RU2487312C1 - Bulletproof vest with rebound-protection screen - Google Patents

Abstract

FIELD: personal use articles.

SUBSTANCE: bulletproof vest contains at least two armour units (the back one and the breast one) positioned inside the textile part; arranged inside the textile part before each armour element is a rebound-protection screen made of a high strength material, the screen area exceeding that of the armour element behind it by at least 5%; the linear dimensions of the rebound-protection screens on each side exceeds those of the armour elements such screens cover by at least 5 gages of the would-be weapons the bulletproof jacket is to protect against.

EFFECT: bulletproof vest reliability improvement.

4 cl, 1 dwg

Description

The invention relates to the field of individual protection of a person from firearms and cold steel, namely to protective vests.

A bulletproof vest is known according to the patent of the Russian Federation No. 2172920, MKI F41H 1/02, 2001, containing the back and chest sections located in covers and connected by fastening and adjusting elements, made in the form of a set of protective elements, each of which consists of a bimetallic armored element, in which the outer layer is made of high-strength steel with a hardness of 58 ... 64 HRC, and the inner one is made of high-strength steel with a hardness of 40 ... 52 HRC, while the thickness of the front layer is 0.6-0.8 of the diameter of the bullet core, and the ratio of the thicknesses of the outer and inner layers is at least 0, 5 and not more than 1.5 packages of ballistic fabric and damping element.

An analogue of the claimed one is body armor according to the application for the invention of the patent of the Russian Federation No. 2003115693, 2004, made in the form of a set of protective elements, each of which includes a steel bimetallic armor element with a high-hard front layer, with an intermediate layer of carbon steel with a hardness of 20 ... 25 HRC and a thickness of 0.05-0.1 of the plate thickness, and additional protective and damping elements.

Bulletproof vests are known in which anti-decoupling envelopes (anti-decoupling blocks) are installed that are tightly attached to the armor element and firmly fixing it. Such a technical solution does not provide sufficient protection against fragments.

As a prototype, the authors chose the armor for protective vests according to the patent of the Russian Federation No. 2180425, MKI F41H 1/02, F41H 5/04, 2002, containing sequentially located bulletproof unit and felt, divided into two layers with a fabric of high modulus fiber impregnated with a polymer binder .

When the bulletproof vest is damaged (fired), the bullet breaks through the textile part from the outside and reaches the armor. In case of failure of the armor element, the bullet or part of the armor element in the area of interaction with the bullet is destroyed with the formation of numerous fragments, which, having a fairly high kinetic energy, tear the upper layer of fabric of the textile part of the body armor and can cause damage to unprotected parts of the body that protrude in front of the armor element, and people located in close proximity. A significant drawback of the prototype and analogues is the lack of protection against such fragments. Even if there is an anti-ricochet envelope or anti-ricochet block enveloping the armor element from high-strength fabric, the fragmentation flow is not localized due to the inability of the high-strength fabric to move.

The problem to which the invention is directed, is the creation of body armor, devoid of the disadvantages of the prototype and analogues.

To solve this problem, a bulletproof vest is proposed that contains at least two armor elements (dorsal and chest) located in the textile part, characterized in that in the textile part in front of each armor element an anti-ricochet screen is made of high-strength material, the area of which is at least 5% greater the area of the armor before which it is made. In this case, the linear dimensions of the anti-rifle screens on each side exceed the linear dimensions of the armor being closed by at least 5 calibres of the alleged weapons, to protect against which the bulletproof vest is intended.

The invention is illustrated in the drawing, which schematically shows a bulletproof vest in the context, where 1 is the textile part of the bulletproof vest, 2 is the anti-ricochet shield, 3 is the bulletproof element.

Body armor works as follows. When the bulletproof vest is damaged (fired), the bullet pierces the textile part 1 and the anti-ricochet shield 2 and reaches the armor 3. In case of non-penetration of the armor 3, the bullet and part of the armor 3 in the area of interaction with the bullet are destroyed with the formation of numerous fragments with high kinetic energy. The resulting fragments have a complex shape and low mass, and can also rotate. The greatest danger is fragments flying tangentially to the armor element 3, also called "creeping" fragments. Part of the fragments flies away towards the shooter, the rest crashes into the anti-rocket shield 2. The anti-rocket shield 2, when fragments hit it due to the lack of attachment with the armor 3, bends, spending the energy of the fragments to move the screen 2 and involving large areas of high-strength material in interaction with the fragments, which distributes the load, reduces the stiffness of the interaction and stops most of the fragments. The implementation of anti-ricochet screen 2 of high-strength material significantly reduces the likelihood of a screen breaking through a fragment.

The location of the anti-screen shield inside the textile part in front of the armored element limits the movement of the anti-shield screen, and the linear dimensions of the anti-screen shield on each side exceed the linear dimensions of the armor to be closed by at least 5 calibres of the intended weapons, to protect against which the armored element is designed to allow rounding of the armored element to the edges.

Because the anti-ricochet screen pressed by the textile part to the armor element repeats its shape and protrudes from each side with respect to the armor element being closed, the area of the anticorrosion screen should be at least 5% larger than the area of the armor element being closed.

Anti-rheumatic screens can be attached on the outside of the body in front of the armor to the inside of the textile part of the body armor, for example, sewn.

If there is a need to remove anti-rheumatic screens, then anti-rheumatic screens can be mounted on the outside of the body in front of the armor to the inside of the textile part of the body armor with “Contact” type fasteners.

Also, anti-skid screens can repeat the contours of the textile part of the body armor.

Comparative tests were carried out at the NGO stand of special materials, during which the MODUL 3M bulletproof vest was placed on the mannequin with an armor element made of steel SPS-43 with a thickness of 4.5 mm and an area of 10.5 dm ² , as a high-strength material for the anti-screen shield (area anti-rhetoric screen 16 dm ² ) 5 layers of high-strength ballistic nylon were used. Around the mannequin, perpendicular to the plane of the chest armor, screens were made of electric cardboard with a thickness of 1 mm and a width of 150 mm. The shelling made from an AKM assault rifle by a bullet with an unstrengthened core showed a more than 80% reduction in the number of fragments that reached the screens, relative to a similar shelling on body armor without an anti-missile shield.

Claims (4)

1. A bulletproof vest containing at least two armor elements (dorsal and chest) located in the textile part, characterized in that in the textile part in front of each armor element an anti-ricochet screen is made of high strength material, the area of which is at least 5% larger than the area of the armor element, in front of which it is made, and the linear dimensions of the anti-rifle screens on each side exceed the linear dimensions of the armor being closed by at least 5 calibres of the expected weapons, for protection from Otori designed body armor. 2. The body armor according to claim 1, characterized in that the anti-shell screens are attached on the outside of the body in front of the armor to the inside of the textile part of the body armor with the “Contact” clasps. 3. The body armor according to claim 1, characterized in that the anti-shell screens are attached on the outside of the body side in front of the body elements to the inside of the textile part of the body armor. 4. The bulletproof vest according to claim 1, characterized in that the anti-protector screens follow the contours of the textile part of the bulletproof vest.

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