RU2379616C2 - Flexible element of protective packet and protective packet with flexible elements for means of individual protection against bullets, fragments and piercing objects - Google Patents

Abstract

FIELD: textile, paper.

SUBSTANCE: group of inventions is related to means of individual protection and may be used to manufacture bullet-proof jackets, bullet-proof overalls, protective gloves, fencing clothes, etc. Flexible element of protective packet for means of individual protection against bullets, fragments and piercing objects comprises warp of high-strength aramid fabric with applied coating. High-strength aramid fabric of warp is represented by aramid fabric with density of threads on warp and weft of at least 26 threads/cm. Coating is arranged from nickel with thickness of less than 0.1 mcm and is applied onto both sides of fabric with provision of fabric and coating adhesion on molecular lever. Protective packet is also proposed for means of individual protection against bullets, fragments and piercing objects, including packet of above specified flexible elements.

EFFECT: improved protective properties and expansion of operational resources.

5 cl, 1 dwg

Description

The invention relates to personal protective equipment (PPE) from shock by bullets, fragments and piercing objects and can be used in the manufacture of body armor, body armor, protective gloves, for example, surgical, fencing clothes, etc.

Known protective flexible elements containing a base of high strength aramid fabric coated with a one-sided coating of solid material (International application WO 99/37969 A1, publ. 07.29.1999; RU 2156942 C1, F 21H 1/02, 5/04, publ. 09/27/2000 Bull. No. 27). As a solid material in the known elements used abrasive particles.

Known security features are pierced with a sewing needle. They have structural rigidity and insufficient mechanical strength, which leads to their stratification along the fabric-coating boundary and to shedding of abrasive particles, and, as a result, to low protective and operational properties. For the same reason, they are not suitable for cutting and sewing embossed details of protective clothing.

Known protective flexible element containing a base of high strength aramid fabric coated with a one-sided, thin, thickness of less than 100 microns, a coating of solid material (EP patent No. 0773869, CL B32B 5/26, F41H 5/04, publ. 21.05. 97).

As a solid coating material in the known element used ceramics deposited by plasma spraying.

The known protective flexible element, as described above, is pierced with a sewing needle. It has insufficient flexibility and toughness due to the glassy nature of its coating, which is therefore subject to chipping during impacts and the formation of fractures during bending. The element, as well as the above, is not suitable for cutting protective clothing, especially for the manufacture of relief products.

The flexible element according to EP patent No. 0773869 is the closest in technical essence to the claimed one and is selected as the closest analogue (prototype).

Known protective package consisting of flexible elements, each of which contains a base of high strength aramid fabric coated with a single-sided coating of solid material (International application WO 99/37969 A1, publ. 07.29.1999; RU 2156942 C1, F41H 1/02 5/04, published September 27, 2000 Bull. No. 27).

Known protective package consisting of flexible elements, each of which contains a base of high strength aramid fabric coated with a one-sided thin coating of solid material, the thickness of which is less than 100 microns (EP patent No. 0773869, CL B32B 5/26, F41H 5 / 04, publ. 05.21.97). As a solid coating material in the flexible elements of the known protective package used ceramic deposited by plasma spraying.

The insufficiently high protective and operational properties of the known packages are due to the above-described disadvantages of the flexible elements included in their compositions.

The protective package according to European patent No. 0773869 is the closest in technical essence to the claimed one and is selected as the closest analogue (prototype).

The technical problem to which the invention is directed is the development for PPE of a light, flexible, cutting (which is important for the cut of clothes), but not flexible element and protective bag consisting of these elements that can withstand force even with nine elements puncture up to 549 N or impact energy 4.8 J or more.

The technical result that can be obtained by using the inventions is to increase the protective properties by increasing the puncture resistance and to expand the operational capabilities of the developed flexible element and package.

The problem is solved in that in the known flexible element of the protective bag for PPE from bullets, fragments and piercing objects, containing a base of high-strength aramid fabric coated on it, according to the invention, as a high-strength aramid fabric base used aramid fabric with a thread density of basis and weft of at least 26 threads / cm, the coating is made of nickel with a thickness of less than 0.1 μm and is applied on both sides of the fabric to ensure that the fabric and coating are bonded at the molecular level, while in the particular case s is in the form of electroplating.

The problem is also solved by the fact that in a protective bag for PPE from bullets, fragments and piercing objects, including a bag of flexible elements according to the invention, the bag consists of flexible elements according to any one of claims 1 to 2, while in particular cases of application of the invention, the bag additionally contains flexible armored elements from high-strength aramid fabric and anti-traumatic flexible elements from non-woven aramid material.

Distinctive features of the prototype features of the claimed flexible element of the protective package for PPE are the following:

a) signs that provide a technical result in all cases:

- the use of aramid fabric with a thread density of warp and a weft of at least 26 threads / cm as aramid fabric of the warp;

- the implementation of the coating of Nickel;

- performing coatings with a thickness of less than 0.1 microns;

- coating on both sides of the fabric with the connection of the fabric and coating at the molecular level;

b) signs that provide a technical result in a particular case:

- execution of the coating in the form of electroplating.

Distinctive features of the proposed protective package for PPE are the following:

a) a sign that provides a technical result in all cases:

- a package consisting of flexible elements according to claims 1 to 2,

b) the signs that provide a technical result in special cases:

- the presence in the package of additionally flexible armor elements from high-strength aramid fabric,

- the presence in the package of anti-traumatic flexible elements of non-woven aramid material.

