RU208956U1 - Bulletproof body armor with a protective element based on a fluid with variable dynamic viscosity - Google Patents

Abstract

The utility model relates to personal protective equipment, specifically to body armor. Bulletproof body armor with a protective element consisting of an armor panel consisting of para-aramid fiber, as well as a layer of liquid with changing dynamic viscosity. The technical result consists in minimizing the risk of a fighter getting an obstructive injury when a bullet hits. 1 ill.

Description

The utility model relates to personal protective equipment against firearms. The purpose of the useful model is to reduce the risk of a fighter getting a behind-the-line injury when hit by a bullet.

Known bulletproof vest (RU 2379615 C1, 09/03/2008), from the chest and dorsal sections, including a cover, armored panels or a set of plates in the form of scales, a vest placed between the body and armored panels and having cavities with a depth equal to or comparable to the transverse deformation of the armored panels when exposed to among the striking elements, the cavities are located in a checkerboard pattern at a distance of 50 mm from each other, in each of which a syringe-tube is placed with the possibility of removing and replacing. This syringe tube has the shape of a cone, the top of which is connected to a plastic injection needle 2-3 mm long, directed perpendicularly towards the inner surface of the body armor, having beards on the outer surface of the piercing part, hermetically sealed by a membrane and placed in a cap made of plastic material, transverse the dimensions of which are equal to the transverse dimensions of the syringe-tube, while the bottom of the cap and the bottom of the syringe are in the same plane with the corresponding surface of the vest, the piercing end of the needle is located at a distance of 0.5 mm from the surface of the bottom of the cap, and the syringe is filled with a local anesthetic solution under positive pressure.

The disadvantages of an analogue object are the complexity of the design, as well as the fact that it is necessary to select a certain anesthetic substance for each fighter individually, depending on the conditions of combat, the severity of the lesion, as well as the physiological characteristics of health. In addition, it cannot be ruled out that if bullets hit this body armor, the needle through which the antiseptic is injected, may break during the movement of the fighter, which will also lead to even greater discomfort during the battle.

The objective of this utility model is to reduce the risk of a fighter getting an obstructive injury.

The essence of the utility model is as follows. When a bullet hits a bulletproof vest and then penetrates the Kevlar armored panel, the armored panel flexes. The released thermal energy, as well as the residual impulse, takes over, in the case of using a conventional bulletproof vest, the body of a fighter, which subsequently leads to serious injuries. In this case, the released thermal energy, as well as the residual impulse, could be taken over and further dissipated throughout the volume by a liquid with a changing dynamic viscosity.

It is proposed to use a protective element consisting of two elements - a Kevlar armored panel and a layer of liquid with varying dynamic viscosity, which is located in a special container located immediately behind the armored panel. Due to the high viscosity of the liquid, even if the Kevlar armor plate is pierced, the bullet will be stopped and no liquid will flow out. The interaction of liquid and armored panels does not affect the ballistic characteristics of the latter.

The proposed utility model allows minimizing the risk of a fighter getting an obstructive injury, rib fractures and other negative consequences for the body when a bullet hits a bulletproof vest.

The utility model is implemented as follows. When a bullet hits a bulletproof vest, the fabric cover is pierced and the bullet hits the Kevlar armored panel. Under the influence of a bullet, the armored panel flexes, and the energy and momentum of the bullet released in this case dissipates the liquid. Due to the fact that the liquid dissipates energy much better than the dampers used in modern body armor, the risk of the fighter receiving any extra-grade damage will be minimal.

An example of a specific implementation of the invention is an experimental model of a bulletproof vest, shown in Fig. one.

The model shown in Fig. 1., includes: 1- chest section; 2- dorsal section; 3- Kevlar armored panel; 4- a container with a liquid, the liquid has a dynamically changing viscosity; 5- belt fastening regulators. The body armor contains a chest section 1 and a dorsal section 2, under each of which there is a Kevlar armor panel 3. A container 4 containing a liquid with a varying dynamic viscosity is located immediately by the armor panel. On the sides there are 5 belt fastening regulators. The composition of the liquid was a mixture of polymethylsiloxane liquid, with a kinematic viscosity of more than 2,000,000 cSt, and finely dispersed boron carbide. The composition was made in the following proportions: 50 grams of finely dispersed boron carbide per 1 liter of liquid.

This experimental model was tested for compliance with the requirements for bulletproof vests of the 2nd class of protection. The test results showed no penetration, no leakage of liquid after being hit by a bullet, and an extremely low risk of getting a barrier effect.

Thus, the proposed object makes it possible to minimize the risk of a fighter getting an obstructive injury when a bullet hits.

Claims (1)

Bulletproof body armor with a protective element consisting of an armor panel consisting of para-aramid fiber, as well as a layer of liquid with changing dynamic viscosity.

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