RU5244U1 - ARMOR CAP WITH MOUNTED ARMOR - Google Patents

Abstract

An armored cap with mounted reactive armor containing niches made in the cap body, equipped with covers and a bag with parallel internal and external armor plates mounted with a gap from each other inclined to the horizon, and external armored units with active defense modules, the fighting cavities of which are spaced relative to the central horizontal plane of the armored unit, characterized in that the package of armored plates is made in the form of a wedge-shaped buffer block formed rigidly in pairs interconnected by m vertical planks of external and internal armor plates located symmetrically relative to the central horizontal plane of the armored unit with an angle of inclination of armor plates equal to 20 - 25, while the outer plates are installed with the possibility of the formation of cavities, tandem located combat cavities of the armored unit modules, and the gap between parallel internal and external plates are made equal to 1.3 - 1.5 diameters of the core of the projectile.

Description

t with AN ARMOR CAP WITH MOUNTED REACTIVE ARMOR A good m @ del “tvsit in the area of branded kfnstruktsiy, and a kvnkretnv to get more reactive brvnvv and be used in kvnstruktsii brands of protection brvnevvekt. Known dynamic protection for the M60A (em. Journal I990, 99, No. 2, pp. 16-17). The mounted reactive unit in the form of elements with explosive substances, bwlt is attached to the bridges, and the other are also attached to the bwt. The bvnks are welded to the tower. The disadvantage of this design is that this reactive armor resists only the effects of rocket-propelled grenades, but does not provide protection against cumulative and sub-caliber shells. Known Blazer reactive tank armor (see JGn & $ Qefehce lA / eet / y 1985 No. 19 pp. U49-U50) provides one-time protection against ATGMs and anti-tank grenades. Armor is mounted on tanks outside. It consists of modular protective elements, each of which contains inserts filled with explosive. When an anti-tank shell enters the tank and ignites its cumulative charge, the element liner is undermined, thereby significantly weakening the cumulative effect | outfit .; The disadvantage of this design is that it does not protect the tank from modern sub-caliber shells. „On the front surface of which are mounted protective charges of reactive armor connected via means of initiating an explosion with projectile sensors (see FIG. 6.9 of the mentioned patent). The disadvantage of the tower is the low level of anti-ballistic resistance, which does not provide protection for simultaneous sub-caliber shells and tandem ATGMs. The purpose of the utility model is to increase the level of protection of the armor cap. This goal is achieved due to the fact that the package of armored plates is made in the form of a wedge-shaped buffer block formed by rigidly paired outer and inner armored plates connected by vertical strips symmetrically relative to the central horizontal plane of the armored unit with an angle of inclination of 20 armored plates to it 25 °, while the outer plates are installed with the possibility of the formation of cavities located in tandem combat cavities of the modules, and the gap between the parallel internal E and outer plates made equal to 1, 5 serdechinika sabot projectile diameter. An analysis of the distinguishing features showed that an increase in the level of protection of the armor cap is achieved due to the fact that the package of armor plates is made in the form of a wedge-shaped buffer block formed by rigidly paired outer and inner armor plates connected by vertical bars symmetrically with respect to the central horizontal plane of the armored unit with the angle of inclination of armor plates to it equal to 204-25 °, which provides favorable conditions. for ricochet destroyed by a protective fry. house attack shell and its dispersion in the planes between the cover of the armor cap and the outer armor plate of the buffer unit, between the outer and inner armor - 2 - 3 plates. The dance-located fighting cavities of the armored unit modules and the cavities located above and below the external armor plates first ensure the destruction of the attacking shell, changing the direction of the shell fragments, and then sticking them into an inclined plate and ricochetting in the cavity above the armor plate. The gap between the parallel internal and external plates is made equal 1,, 5 of the core diameter of the sub-caliber projectile is sufficient for the process of rebounding the fragments of the attacking projectile.

