CH382036A - Land mine, especially anti-tank mine - Google Patents

Description

Landmine, in particular tank mine The invention relates to a landmine, in particular tank mine, with an upper part and a lower part which can be displaced relative to one another and in which the relative movement between the upper and lower part triggers the ignition mechanism.

It is the object of the present invention to create a mine which, while being light in weight and operating with absolute reliability, guarantees a particularly high explosive effect.

According to the invention, the solution to this problem is seen in the fact that both the upper and the lower part of the mine are made from a compact explosive compact and an air cushion enclosed in a preferably ring-shaped hose element is inserted between the upper and lower part.

Through the use of a compact explosive body as a component for both the upper and lower part of the mine, all the components previously required for the structure of the mine body, e.g. B. made of metal or plastic save completely. This results in an extremely simple and light construction of the mine, or with the same mine weight due to the absence of any ballast, a significantly greater explosive effect.

So that the two parts of the mine, which are made of explosives and are therefore particularly explosive, cannot collide directly and thereby jeopardize the operational safety of the mine, an air cushion enclosed in a hose element is inserted between the upper and lower parts of the mine. Due to its spring characteristics, this air cushion is particularly suitable for dampening any short-term strong pressure peaks that may occur, e.g. B. caused by detonation waves, which emanate from explosive devices detonated in the vicinity. By changing the filling pressure of the hose element, the characteristics of the suspension can be adapted to the respective requirements.

The invention is explained in more detail below with the aid of an exemplary embodiment, which can be seen from the drawing, specifically in FIGS. 1 shows a longitudinal section of a landmine designed according to the invention, and FIG. 2 shows a top view of the landmine according to FIG. Both the upper part 1 and the lower part 2 are made of a weather-resistant stable explosive block, e.g. B. made of a thermoplastic explosive such as Holtex. The disc-shaped RTI ID="0001.0266" WI="14" HE="4" LX="1519"LY="1852"> lower part 2 of the mine has a cylindrical cavity 3, in which the upper part 1 of the mine is inserted like a piston and here is slidably guided. The outer diameter of the upper part 1 is considerably smaller than the lower part 2, specifically in the exemplary embodiment shown it is approximately half the size of the lower part. When a tank drives into the mine, it is therefore only ignited after the tank has already fully driven into the lower part 2 of explosives, as a result of which a greater explosive and destructive effect is exerted on the tracked chassis of the tank.

A closing ring 4 is provided on the upper end face of the lower part 2 of the refill, which secures the upper part 1 against sliding out of the guide of the lower part 2 . This ring 4 is also designed as a weatherproof explosive compact. After inserting the upper part 1, the ring 4 z. B. with the help of an adhesive with the explosive lower part 2 connected. In order to prevent the upper part 1 from jamming in the cavity 3 of the lower part 2 when the refill is eccentrically loaded, the upper part is of spherical design on the jacket guide surface 5 .

An annular hose element 6, for example made of rubber, is arranged in the interior space remaining in the cavity 3 between the upper and lower part of the lead, which forms a resilient cushion between the upper and lower part of the lead due to the air enclosed therein. The hose element 6 is provided with an overpressure valve 7 via which the air can escape from the hose element after the set maximum pressure has been exceeded. The overpressure valve 7 is set depending on the required resilience of the mine.

The sliding upper part 1 is provided with a central bore in which the ignition device 8 of the mine is screwed. According to another proposal by the applicant, this ignition device essentially consists of the ignition housing 9, a clamping sleeve 10 with built-in firing pin 11 and firing pin spring 12, and a safety sleeve 13 for locking the firing pin. The primer 14 is accommodated in the firing pin 11 itself, while the safety sleeve 13 serves as a holder for the firing pin 15. The detonator cap 16 is located at the lower end of the clamping sleeve 10. Between the clamping sleeve 10 and the detonator housing 9 there is also a shear-off fuse 17. All parts of the igniter are made of a plastic that is adapted to the respective requirements, so that the mine is largely protected against detection by search devices. The mine is ignited by pushing the collet 10 into the detonator housing 9 while pressing down the upper part 1.

In order to seal off the interior of the mine from the outside, a sealing ring 18 is also fitted between the upper part 1 and the lower part 2 . A carrying handle 19, e.g. B. made of elastic plastic, arranged on the outer surface of the lower part of the mine. So that this carrying handle does not impede stacking of the mines, holes 20 are provided in the lower part of the explosive, into which the legs of the carrying handle can be inserted.

The mode of operation of the proposed mine is as follows: If the mine is loaded by pressure acting on the upper part 1, the air cushion in the tube element 6 is first compressed. Here, the upper part 1 begins to migrate down. If the load on the refill is below the value set at valve 7, the upper part 1 will only move downwards until equilibrium with the air cushion is established. Premature detonation of the mine is prevented by the play between the lower igniter end face 21 and the support surface 22 of the lower part 2 of the mine. If, on the other hand, the load on the mine exceeds, e.g. B. when driving a tank, the value set at the valve 7, the valve opens and the air can escape to the hose element 6. A further relative movement between the upper and lower parts of the mine takes place here, so that the fuze front surface 21 should lie on the support surface 22 of the lower part. If the upper part 1 is pressed down further, after the shearing safety device 17 has broken, the clamping sleeve 10 is pushed into the igniter housing 9, as a result of which the firing pin spring 12, which is not tensioned, is initially tensioned. At the same time, the stilts 23 of the safety sleeve 13 are spread apart by running onto inclined surfaces 24 of the clamping sleeve 10 until the firing pin 11 is released and the firing cap 14 shoots forward against the firing needle 15 . As a result, the primer 14 and the primer 16 are ignited so that the mine detonates.

Claims (4)

PATENT CLAIM Land mine, in particular anti-tank mine, with an upper part and a lower part which are guided in a mutually displaceable manner and in which the relative movement between the upper part and the lower part triggers the ignition mechanism, characterized in that both the upper and the The lower part (1, 2) of the mine is made from a compact explosive pellet and an air cushion enclosed in a hose element (6) is inserted between the upper and lower part. SUB-CLAIMS 1. Landmine according to claim, characterized in that the hose element (6) is equipped with an overpressure valve (7). 2. Landmine according to patent claim and dependent claim 1, characterized in that the upper part (1) is smaller in outer diameter than the lower part (2) and is guided like a piston in a cylindrical cavity (3) of the lower part. 3. Landmine according to claim and subclaims 1 and 2, characterized in that the upper part (1) is secured against sliding out of the Guide of the lower part is secured. 4. Land mine according to the patent claim and the subclaims 1 to 3, characterized in that the mine upper part (1) is crowned on the jacket guide surface (5).