CZ270594A3 - Device for protection of a wall from 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

Equipment for the protection of walls against missiles

Technical field

BACKGROUND OF THE INVENTION The present invention relates to the field of wall protection, and more particularly to devices for protecting walls from bullets.

Most preferably, the device according to the invention can be used to protect the armored walls of tanks and other armored vehicles from bullets exhibiting a considerable supply of energy, for example cumulative bullets or kinetic bullets.

BACKGROUND OF THE INVENTION

A device for protecting a bullet wall is known, comprising a body in which at least two boxes (EP 0161390) are arranged. Each of the boxes is designed as a three-layer with a middle layer of explosive. The boxes are arranged in the body in such a way that each of them is at a certain distance from the surface to be protected, while there is a gap between them and the opposite surface of the body wall (hereinafter referred to as the front wall). Said apparatus also comprises an element isolating the boxes from the external environment and from the shock-wave detonation transfer when the adjacent apparatus explodes.

The impact of a high-energy projectile, such as a cumulative projectile, on the front wall of the reactive armor body releases the projectile igniter, detonates its explosive charge and generates a cumulative current. At the same time, the head portion of the projectile continues its progressive movement and, in the absence of thickness of the front wall of the body and the absence of a gap between it and the boxes, can pierce the body wall and the box thereafter before initiating it upon impact. Due to the gap between the front wall of the body and the box, the cumulative current, exhibiting a higher velocity than the head portion of the projectile, surpasses this and initiates the explosive in the box. Metal plates kknábjaeri ¹ . in their explosion they get '

- 2 moving in a direction close to the perpendicular to their surface. One of these plates impinges on the front wall of the body and stops its movement in the same direction. The metal plates of the box and the front wall of the body intersect, impact, and cause disturbances of the cumulative current by splitting it into individual fragments and diverting it from the original trajectory of motion. The cumulative current decay process is accompanied by the disoerging of particles of its material into a dust state. As a result of such action, the armor-piercing cumulative current decreases. Thus, it is known to provide protection of the base armor wall of an object against cumulative bullets.

However, it is known that the efficiency of the device on the cumulative current and other devices similar to it depends essentially on the angle of impact of the cumulative current on the box. At angles of incidence / angle measured from perpendicular to the surface of the box / up to 70 degrees, the most effective effect of the explosion of the box on the cumulative current is achieved. At incidence angles of about 3.0 degrees, the explosion of the box still noticeably reduces the armor penetration of the cumulative current. However, at angles of incidence close to the perpendicular to the box surface, the device loses most of its efficiency and, as a rule, cannot provide protection to the base armor wall from cumulative currents. As it is difficult to predict how the box should be placed on the protected side, ^e to J her cumulative effect on the maximum current, it appears the degree of protection walls to be strongly dependent on the direction of bombardment.

SUMMARY OF THE INVENTION The object of the present invention was to provide a device for protecting a wall from bullets with a box arrangement in the body which would substantially reduce the dependence of the degree of wall protection on the firing direction.

SUMMARY OF THE INVENTION

The object has been achieved by providing in a missile protection device comprising a body in which at least two boxes are arranged, each of which is designed as a three-layer with a middle explosive layer according to the invention, the boxes are arranged

3 in a body in pairs, each pair coupled to one detonation circuit so that the relative position of the surfaces of the boxes in pairs forms an acute angle in each pair in a plane perpendicular to these surfaces and to the surface of the wall to be protected.

Preferably, one of the boxes in each pair is arranged parallel to one of the body walls.

This ensures such conditions of penetration of the cumulative current or kinetic projectile through said device and that the angle of incidence of at least one box has not been close to the perpendicular to its surface, thereby ensuring effective explosion of the box on the cumulative current or kinetic projectile.

The paired arrangement of the boxes in said device and their connection into a single detonation circuit ensures synergy / explosion / stiffness of the boxes upon the impact of a cumulative current or kinetic missile, even into only one of the two. In doing so, the transfer of detonation from one box to the other is done by a shock wave, without the use of any additional Shards.

For a sluggish detonation transfer from one box of a pair to another, it is necessary for each pair of boxes to touch each other.

Such a design increases the efficiency of the device's action on the cumulative droud or kinetic projectile and expands the angle of impact zone on the wall at which the device of the invention is able to effectively effect the cumulative current or the kinetic projectile.