The utility model is illustrated by drawings, where: depicted in:

-Fig. I - arrangement of armored units with reactive} armor on the armored cap (top view);

-Fig. 2 - section aa figl (cross section armored

hood with mounted reactive armor);

-Fig. 3 - sectional reflection of the attacking projectile

AA figure 1;

-Fig. 4 - section BB figure 2 (connection diagram of armored plates

buffer wedge-shaped block.

The armored alopack I contains niches 2 made in the body of the cap (FIGS. 1,2) equipped with covers 3 and a bag with parallel 4, 5 and outer 6.7 armor plates mounted with a gap and inclined from each other to the horizontal. Outside of the armored cap I, armored units 8.9 are fixed (Fig. 1) with reactive defense modules; combat cavities 10 of which are spaced relative to the central plane of the armored unit; combat cavities 10 are fixed with caps 11; protective charges are installed in combat cavities 10. 12. Protective charges 12 consist of a sensor 13, the main charge 14 and the missile plate 15. To increase the level of protection, the package of armor plates 4,5,6,7 is made in the form of a buffer wedge-shaped block,

formed by rigidly pairwise interconnected by means of vertical bars 16.17 external 6.7 and internal 4.5 armor plates located symmetrically relative to the central horizontal plane of the armored unit with an angle of inclination of armor plates equal to 20 25 °. The inner slabs 4,5 are rigidly interconnected by means of slats 18. The outer slabs 6,7 are installed with the possibility of forming 2 cavities in the niche of the 10 modules in tandem located combat cavities, and the gap a (Fig. 4) between the parallel inner 4,5 and outer 6.7 plates made equal to 1.34-1.5 of the diameter of the core of the projectile.

When getting into zone b the core (Fig. 2,3) of an attacking sub-caliber projectile breaking through the cover II of the outer armored unit 9 excites the protective charge sensor 13. Cover II which is in contact with the projectile tearing away from its place under the influence of the explosive substance of the sensor 13 carries the projectile , i.e. deviates it from horizontal flight. After the sensor 13 is triggered, the explosive of the main charge 14 detonates and the projectile 15 is exposed to the projectile, under the influence of which the projectile is crushed into parts, and these parts falling into the cavity B and no longer representing a single core and having a lateral deviation favorably ricochet in the cavity B.

When the projectile enters the zone from the armored unit 9, where there is no impact on the projectile cover II of the missile plate 15, the greatest deviation and destructive effect on the projectile is exerted by the combined action of the main charge explosive 14 and an inclined position (in the form of a wedge) of the order of the surface on which in combat cavity 10 is a protective charge 12.

 4 Operation h Subsequently, the destroyed parts of the projectile having a deviation from horizontal flight fall into cavity B, into the air gap a equal to 1.3-5-1.5 of the diameter of the core of the caliber projectile, in which they are able to racket when poked into an inclined armor plate 4 in this gap and not punching plates. Thus, due to the fact that the package of armor plates is made in the form of a buffer wedge-shaped block and due to certain parameters of the inclination, thicknesses and gaps of the armor plates of the hood and reactive armor, the level of protection of the armored hood as a whole is increased. Applicant: Transport Engineering Design Bureau (ft ff (r - 5

Head of KBTM B.M. Kurakin JK. -. K rl 1.1 g L -. 7v

Claims (1)

An armored cap with mounted reactive armor containing niches made in the cap body, equipped with covers and a bag with parallel internal and external armor plates mounted with a gap from each other inclined to the horizon, and external armored units with active defense modules, the fighting cavities of which are spaced relative to the central horizontal plane of the armored unit, characterized in that the package of armored plates is made in the form of a wedge-shaped buffer block formed rigidly in pairs interconnected by means m vertical planks of external and internal armor plates, located symmetrically relative to the central horizontal plane of the armored unit with an angle of inclination of armor plates equal to 20 - 25 ^o , while the outer plates are installed with the possibility of the formation of cavities, tandem located combat cavities of the armored unit modules, and the gap between parallel internal and external plates made equal to 1.3 - 1.5 diameters of the core of the projectile.