RU2113680C1 - Armor facing - Google Patents

Abstract

FIELD: individual and transport facilities of armor facing, as well as protection of cargoes against bullet hits. SUBSTANCE: armor facing uses antifragment pack 1, with main protective members 2 placed in textile bags 3 butted on its one side. Located above the butt joint of adjacent members 2 on the opposite side of antifragment pack 1 are additional protective members 4 placed in textile bags 5. Shock- absorbing pack 6 is positioned on the side of main members 2. The structure is enclosed in bag 7. Retainers 8 for the main protective members and retainers 9 for the additional protective members are installed on the extreme through bags on the external side. Shock-absorbing pack 6 is enclosed in shell 10 of water-proof material. EFFECT: enhanced reliability. 4 cl, 4 dwg

Description

 The invention relates to mechanical engineering technology, in particular to armor protection, and can be used to protect people, vehicles and cargo from bullet damage.

 Known protective vest (Fr, application N 1599798, class F 41 H 1/00), containing armor plates mounted end-to-end and articulated to each other, armored strips mounted above the joints of adjacent armor plates in one direction. This design of body armor provides protection of the object from bullets of small caliber. The reliability of the armor is enhanced by protecting the joints of the armored strip. The design of the body armor is heavy and inconvenient to use due to its rigidity. In addition, in such a design it is difficult to replace damaged armored elements.

 Also known is a bulletproof vest (Fr, application N 2170457, class F 41 H 1/00), consisting of metal plates coated with at least one layer of solid inorganic material and installed in fabric pockets displaced with mutual overlapping of the rows. This design is convenient in operation in the sense of replacing damaged elements, but it has significant overall mass characteristics due to the multiple overlapping of the protective elements.

 The closest in technical essence to the claimed armor protection is protective clothing (RU, patent N 2005981, F 41 H 1/02), containing the main protective elements located butt-on, additional protective elements located above the junction. Protective elements are placed in textile pockets mounted on a flexible circuit board on at least one side with the possibility of their relative movement. A flexible contact board with pockets for protective elements is installed between the shock-absorbing and anti-shatter packages. For a more tight connection of the main and additional protective elements with each other, with a cushioning bag and a flexible board, the protective clothing can be equipped with a set of elastic bands attached with the ends to the edges of the flexible circuit board. Such protective clothing allows to ensure freedom of movement during its operation by increasing its flexibility, elasticity and reducing size. However, despite the fact that the protective elements are located in separate pockets, their replacement is difficult due to the complexity of the design of protective clothing, which is associated with a large number of structural elements.

 The problem solved by the present invention is to improve the operational characteristics of body armor by facilitating the replacement of damaged protective elements and reducing its overall mass characteristics while maintaining protective properties.

The technical result obtained by using the invention is as follows:
- ease of use by ensuring a sufficient degree of mobility of the elements relative to each other;
- the ability to quickly replace damaged protective elements;
- simplicity of design;
- relatively small overall mass characteristics;
- protection against high-speed ballistic indenters with a diameter of 3.5-7.62 mm (in accordance with the choice of protective elements - ceramic, metal, fabric, plastic or a combination thereof);
- when performing protective elements made of ceramic with a composite, the density of the surface of the armor protection does not exceed 37.5 kg / m ² .

To solve the problem in the well-known armor protection, containing the main protective elements located end-to-end, and additional protective elements located above the junction, an anti-splinter package, the main and additional protective elements are placed in covers made of textile fabric, according to the invention, covers for the main and additional protective elements are placed on the anti-splinter package from opposite sides, the covers for the main protective elements are made through and on the extreme through covers from the outside The first side has latches. Covers for additional protective elements can be installed with the possibility of their replacement and can be made through. In the case of making covers for additional protective elements end-to-end, locks are installed on the outer covers from the outer side. The width of the main and additional protective elements (b and a, respectively) and the distance between the main protective elements are in the following ratio:
b>a> c + d,
Where
c is the distance between the main protective elements at the junction in the absence of bending, mm;
d is the thickness of the main protective elements, mm

 Placing the protective elements on the anti-splinter package allows to exclude the mounting plate and the number of fasteners (a set of elastic bands) from the armor protection design. This greatly simplifies the design of armor protection and reduces its overall mass characteristics. Simplification of the design by reducing the number of structural elements facilitates access to the protective elements, and the implementation of end-to-end covers allows you to quickly replace damaged protective elements, which is a significant advantage during the operation of body armor. Even more convenient in operation is the installation of covers for additional protective elements with the possibility of replacing them with a damaged element, for example, installing covers on a Velcro or buttons, installing latches on the outside of the end-to-end covers for protective elements includes the appearance or increase of the gap in the process operation, which preserves the protective properties of armor protection.

 In FIG. 1 shows sectional armor protection; in FIG. 2 and 3 - general view of armor protection; in FIG. 4 - the reverse side of the armor.

 The claimed armor protection consists of an anti-fragmentation bag 1, on one side of which the main protective elements 2 are located end-to-end, located in textile covers, 3 attached by a textile seam to the anti-splinter bag 1. Above the junction of adjacent elements 2, additional protective elements are placed on the opposite side of the anti-fragmentation bag 1 4 located in textile covers 5. On the side of the main protective elements 2 there is a shock-absorbing package 6. On the outermost through covers from the outside There are latches 8 for main protective elements and latches 9 for additional protective elements. The cushioning bag 6 is enclosed in a shell 10 of a waterproof material. The whole structure is enclosed in a common (outer) cover 7.