To ensure said conditions, a spacer element interacting with each of said boxes is required between the boxes in each pair.

It is advantageous to make each spacer element in the form of a yoke. Such a construction of the spacer element is simple to manufacture and makes it easy to vary the amount of angle between the boxes in pairs.

It is desirable to provide at least one resilient element between one wall of the body and one of the boxes, each pair with a side of its surface opposite to the surface of the box interacting with the spacer element.

- 4 The presence of a resilient element avoids displacement of the boxes in the body and consequently protects the boxes from external mechanical action.

In order to increase the effect of the device according to the invention on the end and center portions of the cumulative current or kinetic projectile, it is advantageous to arrange one of the body walls located between the boxes and the protected wall at a certain distance from this wall.

Said tray is moved by impacting a metal plate of the nearer box. In this way, the disruptive effect of the greater mass of the moving material on the end, thicker parts will be. cumulative current more efficient.

DETAILED DESCRIPTION OF THE INVENTION

The device according to the invention is explained in detail by way of example of a specific embodiment with reference to the accompanying drawings, in which Fig. 1 schematically illustrates a bullet wall protection device according to the invention; Fig. 2 represents a bullet wall protection device according to the invention using a spacer; * 3 is not a variant of the device according to the invention with two pairs of boxes and using a second structural variant of the spacer element, FIG. 4 shows an embodiment of several devices according to the invention on a protected wall in two variants of construction.

The bullet protection device according to the invention comprises a body 1 / FIG. 1) in which at least two boxes 2,3 are arranged as triple-layered with an intermediate layer of explosive. The boxes 2,3 are arranged in pairs in the body 1 and connected into one detonation circuit, whereby the connection of the boxes 2,3 into one detonation circuit takes place functionally, without using any additional elements. The boxes 2,3 are arranged

5 in the body 1 such that the relative positions of the surfaces of the 4.5 boxes 2,3 in each pair form an angle in a plane perpendicular to these surfaces 4,5 and. at the same time perpendicular to the surface 6 of the protected wall 7.

In each pair of boxes 2,3 / fig. 2 / the boxes are in contact with each other, extending the bombardment zone of the wall 7 at which the described device is able to effectively effect a cumulative current or kinetic shot. To ensure contact of the boxes

2,3 in each pair there is a spacer element between them which interacts with each of the boxes 2,3. The spacer element 9 may have a different construction. Fig. 2 shows a variant of the bracket-shaped spacer element 9, which makes it possible to easily change the dimensions / size / acute angle between the boxes 2,3 ·

One of the walls 10 of the body 1, arranged between the boxes 11, 3 and the protected wall 7, is arranged at a certain distance from this: the walls 10 and the box 1 are provided with resilient elements 11 (at least one) which protect the boxes 2,3 The housing 1 may have a different construction depending on the necessary wall protection conditions 7- Thus, in Fig. 3, there is shown a variant of the construction according to the invention used for wall protection 7 in front of kinetic missiles. Various design variants of the device according to the invention shown in Fig. 4 are used to protect the wall 7 from the cumulative current.

The device according to the invention operates as follows:

On impact, for example, a cumulative missile on the front wall 8 / fig. 2 / body 1 is unlocked its lighter, explosive explosive charge missiles and the formation of cumulative current; the impact on the box 2 initiates an explosive in the box 2. The detonation wave propagating in the box 2 explosive reaches the edge of the box 2, closer to the edge of the box 3. In the form of a shock wave passes from the box 2 to the box 3 and then to the explosive of this box 3 and initiates its' detonation. The metal plates of the boxes 2,3 move in the direction close to the perpendicular to the surface of the respective box 2,3 as a result of the explosion. In doing so, they start to show a disturbing effect on the head parts of the cumulative streams

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- 6 showing high speed but small ormer. Upon further movement, one of the metal plates of the box 2 moving in the direction of the front wall 8 of the body 1 impinges on and moves this wall 8 The metal plate of the box 3 moving in the direction of the wall 10 disposed distant from the protected wall 7 onto this wall 10 and sets it in motion. This way. the mass of the material intersecting the trajectory of the cumulative stream increases as it moves, providing a more effective action on the central and terminal portions of the cumulative stream, exhibiting a lower velocity but a larger diameter than the head portions.

