explosive filling to the knife of 10 mmj, but without flaking. The wall thickness of the shaped charge insert 2 in this area results in a first 2 mm dural plate at a distance of 800 mm from approximately 9: 1. With other deposits - behind the armor plate shows a bullet material or modified explosives result in a diameter of 100 mm. The second 2 mm dural, of course, different proportions. plate, 1600 mm behind the first one, shows punctures

The opening angle of the shaped charge insert 2 is 3 to 5 mm in diameter on a field about 90 °. The cone angle to the explosive filling is 3 35 220 x 120 mm.

out is accordingly more pointed, z. B. 82 °. A rear one brings under the last mentioned experimental

The tip of the insert 2 can be cut off and, by conditions, in the middle between the 20 mm Cone 4 made of inert material, e.g. B. from poly armor plate and the first dural plate ammunition, ethylene, be replaced. The shaped charge insert 2 is so suddenly burned off or detached a ring 5 placed centrally in the shaped charge housing 1 40 nation, depending on whether the projectiles or held and fastened. One to the explosive filling 3 the propellant charge cases are hit by the jet.

In both cases, the dural plate placed behind it was also through parts of the pestle as well as through splinters of the ammunition 45 hit.

In another attempt, the ammunition was placed between the 20-mm armor plate and the first Dural plate arranged with cleaning wool soaked in diesel oil. When the shot was fired, there was an open fire as well

For example, from a compressed tablet made of Nitro-50, the already mentioned penetration performance in the penta. A bell-shaped screw connection 9 of the second dural plate.

Spigot 7 is okussie with a centric pilot jet focus- The above comparison of the combat-

tion 10, whose central axis shows in the symmetry distances of 220 and 308 mm that the axis of the shaped charge housing 1 and the differences in effect are only insignificant. always carrying charge 8 lies. Before the focusing device 55 is a sufficiently large hole in a conventional 10 an electric detonator capsule 11 is arranged. Ground armor generated. Inside the vehicle The design described above is also explosive and incendiary Hollow charge 3 and its insert 2 has the consequence, effect and a certain breakdown effect erdaß during the ignition, a large part of the insert 2, which for example also contains ammunition containers, deformed to a particularly high-energy plunger 60 canister walls and the like punctures or becomes therein. Only a relatively stored good is created from the insert, exposed and ignited, if necessary short, thick shaped charge jet. This shaped charge also detonates. The vehicle hit ray creates a hole in the armor and is therefore not only dynamic, but also complete incapacitates the ram without significant energy loss behind. The operating staff is to the end Armoring, namely get into the vehicle interior. 65 is forced to climb and the vehicle is in the However, a shaped charge jet designed in this way retains burnout in most cases.

its effectiveness at different distances. The described strength of the explosive filling 3

To a great destructive effect in the armor of for example nine times the deposits

adjoining wall 6 this serving as a basic damming, z. B. made of aluminum ring 5 runs approximately at right angles to the outer wall of the insert cone 2.

At its lower part, the housing jacket 1 ends in a threaded connector 7 in which the explosive filling 3 upstream, a transfer charge 8 is held. This transfer charge consists of

Wall thickness represents the optimum in the effect with a minimum of shaped charge dimensions and Sprengstoffverbrajich if given as an example Materials are used. An extension of the explosives container to the rear or below, e.g. B. in the form of a cylinder, does not produce any

significant changes in the charge effect

or the explosive and fire effects of the, plunger. A shaped charge with such a structure is suitable for installation in a corresponding mine system.

1 sheet of drawings

Claims (1)

Patent claims: 1. Shaped charge for landmines with one in the area of a metallic shaped charge insert cylindrical explosive coating, which expires in the shape of a dome against the transfer charge arranged on the shaped charge base, and with after above-directed shaped charge effect to combat moving targets with limited Ground armor, characterized that in one of the cylindrical cross-sections of the shaped charge the ratio of the radial strength of the effective explosive charge (3) is approximately constant to the wall thickness of the conical shaped charge insert (2) and 3