 The splinterproof package 1 is made of several layers of strong fabric, for example, high modulus fabric, nylon or aramid fibers. Covers 3 under the main protective elements 2 are made of textile fabric and are connected to the opposite package 1 with a durable textile seam with nylon threads. Covers 5 for additional protective elements 4 are made of durable fabric, for example, high modulus fabric and nylon, and are attached to the shatterproof package 1 with a textile seam or using Velcro, buttons, buttons, etc.

Covers 3 and 5 for the main and additional protective elements 2 and 4 are made end-to-end for ease of assembly and replacement of failed elements. To eliminate the appearance of a gap between the protective elements during the operation of the body armor, the clips 8 and 9, for example, Velcro, buttons, buttons, etc., are installed on the outer side of the extreme through covers. Depending on the protection class, the main 2 and additional 3 elements can be ceramic, metal, fabric, plastic or combinations thereof. The width of the additional protective elements a should not exceed the width of the main protective elements b, but should be greater than the size of the joint c between adjacent main elements by an amount d equal to the thickness of the main protective elements:
b>a> c + d
For a tighter fit to the body and achieve secrecy when wearing protective clothing, the main and additional protective elements can be made with a certain radius of curvature close to the radius of the human body at the locations of the elements.

 The armor protection, made in the form of a vest or jacket with trousers, contains a cover made of durable fabric that is resistant to abrasion and external influences (rain, fire, aggressive liquids, solar radiation, etc.). Inside the cover 7, from the side of the main protective elements 2, an amortization package 6 is installed, consisting of layers of high-strength elastic fabrics, materials, or combinations thereof. To impart water-repellent properties, the armor protection case 7 is impregnated with a water-repellent composition or, for simplicity, the shock absorption package 6 is placed in a waterproof shell 10.

 Armor protection, made in accordance with the invention, operates as follows. When a high-speed indenter gets into the armor protection, the outer layer of the cover is broken and the indenter interacts with the protective element. The core of the indenter is destroyed, and the fragments are perceived by an anti-shatter package. Concentrated shock is perceived by the cushioning package and distributed over a large area, which makes the load safe. If the protective elements are damaged, the claimed design allows for the quick replacement of damaged elements. When replacing the main protective element 2, the latch 8 is opened and the damaged element is removed from the through cover 3, and a new protective element 2 is installed in its place. When replacing the additional protective element 4, the latch 9 is opened and the damaged element is removed from the through cover 5, and in its place install a new protective element 4. If the cover 5 under the additional protective element 4 is mounted on Velcro or buttons, then it is replaced with the damaged element.

The industrial applicability of the claimed armor is confirmed by experimental data. For example, consider a fragment of the claimed armor protection:
- four main protective elements made of ceramic with composite;
- five additional protective elements made of ceramic with a composite;
- anti-splinter package of layers of high modulus and textile fabrics;
- covers for the main elements are made of textile fabric;
- covers for additional elements are made of layers of high modulus and textile fabrics;
- depreciation package of layers of high modulus and textile fabrics;
- a cover common of textile fabric;
- clamps of the main and additional elements are made of Velcro;
- additional elements are installed on the anti-splinter package using Velcro.

Fragment size: 200 • 200 • 45 (mm). Surface density: 37.5 kg / m ² .

A fragment of the body armor was tested from a distance of 10 m:
- from an AK-74 assault rifle (7N10 bullets of 5.45 mm caliber) - 4 shots;
- from an AKM assault rifle (BZ bullets of 7.62 mm caliber) - 4 shots;
- from the USA M-16 rifle (5.56 mm caliber bullets) - 2 shots;
- from the SVD rifle (LPS bullets of 7.62 mm caliber) - 2 shots.

 When examining the body armor, it was found that when firing all types of bullets, the armor protection is not broken, the fragments of bullets and ceramics are inside the elements in an anti-shatter package, the cover has no gaps, except for the bullet inlets.

 An experimental verification confirmed the achievement of the specified technical result.

The armor protection according to the invention is convenient in operation due to the sufficient degree of mobility of the protective elements relative to each other. This is ensured both by the relative position of the protective elements, and by the materials used. The design of the body armor allows for the quick replacement of damaged protective elements. Armor protection is easy to manufacture, has a relatively small overall mass characteristics and has high protective performance. So, for example, in the manufacture of protective elements made of ceramic with composite, the surface density of armor does not exceed 37.5 kg / m ² and provides protection against bullets of automatic systems of caliber 5.45; 7.62 mm (AK-74; AKM), 5.56 mm caliber rifles (US M-16), 7.62 mm caliber (SVD).

Claims (4)

 1. Armor protection, containing the main protective elements located butt-on, and additional protective elements located above the junction, an anti-shatter package, while the main and additional protective elements are placed in covers made of textile fabric, characterized in that the covers for the main and additional protective elements placed on the anti-splinter bag on opposite sides, the covers for the main protective elements are made through, and the extreme through covers on the outside are equipped with clips for protective elements.  2. Armor protection according to claim 1, characterized in that the covers for additional protective elements are installed with the possibility of replacement.  3. Armor protection according to any one of claims 1 and 2, characterized in that the covers for additional protective elements are made end-to-end, while the extreme end-to-end covers are provided on the outside with clamps for the protective elements.  4. Armor protection according to any one of claims 1 to 3, characterized in that the width b and a of the main and additional protective elements and the distance between the main protective elements are in the following ratio: b> a> c + d, where c is the distance between the main protective elements at the junction in the absence of bending, mm, d - the thickness of the main protective elements, mm.

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