In addition, one of the metal plates box 2 ,. moving in the direction of the box 3, it strikes the metal plate of the box 2. The collision zone of these plates approaches the axis of the angle between the boxes 2,3.

Depending on the size of the angle between the boxes 2,3 and the speed of movement to pabig 2, the impact of the metal plates of these boxes 2,3 may vary. At angles of 10 to 40 degrees, the collision of the plates may be accompanied by the formation of a high-speed secondary flow of dispersed particles and a low-speed compact body, at other angles the collision of these plates is accompanied by a low-speed compact body. The high velocity cumulative flow of scattered particles occurs upon impact at the angle of the moving plate of the box 2 on the front wall 8 of the body 1. In all cases, the direction of movement of the cumulative current and the compact body.

In such a manner, the detonation of the explosive in the boxes 2,3 of the device according to the invention sets in motion the construction material of the device / metal plate of the boxes 2,3, walls 8 and 10, body 1 in three or four different directions, reducing the dependence of material in the device according to the invention for the cumulative current in the bombardment direction of the protected wall? (i.e., at the angle of collision with the device). In addition, in the process of operation of the device according to the invention, there is an increase in the mass of moving material causing a disturbing effect on the cumulative stream. As a result, the degree of protection of the wall 7 increases.

The operation of the second variant of the device according to the invention, shown in Figure 3, also in the case of impact of a kinetic projectile, for example anti-tank subcaliber projectile on the device according to the invention, proceeds essentially analogously to the above described. For a kinetic projectile, the mass of moving material in the process of operation of the device must be 2 to 10 times greater than for the cumulative current.

The design parameters of the device according to the invention are often determined by the characteristics of the boxes 2,3 disposed within the device. The angle of arrangement of one of these boxes, for example the box 2, with respect to the front wall 8 of the body 1 is determined from actual constraints on the dimensional dimensions of the device taking into account the desired collision result of the boxes 2,3. and the extent of the angle of incidence in which the maximum degree of protection of the wall 7 is to be ensured. The distance from the protected wall 7 in which the bulkhead 10 of the body 1 is arranged is determined according to the time during which and the velocity of the cumulative current or kinetic projectile, as well as the angle of collision with the device according to the invention. Most effective is to use the device according to the invention in a set of reactive armor, which is installed on armored ground objects: tanks, infantry fighting vehicles ... infantry I, infantry fighting vehicles II, self-propelled guns, construction objeřjyjekty, means of transport as well as river and sea vessels.

Claims (15)

A device for protecting a bullet wall, comprising a body 1 in which at least two boxes 2,3 are arranged, each of which is formed as a three-layer with an intermediate layer of explosive, characterized in that the boxes 2,3 are arranged in the body 1 in pairs, connected in each pair to one detonation circuit and arranged such that the relative position of the surfaces of the boxes 4,5 in each pair formed an acute angle in a plane perpendicular to these surfaces 4,5 and to the surface 8hchn. worn walls 7. Device according to claim 1, characterized in that one of the boxes 2,3 in each pair is arranged parallel to one of the walls 8, 10 of the body 1. Device according to claim 1, characterized in that in each of the two boxes 2,3 they are in contact with each other. Device according to claim 1, characterized in that a spacer element 9 interacting with each of said boxes 2,3 is arranged between the boxes 2,3 in each pair. Device according to claim 4, characterized in that the spacer element 9 is in the form of a yoke. AND - 9 Device according to claim 4, characterized in that it is one of; at least one resilient element 11 is provided with the sides of its surface opposite to the surface 4,5 of this box 2,3 cooperating with the spacer element 9. Device according to one of the preceding claims, characterized in that one of the partitions 10 of the body 1, arranged between the boxes 2,3 and the protected wall 7, is located remotely from this. walls 7. & A set of devices according to any one of claims 1 to 7. An assembly of devices according to claim 8, adapted to an armored ground object. The armored ground object according to claim 9, representing a tank itself. The armored ground object according to claim 9, representing infantry combat vehicles I and II in themselves. The armored ground object of claim 9, representing a self-propelled gun. Assembly according to claim 8, adapted to the building equipment. An assembly according to claim 8, adapted to sea or river vessels. The assembly of claim 8, adapted to an armored vehicle.