RU9519U1 - THIN LAYERED METAL ARMOR - Google Patents

Abstract

1. Armor, consisting of a metal panel and a fabric bag, characterized in that the metal panel consists of two connected metal parts: the first has a thickness of 4.2 - 5.5 mm, and the second has a thickness equal to 10 - 20% of the thickness of the first .2. Armor according to claim 1, characterized in that the metal panel is placed in a cover made of fabric based on high modulus fibers. Armor according to claim 2, characterized in that layers of high-strength fabrics are attached to the back of the second metal part. The armor according to claim 2, characterized in that between the metal parts there are layers of high-strength fabrics pre-connected by piercing threads.

Description

THIN LAYERED METAL ARMOR

The utility model relates to the field of individual protection of a person from small arms bullets, namely to protective vests.

Known layered armor (Certificate. For utility model No. 3993 announced March 20, 1996). It contains sequentially arranged sheet of metal and a fabric package based on high modulus fibers, the metal having hardnesses of the surface and middle layers, respectively, lower and higher than the hardness of the bullet material.

This armor solves the problem of impenetrability by bullets with steel cores having initial velocities of more than 700 m / s. The disadvantage of this type of armor is that metal is used with a thickness of more than 6 mm, which leads to a high total weight of the armor structure.

The proposed thin layered metal armor depicted in Figure 1 consists of two layers of metal connected by a known method, for example, glued together, and a fabric bag 5. The first is the outer layer of metal 1 has a hardness higher than the hardness of the bullet material. The second inner layer of metal 2, located behind the first, has a hardness lower than the hardness of the bullet material, as well as a thickness significantly lower than the thickness of the first layer. The final stop of the damaging elements provides a fabric bag 5.

The improvement of the specified armor in the direction of increasing the anti-fragmentation resistance is possible due to the placement of the metal parts of the armor in the cover of high-strength fabrics 3 (Figure 2). Placing between the outer and inner layers of the metal layers of high-strength fabrics 4 (Fig.Z), connected by firmware, provides increased bulletproof resistance. A similar effect provides the placement of layers of high-strength fabrics 4 directly behind the metal parts of the armor (Figure 4).

The total thickness of the metal part of the armor is less than 6 mm, which reduces the weight of the armor structure while maintaining bullet resistance similar to the known armor (Approved for utility model No. 3993 announced March 20, 1996).

Obviously, the outer layer of steel 1, having high hardness, actively absorbs bullet energy when interacting with it, due to its own destruction and destruction of the bullet, and the inner metal layer 2, having lower hardness, inhibits the movement of fragments of the destroyed bullet and fragments of the outer layer of armor due to possible high deformation before fracture, while preventing the dissection of the fabric package 5 by the sharp edges of the fragments. Significant absorption of the energy of the fragments of the bullet and the armor generated during the initial contact of the bullet with the armor is ensured by an anti-shatter cover made of high-strength fabric 3. Additional braking of the fragments that pierced the outer metal layer is facilitated by the presence of

a stitched package of high-strength fabrics 4, placed between the outer 1 and inner 2 metal layers of armor, or on the back of the metal parts of the armor. A general increase in the thickness of the armor leads to a smoother braking of the fragments, and, as a result, to lower loads at the point of impact and increase the bulletproofness of the armor. Fragments of armor and fragments of a bullet with low residual energies are finally captured by a fabric bag of high-modulus fabrics 5.

The action of the proposed thin layered metal armor is as follows:

1) a bullet, falling into the outer metal layer of the outer bag and punching it, loses a significant part of its energy due to its own destruction;

2) small fragments of the bullet and the outer metal layer are captured by a cover made of high-strength fabric;

3) bullet fragments penetrating the outer metal layer have reduced energy when destroyed, hit the inner metal layer and are inhibited due to its deformation, this effect is enhanced when layers of high-strength fabric are pre-connected by firmware;

4) splinters of a bullet hit a fabric bag completely stopping their movement.

The surface density of the indicated armor options for protection against bullets with a heat-strengthened steel core of the AK-74 assault rifle is 40-45 kg / m3, which is 15 kg / m3 less than the known layered armor.

Claims (4)

1. Armor, consisting of a metal panel and a fabric bag, characterized in that the metal panel consists of two connected metal parts: the first has a thickness of 4.2 - 5.5 mm, and the second has a thickness equal to 10 - 20% of the thickness of the first .  2. Armor according to claim 1, characterized in that the metal panel is placed in a fabric cover based on high modulus fibers.  3. Armor according to claim 2, characterized in that layers of high-strength fabrics are attached to the back of the second metal part. 4. Armor according to claim 2, characterized in that between the metal parts there are layers of high-strength fabrics pre-connected by piercing threads.