RU211247U1 - Protective block for body armor - Google Patents

Abstract

The utility model relates to the field of personal armor protection for personnel, in particular to bulletproof vests of the 1st and 2nd class of protection against the effects of shell fragments (grenades).

The essence of the proposed utility model is that the body armor protective unit consists of anti-ricochet 10-layer high-modulus fabric package, two protective modules and a damper module.

The first module is made according to a combined scheme and consists of 15 layers of high-modulus aramid fabric made of non-twisted fiber, glued together with a polyethylene film and impregnated with a polymer binder; 15 layers of microfilament pararamide threads with a linear density of 29.4 tex impregnated with a polymer binder.

The second module consists of a panel based on ultra high modulus polyethylene (UHMWPE) fibers 10 mm thick.

The shock-absorbing-damper module is made in the form of a plate of impact-resistant polystyrene 10 mm thick with a ten-layer package of high-modulus Rusar fabric fastened on an adhesive basis and profiled strips of elastic material (such as isolon PPE).

The last module is designed to dampen dynamic loads arising from the impact of means of destruction on protective elements and reduce the degree of armored contusion injury to the second degree according to GOST R 50744 (as amended), as well as to ventilate the vest space of the bulletproof vest.

Distinctive features from the prototype is the overall design of the protective block of the bulletproof vest and the constituent protective elements.

The achievement of the technical result of the application of this utility model is to increase the protective properties of the protective unit and body armor as a whole at given mass parameters when exposed to fragments of ammunition.

Description

The proposal for a utility model relates to the field of personal armor protection for personnel, in particular to bulletproof vests of the 1st and 2nd class of protection against the effects of shell fragments (grenades).

Known bulletproof vest (Russian patent for invention No. 2229087 dated 20.05.2004 MCP F41H 1/02), consisting of connected detachable shoulder and side attachments of the chest and back sections, each of which is a cover, inside of which there is a layered protective package, including ballistic fabric , placed in a flexible waterproof case, and a circuit board, on which pockets for armor plates are fixed on both sides like fish scales in two mutually perpendicular directions. The disadvantage of this bulletproof vest is its excess weight, imperfect design of protective blocks (like fish scales, as in bulletproof vests of the 6B5 series, which have long been withdrawn from supply).

Also known is a bulletproof vest (Russian patent for the invention No. 2285887 dated 20.10.2006 MCP F41H 1/02), containing a cover with overlapping armor plates in pockets and a substrate. The disadvantage of this bulletproof vest is its excess weight, imperfect design of protective blocks (like fish scales, as in bulletproof vests of the 6B5 series, which have long been withdrawn from supply).

Also known is a bulletproof vest (Russian patent for the invention No. 2259533 dated 27.08.2005 MKI F41H 1/02), containing placed in covers and connected by fastening and adjusting elements, the back and chest sections, made in the form of a set of protective elements, each of which consists of sequentially placed armor plates, a package of ballistic fabric made of high-modulus fiber and a damping element. The armor plate is made of high-strength steel. The disadvantage of this body armor is its low protective characteristics (does not protect against bullets with a heat-strengthened core, armored contusion injury is observed when protection is not penetrated above the 2nd degree), the shock-absorbing and damping properties of this body armor require improvement.

Also known is a bulletproof vest (Russian patent for the invention No. 99140 dated 25.6.2010 MKI F41H 1/02), in which the bulletproof module consists of three blocks (a block with a matrix of a viscoelastic alloy having a honeycomb geometry with through corner holes, a metal plate with non-through holes , a block of two dissimilar fabric bags; impact polystyrene plates with a ten-layer bag). The disadvantage of this body armor is its low protective characteristics (there are cases of bullet ricochet, penetration of the protective module).

The closest solution in terms of the technical essence and the achieved result of the proposed utility model is the protective block of the dorsal section of the protective body armor (Russian patent for the invention No. protective blocks of various designs are placed. The protective block of the back section is made combined and consists of five modules: the first, consisting of 5 layers of high-modulus Rusar fabric; the second, consisting of 20 quilted layers of fabric art. 11938; the third, consisting of 10 layers of high-modulus Rusar fabric; the fourth, consisting of 25 layers of quilted fabric art.11938 and the fifth (shock-absorbing-damper) module, made according to a combined scheme and consisting of 10 layers of high-modulus fabric made of non-twisted fiber, glued with a polyethylene film and impregnated with a polymer binder; 10 layers of microfilament para-aramid threads with a linear density of 29.4 tex impregnated with a polymer binder; impact polystyrene plates 8 mm thick with a ten-layer package of high-modulus fabric TSVM-2 fastened on an adhesive basis.

