PL170607B1 - Apparatus for protecting an armour against projectiles - Google Patents

Abstract

A device for protecting obstacles from projectiles comprises a housing (1) in which are arranged at least one pair of capsules (2, 3) each of which is constructed in three layers, the middle layer being made of explosive. The capsules in each pair are connected to a common detonation circuit and configured in such a way that their opposing surfaces (4, 5) form an acute angle ( alpha ) in the plane perpendicular to the said surfaces (4, 5) and to the surface (6) of the obstacle (7) requiring protection.

Description

The subject of the invention is a device for the protection of armor against projectiles.

The device according to the invention is particularly suitable for the protection of armored shells of tanks and other armored vehicles against missiles with a high energy charge, for example HEAT or kinematic missiles.

A device for the protection of armor against projectiles is known, comprising a body in which at least two containers are provided (EP 0161390). Each container is made of three layers, with an explosive middle layer. The containers are arranged in the body in such a way that each of them is at a distance from the surface to be protected, so that a gap remains between it and the body wall opposite the surface to be protected. The described device also includes an element isolating the containers from the influence of the external environment and from transmitting the detonation via the shock wave when the neighboring device explodes.

When a high-energy projectile, for example a HEAT projectile, hits the front wall of the body with reactive armor, the projectile fuse is fired, its explosive charge explodes and the formation of a cumulative stream is created. At the same time, the front part of the projectile continues its translational movement and, if the thickness of the body wall is insufficient, and in the absence of a gap between it and the containers, it can penetrate this wall of the body and the container behind it, before it is initiated by the impact of a cumulative stream. Due to the presence of a gap between the front wall of the hull and the container, the cumulative stream with a speed greater than that of the front part of the projectile is ahead of and initiates the explosive in the container. When the container explodes, metal plates begin to move almost perpendicular to their surface. One of these plates collides with the front wall of the body and forces it to move in the same direction. The metal plates of the container and the front wall of the body intersect the trajectory of the cumulative stream, colliding with it and causing its destruction, including breaking it into separate fragments and deviation from the original trajectory. The process of bursting the cumulative stream is accompanied by the dispersion of a part of its material to the state of dust. As a result of such interaction, the ability of the cumulative stream to pierce the armor is reduced. Thus

170 607 a known device with reactive armor can protect the main armor of the object against HEAT projectiles.

However, it is known that the effectiveness of the impact on the stream of the aforementioned device and other similar devices to a significant extent depends on the angle of collision of the cumulative stream with the container, at the impact angles (the angle is measured from the perpendicular to the container surface) of 50 ° to 70 °, the highest effectiveness of the impact of the container explosion on the cumulative stream. At collision angles of about 30 °, the explosion of the container significantly reduces the ability of the cumulative stream to pierce the armor. On the other hand, in collisions almost perpendicular to the surface of the container, the device loses most of its effectiveness and, as a rule, is not able to provide protection of the basic armor against the cumulative jet. As it is difficult to predict in advance how the container should be placed on the protected armor so that its impact on the cumulative stream is maximized, the degree of armor protection, as it turns out, strongly depends on the direction of its fire.

The device for the protection of armor against missiles according to the invention, comprising a body in which are placed at least two containers, each of which is three-layered and has a middle layer of explosive material, characterized in that the containers are connected in one detonation chain in each pair, and their internal surfaces facing each other form an acute angle with one another in a plane perpendicular to them, the apex of which is directed towards the side wall of the body.

Preferably, one of the containers in each pair is positioned parallel to one of the body walls.

Preferably, a spacer is placed between the containers of each pair, in contact with each of the containers.

Preferably, the expansion element is in the form of a yoke.

Preferably, at least one elastic element is arranged between one of the walls of the body and one of the containers of each pair, on the side of the outer surface opposite to the inner surface of this container.

The device according to the invention provides such conditions for the passage of a cumulative jet or a kinetic projectile that the angle of impact, at least with one of the containers, will not define a direction close to perpendicular to its surface, which ensures an effective impact of a container explosion on a cumulative jet or a kinetic projectile in a wide range fire directions of the protected armor.

