DE3719909C1 - Anti-armour mine - Google Patents

Abstract

The invention relates to an anti-armour mine according to the precharacterising clause of Claim 1, the method of operation of which mine can be matched automatically or manually to the respective target to be engaged, by detonation guidance by means of a sensor device. An exemplary embodiment is explained and is sketched in a drawing.

Description

The invention relates to an anti-tank mine with single and double occupancy in the form of a flat charge mine according to the genus handle of claim 1.

Such anti-tank mines are by DE-PS 23 06 423, US-PS 40 58 060 and US-PS 42 05 609 known. In these publications discloses that part of the ignition chain always by the Gravity is shifted so that either one of two is possible Ignition paths are blocked or the ignition point of the explosive charge in one area favorable for the effect of the upper flat charge is relocated. In these known devices it is only possible that a Mine is switchable to different directions.

The present invention is based on the object of in particular a flat charge mine - of the type mentioned at the beginning create that is adaptable in its mode of action to the respective goal to significantly increase the performance of flat mines.

This task is accomplished by the measures listed in claim 1 solved. In the subclaims are training and refinements specified. The following description explains one embodiment game that is sketched in the figure of the drawing.

This figure shows a cross section in a schematic representation.

There are two problems with the use of flat charge mines:
When used against armored vehicles, in particular with additional armor plate protection, it is necessary to increase the penetration capacity of the flat charge very strongly, which is also particularly advantageous if demining means are used. In contrast, for lightly armored vehicles that do not have such large armor protection, the original effect, which has a lower penetration depth performance, is advantageous, since the lower penetration depth performance, however, results in a larger crater volume and a stronger effect inside the target. As already mentioned, this effect is not sufficient in modern main battle tanks and the corresponding mine concepts are therefore largely ineffective. This is remedied by creating the possibility of switching over and using the ignition system as a detonation wave guide and ensuring a much stronger breakdown performance. The additional measures for mine clearance that are still specified will result in a significant increase in the effectiveness of the mines.

The figure of the drawing shows a one-sided lead 10 , which, however, can easily be extended to a double-sided lead. The flat charge with the explosive charge 11 sits in a housing 12 in which the ignition device 16 , the safety device 15 and the sensors 20 are housed in a flat cylindrical housing 14 . By installing a preferably pyrotechnically operated slide 18 a , 18 b in the side facing or facing 13 the slide 18 a or 18 b used , which is designed as a so-called insulating plate made of plastic or metal, prevents the detonation wave from the squib 16 and the booster charge 19 is forwarded to the actual explosive charge 11 at the respectively blocked initiation point. The slider 18 a , 18 b thus have a wall thickness and such a high insulation factor that the detonation pressure is no longer able to initiate the explosive charge 11 .

It is now possible either to actuate such a slide 18 a or 18 b already when it is fired from the outside, provided the target spectrum for the intended use is known, or after the mine 10 has come to rest on the ground by means of a seismic sensor 20 , which senses the earth pollution and switches the respective pyrotechnic force element 17 and controls the detonation initiation of the explosive charge 11 .

If the mine 10 should preferably act against main battle tanks, the slide 18 a attached to the lining 13 opposite side is actuated. If the optimal effect is to be achieved against lightly or not at all armored vehicles, then the slide 18 a is acti vated, which is arranged on the side facing the lining 13 .

A further improvement is a refined sensor intelligence, in which the seismic and magnetic sensors 20 can be used to distinguish whether lightly or heavily armored vehicles are approaching. It is only when the mine 10 is rolled over that a decision is made as to how we should use it, that is to say that a battle tank is inferred by increased distortion of the magnetic field and by a higher vibration, while a smaller armored vehicle is indicated when the magnetic field changes and the seismic deflection is smaller.

Thus, simple measures, such as the installation of additional sleepers in the ignition system, make it possible to determine the position of the mine 10 on the ground and to install pyro technically operated slides 18 a or 18 b or insulating walls, to greatly increase the performance of the mine and to easily adapt it to the target requirements.

Claims (5)

1. antitank mine with single or double occupancy in the form of a flat charge mine which is detonated by sensor signals and shot from below against the ground or the chain of the vehicle to be combated, sliders being installed in the ignition system and in the pyrotechnic chain, according to a Release are moved and the mine switch to different directions of action, characterized in that to differentiate different target types and target hardness the central ignition system ( 14-20 ) a magnetic and a seismic cal sensor ( 20 ) with different threshold values are assigned, the signal of which the slide ( 18 a , 18 b) , which are dimensioned in wall thickness and insulation factor so that the resulting ignition detonation pressure in ge blocked slide position does not initiate the explosive charge ( 11 ), is moved accordingly by a pyrotechnic or mechanical force element ( 17 ) and so the Mine in its mode of action or on various controls their target configurations, the ignition and security element ( 15, 16, 19 ) being used as an inert body for the detonation wave steering. 2. anti-tank mine according to claim 1, characterized in that pulling or pushing force elements ( 17 ) or the gravitational field with the seismic sensor ( 20 ) are used to actuate the slide ( 18 a , 18 b) . 3. anti-tank mine according to claim 1 or 2, characterized in that the mine ( 10 ) is already adjustable before firing on the target spectrum by manual actuation of the or the slide ( 18 a , 18 b) . 4. anti-tank mine according to claims 1 to 3, characterized in that a switchability of the slide ( 18 a , 18 b) is installed in both one-sided and double-sided mines ( 10 ). 5. anti-tank mine according to claims 1 to 4, characterized in that the seismic and the magnetic sensor ( 20 ) at the moment of rolling over the mine ( 10 ) set the appropriate effect set and activate the ignition system.