The disadvantage of this protective block of body armor is insufficient protective characteristics against fragments of NATO high-explosive fragmentation shells manufactured in 2015-2020.

The essence of the proposed utility model is that the body armor protective unit consists of anti-ricochet 10-layer high-modulus fabric package (1), two protective modules and a damper module (Fig. 1). The first module (2) is made according to a combined scheme and consists of 15 layers of high-modulus aramid fabric (2a) made of untwisted fiber, glued together with a polyethylene film and impregnated with a polymer binder; 15 layers of microfilament pararamide threads (2b) with a linear density of 29.4 tex impregnated with a polymer binder.

The second module consists of a panel (3) based on ultra high modulus polyethylene (UHMWPE) fibers 10 mm thick.

The shock-absorbing-damper module (4) is made in the form of a plate made of impact-resistant polystyrene (4a) 10 mm thick with a ten-layer package (4b) fastened on an adhesive basis made of high-modulus fabric Rusar and profile strips made of elastic material (such as isolon PPE) - 4c.

The last module is designed to dampen dynamic loads arising from the impact of means of destruction on protective elements and reduce the degree of armored contusion injury to the second degree according to GOST R 50744 (as amended), as well as to ventilate the vest space of the bulletproof vest.

Distinctive features from the prototype is the overall design of the protective block of the bulletproof vest and the constituent protective elements. The achievement of the technical result of the application of this utility model is to increase the protective properties of the protective unit and body armor as a whole at given mass parameters when exposed to fragments of ammunition.

The implementation of the utility model is as follows.

When a fragment hits the protective block of the body armor and when it breaks through a 10-layer fabric package, it interacts with the first module, resulting in a slowdown in the speed of the fragment, a change in the direction of its movement.

When breaking through the first module of the protective block, the fragment interacts with the second module of protection. A panel based on ultra-high-modulus polyethylene fibers, when interacting with a fragment, actively dissipates its motion energy and significantly reduces the potential breakdown impulse.

If this panel is not penetrated by a fragment, the shock-absorbing-damper module dampens the dynamic loads arising from the impact of weapons on the protective elements and reduces the degree of armored contusion injury.

The results of computational experiments on the assessment of the interaction of various fragments with the protective block of the body armor of the proposed design correlate with the experimental data and confirm the sufficiently high protective properties of the utility model for the entire series of fragmentation flow. The finite element model of interaction in the system "fragment - protective block - biological object simulator" is shown in Fig. 2, where 5 is indicated - a fragment; 6 - protective block (modules 1 and 2); 7, 8 - shock absorber module; 9 - gelatin block. In FIG. Figure 3 shows the nature of the destruction of the protective block during the introduction of a fragment (a) and the nature of the change in pressure (b). In FIG. 4 shows the graphical dependences of the values of speed (a), displacement (b) and pressure (c) as a function of time.

Thus, the achievement of the technical result of the application of this utility model is to increase the protective properties of the protective unit and body armor as a whole at given mass parameters when exposed to ammunition fragments.

Claims (1)

The protective block of the bulletproof vest, characterized in that it consists of three protective modules and a shock-absorbing-damper module; the first module consists of a 10-layer high-modulus fabric bag ; the second module is made according to a combined scheme and consists of 15 layers of high-modulus aramid fabric made of non-twisted fiber, glued with a polyethylene film and impregnated with a polymer binder, and 15 layers of microfilament pararamid yarns with a linear density of 29.4 tex, impregnated with a polymer binder; the third module is made in the form of a panel of ultra-high-modulus polyethylene UHMWPE fibers 10 mm thick; shock-absorbing-damper module contains a plate of shock-resistant polystyrene 10 mm thick, a package of 10 layers of high-modulus fabric Rusar and profile strips of isolon brand PPE, bonded on an adhesive basis.

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