The arrangement of the containers in pairs in this device and their connection into one detonation chain ensures the activation (explosion) of both containers when hit by a cumulative jet or a kinetic charge of even one of them. In this transfer of detonation from one container to another is carried out by means of a shock wave, without the use of any additional devices.

In order to reliably transfer detonation from one steam container to another, it is necessary that the containers are in contact with each other in each pair.

Such a design solution increases the effectiveness of the device's impact on a cumulative jet or a kinetic projectile, and extends the range of armor firing angles at which the proposed device can effectively affect the cumulative jet or kinetic projectile.

The use of an elastic element eliminates the movement of the containers in the body and therefore protects them against external mechanical influences.

This partition is activated by the impact of the metal plate of the container adjacent to it. In this way, the destructive effect of a large mass of moving material on the rear, thicker fragments of the cumulative stream or the kinetic projectile will be more effective.

The subject of the invention is shown in the exemplary embodiments in the drawing, in which Fig. 1 - schematically shows a device for protecting an armor against projectiles, Fig. 2 - a device for protecting an armor against projectiles, with the use of an expansion element, Fig. 3 - an embodiment of a device with two in pairs of containers and with the use of the second embodiment of the expansion element, Fig. 4 - arrangement of several devices on the protected armor in different embodiments.

The device for the protection of armor against missiles according to the invention is provided with a body 1 (Fig. 1) in which at least two containers 2 and 3 are arranged, made in three layers, with a middle layer of explosive material. The containers 2, 3 are placed in pairs in the body 1 and are connected into one detonation chain, while the containers 2, 3 are joined into one detonation chain functionally, without the use of any additional elements. The containers 2, 3 are installed in the body 1 so that the facing internal surfaces 4 and 5 of the containers 2 and 3 in each pair form an acute angle a with respect to the plane perpendicular to these internal surfaces 4, 5 and perpendicular to the surface 6 of the protected armor 7.

In each pair, the containers 2,3 (Fig. 2) are in contact with each other, which widens the range of fire of the armor angle 7 at which the device in question can effectively act on a cumulative jet or a kinetic projectile. To ensure resilient constraint of the containers 2,3, an expansion element 9 is arranged in between them in each pair, which cooperates with each of the containers 2, 3. The expansion element 9 may have a different structure. Fig. 2 shows a variant of the expansion element 9 in the form of a yoke, which allows the acute angle between the containers 2, 3 to be easily changed.

One of the walls 10 of the body 1, located between the containers 2, 3 and the protected armor 7, is at a distance from this armor. Resilient elements 11 (the minimum number of which is 1) are installed between the wall 10 and the container 3, protecting the container 2, 3 from external mechanical influences, the container 3 being placed parallel to the wall 10. The body 1 may have a different design, which depends on from the requirements relating to the protection conditions of the armor 7. Thus, Fig. 3 shows a variant of the constructional embodiment of the device according to the invention, used to protect the armor 7 against kinetic projectiles. In order to protect the armor 7 against the cumulative jet, various constructional variants of the proposed device shown in Fig. 4 are used.

The device according to the invention operates as follows.

At the device, for example a HEAT projectile against the front wall 8 (FIG. 2) of the body 1, the projectile fuse is activated and the formation of a cumulative stream is generated; which, hitting container 2, causes the initiation of the explosive in the container 2. The detonation wave, propagating in the container 2, reaches the edge of the container 2, the nearest edge of the container 3. In the form of an impact it passes from the container body 2 to the container body 3, and then - to the explosive of this container 3, initiating its detonation. Metal plates of the containers 2 and 3, under the action of the explosion, move in the direction almost perpendicular to the surface of the respective containers 2, 3. At the same time, they begin to have a destructive effect on the front fragments of the cumulative stream, having a high speed but a small diameter. When moving further, one of the metal plates of the container, moving towards the front wall 8 of the body 1, collides with this wall, setting it in motion. The metal plate of the container 3 moving towards the wall 10, located at a distance from the protected armor 7, collides with this wall 10 and sets it in motion. As a result, the mass of the cutting material increases, during its movement, the trajectory of the cumulative stream, which provides a more effective destructive effect on the middle and rear portions of the cumulative stream, having a lower velocity but a larger diameter (mass) compared to its front portions.

