RU2613988C1 - Protection device - Google Patents

Abstract

FIELD: military equipment.

SUBSTANCE: protection device comprises a balloon system, ropes holding them at a height of 120-150 m, a thin capron net disposed between balloons, light antipersonnel fragmentation mine in the interstice capron net. The capron net is impregnated with an ablative composition. The grid sizes are selected so that the proportion of the grid area to the total net area equals in average to 0.4. Balloons are impregnated with an ablative composition.

EFFECT: increase protection effectiveness via impregnating balloons with an ablative composition.

1 dwg

Description

The invention relates to the field of military science, which is concerned with ensuring the survivability of troops and objects, and can be used to protect particularly important objects from both air attack weapons (IW) of the enemy, and from the main attacking factors (PF) of nuclear weapons.

A device is known that contains balloons held by cables at a given height, a nylon network between the cables and anti-personnel mines installed in the internodes of the nylon net [1].

The disadvantage of this device is that it is ineffective in attenuating the main PF of a nuclear explosive, such as an air shock wave (VVV) and light radiation (SI).

Closest to the claimed device is a protection device containing a system of balloons, cables that hold them at a height of 120-150 m, a thin nylon net located between the balloons, light anti-personnel fragmentation mines in the internodes of the mesh, characterized in that the nylon mesh is impregnated with an ablating composition, and the sizes of the mesh cells are selected in such a way that the ratio of their area to the total area of the mesh is on average 0.4 [4].

The disadvantage of this prototype is the lowered effectiveness of the protection, due to the fact that the impregnation of the nylon mesh with an ablative composition leads to both the protection of the object and the nylon mesh itself from exposure to light radiation (SI), while balloons without such impregnation can be affected by light radiation. This will increase the likelihood of damage to the protected object.

The required technical result of the present invention is to reduce the likelihood of damage to the protected object from both the enemy’s IOS and the main PF nuclear weapons.

The technical result is achieved by the fact that in the protection device containing a system of balloons, cables holding them at an altitude of 120-150 m, a thin nylon network located between the balloons, light anti-personnel fragmentation mines in the internodes of the mesh, while the nylon mesh is impregnated with an ablating composition, and the sizes of the mesh cells are selected in such a way that the ratio of their area to the total area of the mesh is on average 0.4, and additionally the balloons are impregnated with an ablating composition.

As follows from the materials presented in [2], ablative coatings have very low thermal conductivity and under the influence of SR NW they quickly heat up in a thin surface layer and evaporate, and most of the energy of the irradiation pulse is spent on this evaporation.

In [3], a graphical dependence of the change in the pressure ratio in the front of the IWL behind and in front of the grid on the ratio of the area of the holes to the total area of the grid is given. If the ratio of the latter is ~ 0.4, then the pressure in the front of the IWL behind the grid decreases on average by a factor of 2.

The claimed technical device differs from the prototype in the presence of a new significant feature: balloons are saturated with ablating composition.

Thus, this makes it possible to reduce the damaging effect of SI and IWV by 2 times, and therefore, reduce the likelihood of damage to the protected object, not only from the enemy’s IOS, but also from the main PF of the nuclear weapon.

The drawing shows a diagram of a protection device consisting of a balloon 1, cables 2, nylon network 3, anti-personnel mines 4.

The device operates as follows. When approaching the enemy’s IED to the object of protection, they come into contact with the kapron network, anti-personnel mines are triggered and the IOS is defeated. When an object is attacked by a nuclear explosive due to a new significant feature, the damaging effect of SR and IWV is reduced by an average of 2 times, and the likelihood of damage to the object decreases accordingly.

Information sources

1. The journal "Military Thought" 1 (24), 1984, p. 12.

2. Weapons of mass destruction and protection against it. - M.: Ministry of Defense of the USSR, 1972.

3. Physics of a nuclear explosion. T. 2. - M .: Science, "Fizmatlit", 1997.

4. RF patent for the invention No. 2191975, class. F41H 11/04, publ. 10/27/2002.

Claims (1)

A protection device containing a system of balloons, cables that hold them at a height of 120-150 m, a thin nylon net located between the balloons, light anti-personnel fragmentation mines installed between the nodes of the nylon net, while the nylon net is impregnated with an ablative composition, and the cell sizes of the nylon net chosen in such a way that the ratio of their area to the total area of the nylon mesh is on average 0.4, characterized in that the balloons are impregnated with an ablating composition.

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