UA30225U - Honeycomb armor - Google Patents

Abstract

Armor consists of main surface sheet and back one separated one from another with substantial layer of filler.

Description

Description of the invention

Armor is designed to protect people, mechanisms, materials and other valuables from damage by bombs, 2 projectiles, rockets, bullets, as well as from radiation damage. Consists mainly of strong steel sheets, as well as other materials of appropriate strength, can be used in various combinations |11.

The most widespread in armored vehicles is armored protection of areas in the most likely directions of damage, as well as the most responsible places. Accordingly, the strength and reliability of armor protection throughout the 70 construction is not the same (11.

The development of means of combating armored vehicles led to the creation of light and mobile rockets fired from hand-held launchers, as well as the use of cumulative shells of different effects, showed that it is impossible to provide armor protection due to the thickness of the armor.

For examples. In 1978, the German company "Dynamite Nobel" developed and supplies to the armies of many countries 712 hand-held anti-tank grenade launcher RE-3 with a laser sight and a rocket-propelled grenade for it, which has cumulative charges of different effects. During firing, Panzer-Faust 3-IT600 with a double-charge warhead at a distance of 600 meters penetrates armor with dynamic protection, a total thickness of 900 mm.

The Swedish hand-held anti-tank grenade launcher "Karya Gustav" with a REM 597 grenade penetrates armor with a thickness of 80 Ohm. (2, p. ZO).

To improve armor protection, various armor designs are used, in particular multilayer, consisting of external steel sheets with a hard surface coating and aluminum armored alloy sheets placed behind them, which are separated from each other by polyurethane foam.

The most widespread is combined armor, which protects only certain responsible areas of armored vehicles and the most likely directions of damage. The main part of such armor is the surface armor plate and the rear armor plate, which are separated from each other by a significant layer of filler. The rear armor plate on the inside has 3 additional coatings of different materials to protect against fragments and radiation. IZ, pp. 22-25).

"Active armor" is quite promising, the essence of which is to place pencil cases with explosive substances on the main armor, which are activated by a cumulative or other projectile. Exploding upon impact significantly reduces the effect of the cumulative jet. A negative factor in such armor is that the use of active protection is possible only on armor of considerable thickness. In addition, the use of tandem cumulative SU shells significantly reduces the reliability of active armor. (4, pp. 36-40)1.

In the initial stages of application, there is armor based on depleted uranium. The density of such armor is 2.5 times greater than that of steel. At the same time, experts assume that the low level of radiation, as well as the use of protection, makes such armor safe for personnel. |5, page 40)1. 3o It should also be noted one of the ways to improve armor protection is to reduce the penetration ability of projectiles and bullets by increasing the crispness of the surfaces of their main parts. This is achieved by introducing an alloy of mercury with sodium, potassium or lithium into the surface layer of the combined armor. As a result of the action of the amalgam on the projectile, its surface instantly becomes crispy and breaks when passing the next layers of armor. (b, p. 311. "

The prototype of a useful model is armor, which, acting on a projectile, reduces its penetrating ability.

The features of armor that coincide with the features of the invention should include: - c - armor designed to protect people, mechanisms, and armored vehicles from impacts by shells, missiles, and bullets; z" - intended to improve armor protection in certain possible directions of damage; - to be used as armor of the main protection in combination with other types of armor that enhance protection.

The reasons that prevent obtaining a new technical result include the following: - low efficiency of protection against rockets and manual anti-tank grenades of tandem action; and - large weight of armor; o - high cost; - high anti-armor effect of active protection with small armor thicknesses. le Useful model is aimed at creating armor that would protect against hits by cumulative grenades, which are released from t 20 hand-held or rack-mounted grenade launchers.

When implementing the invention, the following results can be achieved: "sl - reduce the total weight of the armor; - reduce the cost of armor; - to improve the technical data of armored vehicles; 25 - to improve the reliability of armor protection. c This result solves the shortcomings of the prototype.

The basis of the useful model is the task of creating armor to protect against damage by cumulative grenades fired by manual and rack-mounted grenade launchers. The caliber of such grenades is from 44 mm to 135 mm, weight from kg to 4.5 kg. Penetrate armor from ZOO mm to 90 mm. 60 Tandem action grenades are used to damage "active armor", the essence of which is that an additional charge is placed in the front part of the grenade at a certain distance from the main charge to activate explosive charges of active protection, as well as to ensure the creation of an effective cumulative jet at a certain distance distance from armor. (2, p. 2b).

