RU2298144C2 - Armor of enhanced ergonomics for protective vest - Google Patents

Abstract

FIELD: individual protection of person against firearm and blank weapon, in particular, armor vests.

SUBSTANCE: the armor for a protective vest consists of in-line layers of fabric of high-modular fiber or felt. The inner layer of left from its inner side is made with vertical channels and additional channels, the additional channels have a width equal to the width of the vertical channels and pass with reference to them at an angle of 60 to 120 deg.

EFFECT: produced enhanced ergonomics of armor due to the enhanced ventilation of the behind-armor space with the protective properties remaining unchanged.

1 dwg

Description

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

Known textile armor, consisting of successively arranged layers of fabric from high modulus fiber, fabric from high modulus fiber impregnated with a polymer binder, and felt made from natural or artificial fibers (UK patent No. 2198628, MKI F 41 H 1/02).

The closest solution to the technical nature and the achieved result is a textile armor selected as a prototype (patent of the Russian Federation No. 12193745, MKI F 41 H 1/02), consisting of layers of fabric made of high modulus fiber and felt, the inner layer of felt on its inside has channels of certain sizes.

The disadvantage of this armor is that such armor does not provide the necessary level of ergonomics, because the air permeability of the felt is rather weak, and in conditions of active operations using a bulletproof vest, free air circulation in the reserved space is possible only in the vertical direction.

The low breathability of the felt necessitates the development of new design solutions that provide the necessary level of ergonomics and do not reduce the protective properties of the armor.

The main task solved by the invention is aimed at ensuring effective ventilation of the reserved space, which is achieved due to the fact that additional channels are made in the layer of felt facing the body, having a width equal to the width of the vertical channels, and passing in relation to them at an angle of 60-120 degrees. The choice of these numerical intervals is determined by ensuring the maximum free circulation of air necessary for a normal thermal regime, in which there is no overheating of the human body.

The drawing shows a fragment of the armor.

The outer layer 1 consists of a fabric of high modulus fiber. Layers 2 and 4 are made of felt. Layer 3 is made of high modulus fiber fabric impregnated with a polymer binder. In layer 4, channels are made that provide the necessary level of ergonomics of the armor, while the angle to the vertical channels is 60-120 degrees.

When a bullet hits the armor, the outer layer 1 holds it. At the same time, some of the layers of high modulus fiber fabric can be punched. Partially the energy of the bullet is transferred to subsequent layers. The felt layer 2 is deformed, partially absorbing energy, and partially transferring to subsequent layers.

Layers 3 and 4 provide further energy dissipation and reduce backward contusion injury to a safe level.

Moreover, as the bullet tests conducted at the NGO’s test bench of special materials showed, the presence of vertical channels in the felt layer 4 with the indicated ratios of the channel width to the distance between the two nearest channels and the channel depth to the thickness of the felt provides the maximum damping effect.

Claims (1)

Armor for a protective vest, consisting of sequentially arranged layers of fabric made of high modulus fiber and felt, the inner layer of felt on its inner side being made with vertical channels, characterized in that additional channels having a width equal to the width are made in the inner layer of felt on the inner side vertical channels, and passing in relation to them at an angle of 60-120 °.