Moreover, one of the metal plates of the container 2, while moving towards the container 3, collides with the metal plate of the container 2. The collision zone of these plates is located near the bisector of the angle between containers 2 and 3. Depending on the size of the angle between containers 2, 3 and the speed moving the planes of the containers 2, 3, the result of the collision of the metal plates of these containers 2, 3 may be different. At the collision angles of 10 ° to 40 °, the collision of the plates may be accompanied by the formation of a high-speed secondary cumulative stream of scattered particles and a low-velocity solid body, at other angles - the collision of these plates is accompanied by the formation of a non-speed compact body. The high-speed cumulative stream of scattered particles arises at the angular collision of the moving plate of the container 2 with the front wall 8 of the body 1. In all

170 607 of the mentioned cases, the direction of movement of the cumulative stream and the compact body in the space between the containers 2, 3 approximately corresponds to the direction of the bisector of the angle between them.

Thus, detonation of the explosive in the containers 2, 3 of the device according to the invention causes the material of the device structure (metal plates of containers 2 and 3, walls 8 and 10 of the body 1) to move in three or four different directions, which reduces the dependence of the destructive effect that shows the inert material in the device according to the invention for the cumulative jet, from the direction of fire of the protected armor 7 (i.e. from the angle of contact with the device). In addition, the operation of the said device increases the mass of the moving material, which has a destructive effect on the cumulative stream. As a result, the degree of protection of the armor is increased 7.

The operation of the device in another embodiment shown in Fig. 3, as well as when the device is hit by a kinetic projectile, for example an anti-tank subcaliber projectile, is essentially analogous to that described above, but it should be borne in mind that in order to effectively affect the kinetic projectile the mass of the moving material in the process of operating the device should be 2-10 times greater than for the cumulative stream.

The constructional parameters of the device according to the invention are usually determined by the parameters of the containers 2 and 3 arranged inside the device. The angle of installation of one of these containers, for example a container 2, in relation to the front wall 8 of the body 1 is determined on the basis of the existing limitations on the external dimensions of the device, taking into account the desired result of the collision of the plates of containers 2, 3 and the range of firing angles in which the greatest degree of 7. The distance from the protected armor 7, on which the wall 10 of the body 1 is installed, is determined depending on the time during which it is necessary to ensure the activation of the device (this time depends on the length and speed of the cumulative stream or kinetic projectile, as well as the angle their collisions with the device).

The proposed device is suitable for use especially in a set of reaction armor installed on armored ground objects: tanks, infantry fighting vehicles, armored personnel carriers, self-propelled guns, construction equipment, means of transport, as well as on river ships and ships.

170 607

Publishing Department of the UP RP. Circulation of 90 copies

Price PLN 2.00

Claims (5)

Patent claims 1.A device for the protection of armor against missiles, comprising a body in which are placed at least two containers, each of which is three-layer and has a middle layer of explosive material, characterized in that the containers (2, 3) in each pair are connected by one detonation chain, and their internal surfaces (4, 5), turned towards each other, form an acute angle (α) in a plane perpendicular to them, the apex of which is directed towards the side wall of the body (1). 2. The device according to claim The method of claim 1, characterized in that one of the containers (2, 3) in each pair is positioned parallel to one of the walls (8, 10) of the body (1). 3. The device according to claim A strut (9) contacting each of the containers (2, 3) is arranged between the containers (2, 3) of each pair. 4. The device according to claim A device according to claim 3, characterized in that the expansion element (9) is in the form of a yoke. 5. The device according to claim 1 3. The method according to claim 3, characterized in that between one of the walls (8, 10) of the body (1) and one of the containers (2, 3) of each pair, on the side of the outer surface opposite to the inner surface (4, 5) of said container (2, 3) ), at least one spring element (11) is arranged.