DE3808109A1 - Seabed mine - Google Patents

Abstract

A seabed mine having good resistance to mine hunting has as the explosive charge (5) a high-power liquid explosive with which a plastic or rubber sack (4) is filled, the said sack being impermeable to water. <IMAGE>

Description

The invention relates to a lake bottom mine with a Place explosive charge spreading in a flexible container.

Such a lake mine is already known (DE-OS 26 47 435). The Explosive charge consists of a pile of water-insoluble Pieces of explosives held together by a net. That I this known mine has spread this pile on the seabed improved mine hunting security, but it does have some decisive disadvantages. So come as explosives for seabed mines preferably explosives, the hexogen or octogen, Aluminum, ammonium perchlorate and a plastic binder or TNT as Contain binders. Part of these components, for example Aluminum and ammonium perchlorate, however, are exceptional sensitive to water. That means that for the well-known lake bottom mine Today's best underwater explosive charges are not used. In addition, there is no heap of explosive charges in the water safe detonation guaranteed. Furthermore, an explosive, which is held together by such a network, a solid explosive be, at least have a certain strength, with the result that the acoustic impedance of the explosive charge differs from that of the water, which affects mine safety.

The object of the invention is therefore a simple, safe detonating lake bottom mine high mine safety with one Provide explosive charge of high performance.

According to the invention, this is achieved by the measures specified in claim 1 reached. Advantageous embodiments of the Invention marked.  

In the sea bottom mine according to the invention is therefore a container for the Explosive charge a waterproof bag made of an elastic Provided material in which a liquid explosive is filled. In the liquid explosive can be a solid explosive or a Explosives component, e.g. B. a metal powder, such as aluminum powder, be dispersed.

The plastic or rubber bag filled with liquid explosives ensures that the lake bottom mine according to the invention a relatively flat Increase without sharp contours at the installation site, being in undulating terrain they settle mainly in the valleys and therefore still will be less recognizable.

The plastic or rubber bag of the sea bed mine according to the invention need not be smooth, but can also z. B. by Grooves be structured, e.g. B. with rings built into the sack a distance of 5 to 30 cm. However, the sack can also be single or have a large number of indentations and bulges, one more so to result in more broken structure, whereby sand or Soil morass can deposit in the indentations and thus the Sea bottom mine even less than a smooth or groove-shaped one Subdivision of the sack can be recognized. The bulges of the sack are by using a liquid explosive charge with Explosives fully filled. The sack of the sea bed mine according to the invention can be embedded or attached to the surface of the bag or ropes pulled over it, or also through an embedded one or over it drawn network be stiffened. The ropes or the net that go into the Sack matrix can be embedded or placed over the sack high-strength fibers made of glass, nylon, Kevlar or steel, where thin steel cables do not produce a significant echo sounder.

The sensors, including the ignition electronics and the battery, are taking off only a relatively small volume compared to the explosive charge. That is, even if these assemblies are in a metal case the lake bottom mine according to the invention nevertheless difficult to detect and  identifiable. However, at least part of it is preferred Assemblies arranged in a corresponding plastic housing or in cast a plastic matrix, which is a significantly lower Sound wave impedance to water and so less good can be discovered. Furthermore, such a small housing can be simply cover with sound and shock wave damping materials and shield against the discovery by sonar. The liquid Explosives can also be kept separate from the sack and only in the If necessary, be introduced.

Can be used as a liquid explosive in the sea bed mine according to the invention any conventional liquid explosives can be used. To include nitric acid esters, such as nitroglycerin, nitroglycol, Diglycol dinitrate, triglycol dinitrate or butanetriol trinitrate, further Nitromethane, optionally with aluminum powder (pyro-cut); liquid Oxygen carrier (highly concentrated nitric acid, nitrogen tetroxide, Tetranitromethane) mixed with carbon carriers (benzene, toluene and their nitro derivatives or gasoline) Dimethyltetrazine / ammonium nitrate mixture (Astrolite) as well as sludge-like Ammonium nitrate explosives (slurries).

Even if larger pieces of explosive (e.g. from hexogen or octogen) are dispersed for optimal Obtaining underwater explosive charge is with the invention Sea bottom mine ensured the ability to detonate. About that furthermore, the one used in the sea bottom mine according to the invention liquid explosive charge essentially the same acoustic impedance like water on it, so that the mine by sonar practically no longer is detectable, especially since the explosive charge at the installation site is easy can spread.

Below is an embodiment of the sea bed mine of the present invention explained in more detail with reference to the drawing, the only figure schematically shows a section through a lake mine.  

Thereafter, a sea mine is deposited on the seabed 1 , which essentially consists of a large explosive charge part 2 and a small sensor part 3 . The explosive charge part 2 has a sack 4 made of rubber or a plastic film, which is filled with an explosive charge 5 made of liquid explosive. The sensor part 3 contains the sensors, including the ignition electronics and the battery, in a housing 6 . The explosive charge part 2 , which almost completely determines the volume of the sea bed mine, ie the sack 4 filled with the explosive charge 5 , forms a flat, barely detectable structure on the seabed 1 . In order to allow the deposit of sand or mud on the top of the sack 4 and thus make the bottom of the lake even more difficult to detect, the sack 4 is provided with indentations 7 and bulges 8 .

Claims (5)

1. sea mine with a explosive charge spreading at the installation site in a flexible container, characterized in that the explosive charge ( 5 ) consists at least partially of liquid explosive and the flexible container is designed as a water-impermeable sack ( 4 ). 2. sea mine according to claim 1, characterized in that the sack ( 4 ) indentations and bulges ( 7 and 8 ). 3. sea mine according to claim 1 or 2, characterized in that the sack ( 4 ) has stiffeners. 4. sea mine according to one of claims 1 to 3, characterized in that the sensor system ( 3 ) is arranged in a plastic housing ( 6 ). 5. sea mine according to one of the preceding claims, characterized in that the explosive charge ( 5 ) is a dispersion of a solid explosive and / or solid explosive components in the liquid explosive.