DE1916127A1 - mine - Google Patents

Description

PATENT LAWYERS ·.

.DR.-ING. H. FINCK6 8 Munich 5 March 28, 1969

DIPL.-ING. H. BOHR Müllerstrasse 31

OtPL-ING. S. STAEGiR

Applicant: TEKNAB - Teknisk Exploatering och Investering Aktiebolag, Storgatan 50, Halmstad, Sweden.

PRIORITY: May 15, 1968 - SWEDEN

mine

The present invention aims to create a mine, which are characterized by, among other things, low weight and low manufacturing costs and at the same time has great resistance to stresses occurring, in particular against the shock and pressure waves, which a mine can be exposed if nearby mines are in «Detonate a minefield» The invention means that you can rely on conventional mine technology in several essential points differs, and it is essentially characterized by that the mine has at least two separate, interrelated Connected parts tjmfasst, each of which is server-rushing for itself and which consist of an explosive charge container and a float. According to a particularly expedient embodiment Flexible, shock-absorbing intermediate layers are provided between the individual parts. The explosive charge container is preferably attached between two buoyancy bodies, the latter in a particularly useful one Execution made of cellular plastic and have the shape of disc-like lamellae placed one on top of the other. According to of the invention are the individual parts that make up the mine

909.886 / 01'30- original inspected

is built, separated what server urgently or from water ^ tnnO ' * - I flowed, which means that each part for itself at least a substantial part of what affects it

Absorbs water pressure. The design is also such that the individual parts of the mine have a certain elasticity in relation to each other, and in relation to the floats also in themselves, so that they have excellent capacities to absorb shock loads. When a mine is in detonates in the neighborhood, the resulting shock wave will be distributed over a larger surface and thus be dampened so that the mine is not damaged.

The invention is described below with reference to a are described in more detail in the accompanying drawing in vertical section as an example embodiment =

According to the figure, the mine consists of three main parts, namely an explosive charge container 10 and two buoyancy bodies 12, m Connecting members IS ₅ 20 has for lifting the mine or its anchoring and is connected by means of screw connections 22 to plates 24 »26, by means of which the various parts of the mine are held together to form a unit. According to the invention, the explosive charge container 10 essentially only needs to have the space required to accommodate the intended amount of explosives _9, which is why its housing, which is suitably made of brass or other non-magnetic material, can be kept relatively thin. ?. The buoyancy clipper 12 ₉ "IM · are composed 4 # blades 28, which are in turn from Zellkunst' fabric with relatively large compressive strength out-v leads the plastic, polyvinyl chloride preferably -.. ₉ has a density of ^ O kg / m and more, up to 500 kg / m% depending on the requirements for compressive strength

2

be at least 3-3.5 kg / cm and can be up to 20-50 kg / cm, depending on the water depth in which the mine is to be located. The lower float IH has a smaller volume than the upper float 12, so that the mine always assumes the same position in the water. As is evident, the explosive charge container 10 has a greater specific weight

909885/0230 _ _Ö1A

ORIGINAL INSPECTED

than the displaced water. Both sides of the explosive charge ■ .halter 10 are opposite to the cellular plastic bodies membranes or layers 30, 32 made of flexible material, such as rubber, Similar intermediate layers can be provided between the end plates 2M- ", 26 and the adjacent slats 28 be. These intermediate layers give the mine parts a certain degree of freedom of movement to one another under the influence of those that occur Stresses, especially those with a bumpy character.

From the above it follows that the mine after the Invention does not have a common housing, on the one hand the explosive charge and on the other hand the air space, which the mine necessary buoyancy is to enclose. As a result, the mine according to the invention is considerable becomes lighter than conventional designs. The explosive charge container 10 need only be dimensioned for sufficient handling strength. As the amount of metal has been significantly reduced in the mine by the invention, it can be done with relatively little material expenditure can be made completely non-magnetic.

The tube 16 can also be used to accommodate detonator, Firing device and the like, in front of a mine. seeing elements are exploited.

The invention is of course not limited to that shown Embodiment limited, but can be in the broadest sense within the framework of its basis modify the underlying guiding principle. The buoyancy bodies 12, IM can be provided with a protective cover, which is then not is dimensioned in such a way that it is the only compressive stress has to endure, rather only in such a way that these stresses are essentially absorbed by the plastic will. Such a schuta cover does not need to be watertight be.

Claims (1)

Claims 1, Mine, marked by the fact that it rejects comprises at least two separate, interconnected parts, each of which is water-displacing itself and which consists of The cargo container (10) and the float (12, 14) are made 2, mine according to claim 1, characterized in that the number of AuftrieDskörper (12, 14-) predominates, 3, mine according to claim 1 or 2, characterized in that g e k e η η - ζ e i c h η e ts that between its parts (12, 10, 14) flexible intermediate layers (3D,: '; 3 2) with s toss absorbing !, juices pickled sina, 4, mine according to claims 1 ^ 3, thereby g e k e η η - ζ eich, η e ΐ that the-. Explosive charge body? "(10) _{is attached between zv / egg floats (12 '5} 14). 5, ... Mine according to one of the previous claims, also by g e k e η η Z e i c h η e t that aer floats or the floats (12, 14) consist of cellular plastic. 6, mine according to claim 3, characterized in that ... that the buoyancy body ^{1 is} composed of a large number of lamellas (28) lying next to one another, preferably in Seheibenlorrn. 7. Mine after one of the Voransfrüche, thereby g e k e η η be c -Ji; η e t that the parts by means of a central through " they are connected to one another through ^ .guided tube (16). D! FL.-i:; G - 9 0 9 8 8 5/0 2 3 nights