The structurally necessary distance between the additional and the main cumulative charge of the grenade is performed by 62 cylindrical projections in front of the grenade body. The length of the cylinder protruding in front of the grenade depends on the speed of the grenade, as well as its mass, and is within 120-150 mm.

The essence of a useful model is to enable the creation and action of a cumulative jet due to the protection of the dense layer of armor and convert the explosion of a cumulative grenade as an ordinary explosion at a certain distance from the main protective layer of armor.

At the same time, the features of the design of grenades and rockets fired from hand-held and rack-mounted grenade launchers are used. The shells of such grenades and rockets of a similar purpose are made of light alloys; the margin of safety of such cases is quite small.

The essential features include the fact that the protective action of the armor is carried out by parts on two levels, the distance 7/0 between which is from 1830 mm to 250 mm. The outer part is a surface of passive protection, formed by the area of dense racks 11 and 12 (Fig. 1), and is about 2595 of the total area of the armor. The inner part of the armor is dense nests, which make up about 7595 of the total area, in which the cases of active protection are placed.

The principle of armor protection in the case of two main types of damage by grenades with a cumulative warhead /5 part: - when a grenade 9 (Fig. 2) with a cumulative warhead of tandem action is hit in racks 11 and 12 (Fig. 2) of the dense nest, an explosion of the auxiliary charge of the grenade will take place , which will activate the main grenade charge and the charges placed in pencil cases 13 (Fig. 2); during further movement of the grenade, a cumulative stream will begin to form in its warhead, which will be destroyed by the explosive force of the charges in the pencil cases.

When a grenade 10 (Fig. 2) with a cumulative warhead is hit in racks 11 and 12 (Fig. 2) of a dense nest, an explosion of its charge and charges placed in pencil cases 3 will take place, which will destroy the cumulative jet that will begin to form at this time; - when a grenade 9 (Fig. 3) with a cumulative warhead of tandem action is hit in the central part of the dense nest, the grenade body will begin to collapse upon impact with racks 11 and 12 (Fig. 3). When the toe of the grenade reaches the charge in pencil case 13 (Fig. 3), the case and the main arrangement of the grenade warhead will be destroyed, which will make it impossible to create a cumulative jet. The explosion of the auxiliary charge of the grenade will activate the charge in the penalty box and the combat charge of the grenade, as well as move it slightly away from the armor.

When hitting a grenade 10 (Fig. 3) with a cumulative warhead in the central part of the dense nest. Assuming that the grenade is of too small a caliber from bHOmm to bOhm and its case with a warhead is not deformed due to the impact on racks 11 and 12, when it reaches the pencil case 13, an explosion of the grenade charge and the pencil case charge will take place simultaneously, which will destroy the cumulative jet. with

Dense armor (Fig. 1), parts of passive and parts of active protection, consists of racks 11 and 12 and pencil cases 13 containing explosive charges, attached to the main armor plate 4.

High-strength armor plate 4, on the back side reinforced by gaskets 5 made of polyurethane foam /c2

With sheets 6 of aluminum armor alloy, behind which, to reduce the armor effect, a gasket 5 of polyurethane foam is placed, covered with a steel-lead sheet 7.

The outer part of the armor has an easily replaceable coating 8 of light elastic materials designed for corrosion protection, as well as camouflage and aesthetic purposes.

References: « 1. "Technical encyclopedia" 1931, volume 2, page 743. from p. 2. Magazine "Foreign Military Review", publishing house "Red Star", Moscow (1987, Mo12). 3. Magazine "Foreign Review", publishing house "Red Star", Moscow (1987, Mo10). from 4. Magazine "Zarubezhnoe voonee obozrenie", publishing house "Krasnaya zvezda", Moscow (1985, Mo1). 5. Magazine "Foreign Review", publishing house "Red Star", Moscow (1990, Mo2). 6. Magazine "Foreign Review", publishing house "Red Star", Moscow (1989, Mo1). c List of drawing figures:

Fig.1. Slotted armor. about Fig.2. Hitting grenades in a rack of dense armor. from Fig.3. Hitting grenades in nests of dense armor. co

Claims (1)

The formula of the invention (l The dense structure armor consists of armor sheets separated by spacers and assembled in order For its purpose, the main protective sheet, reinforcing sheets, rear sheets of protection against armor damage, additional protective parts are mounted on the main armor sheet, which differs in that for protection against grenades and rockets of cumulative action, as well as tandem action, on the main armor sheet with of metal sheets placed on the edge perpendicularly, as well as with an inclination to it, dense nests are mounted, into which one or more pencil cases with explosives are inserted. 60 b5