These distinctive features, individually and collectively, are aimed at achieving the stated result and are significant. In the prior art, the set of known and distinguishing features presented in the formula is not known and, therefore, the invention meets the criterion of "novelty."

The claimed flexible element of the protective package for the above PPE has several advantages over the flexible element of the prototype:

- increased strength to withstand high impact energy,

- increased flexibility and, even more, drape with the fact that the coating is applied on both sides of the fabric with the connection of the fabric and the coating at the molecular level,

- the needle piercing ability of the sewing machine,

- cut, and therefore the possibility of cutting along the relief,

- a variety of use in protective clothing (vest, pads, underpants, gloves).

Increased strength, flexibility and drape of the proposed element are due to the choice of Nickel as the coating material and the ultrafine coating itself, comprising less than 0.1 microns. Nickel, being a solid and at the same time viscous (malleable) material, possesses precisely those properties that are necessary for the destruction of the tip of a piercing object (needle, awl, sharpening, etc.) and absorption of impact energy. The development was carried out in the direction of applying a nickel ultrathin coating on a flexible, but dense base. This turned out to be possible using high-density and high-strength aramid fabric as a basis and a chemical-galvanic coating method. The result of the development was the inventive flexible element, in which a fabric with a density of threads on the warp and a weft of at least 26 per 1 cm and a nickel coating less than 0.1 microns thick are integrally connected to each other, that is, form a single whole due to the fact that their connection is expressed at the molecular level with the placement of nickel molecules not only above, but also between tissue molecules. As a result, the coating does not crumble and does not chip when bent.

The choice of fabric with the specified density of threads is due to the desire to achieve a high density of the coating on its surface and, along with this, a high degree of absorption by it of the residual impact energy. A fabric with a lower density of threads would contribute to obtaining uneven coverage density, and hence the appearance of vulnerable areas on it.

The ultra-thin coating made it possible to preserve the drape of the fabric and transfer it to the entire flexible element. In addition, it provided a relief coating, exactly repeating the relief of the weaving of threads in the fabric.

The coating on both sides of the fabric ensured complete isolation of the fabric, including its lateral edges, which eliminated the possibility of violating the integrity of the element when exposed to its peripheral areas.

Thus, the claimed flexible element in comparison with the prototype is more effective in terms of its protective properties and ergonomic in terms of its consumer properties. It is the basis for creating a protective package against piercing weapons, but it is also suitable for the manufacture of autonomous products that provide protection against punctures: gloves, aprons, technical overalls, etc.

A protective bag designed to protect against the effects of a piercing tool or weapon is recruited from the required number of declared flexible elements. In this case, the above advantage of the flexible element is manifested: coating on both sides of the fabric. Having a high coefficient of friction, the nickel coating provides a stable position of the elements in the package relative to each other and does not require their fastening to each other. To achieve compactness, every three or four elements are recommended to be glued (but not stitched) along the contour. A traditional connection by flashing on a sewing machine is not possible, because The item is not pierced with a sewing needle. The number of elements in a package depends on the required degree of protection. In most cases, 9-18 elements are enough, because a pack of 9 elements already provides protection against puncture with a force of up to 549 N or impact energy of 4.8 J, and a pack of 18 elements reflects the energy of a stab in 21 J, which is a sufficient level of protection against modern stabbing weapons. If necessary, the number of elements in the package can be reduced or increased.

The protective package of the claimed flexible elements is thin and light. Collected from 18 elements, it has a thickness of only 8.0 mm and a surface density of 5.56 kg / m ² .

The proposed package can become part of a package designed to protect against ballistic and piercing effects. Then it is supplemented by 28-34 flexible armor elements made of ballistic-resistant aramid fabric.

Any of the described packages can be equipped with anti-traumatic flexible elements made of non-woven aramid material.

The structure of the element according to the invention (cross section) is shown in the attached drawing.

The flexible element of the protective bag contains a base 1 and a coating 2. The base 1 is made of high-strength aramid fabric with a thread density of warp and a weft of at least 26 per 1 cm, and a coating 2 of a thickness of 0.09 μm is applied to both sides of the base fabric 1. Such an element withstands a piercing blow with an energy of 0.5 J. He does not pierce the needle of the sewing machine.

The protective package consists of flexible elements 1, stacked on top of each other by either side (the sides of each element are the same, in this regard, the drawing of the package is not presented). As mentioned above, a package of 18 flexible elements 1 withstands a piercing blow with an energy of 21.0 J.

Compared with the claimed flexible element and the prototype package are destroyed under similar test conditions.

The work of a flexible element and a protective package of flexible elements.

When a sharp object strikes a flexible element, for example, with a needle of a sewing machine, the impact is perceived by the nickel coating of the element facing the object, which, due to its hardness, stops or destroys the needle (the needle breaks or dulls) and, due to its viscosity, dissipates the main share of the impact energy. The residual energy is absorbed by the fabric and the nickel coating on the back side.

When struck with a stabbing weapon, for example, sharpening (impact energy 21 J) on a protective bag made of flexible elements, the primary energy is absorbed by the first 1-3 elements with their destruction, approximately the same level, and slight heating. The main energy absorption occurs in the following 12-15 elements with the participation of all components of each element according to the scheme "Nickel coating - dense fabric - Nickel coating." In the process of absorption, the level of destruction from element to element gradually decreases to zero, and significant heating is observed due to the transition of impact energy into thermal energy. This transition is due to high friction coefficients between nickel coatings of flexible elements and sharpening metal and between nickel coatings of adjacent elements. Residual energy is absorbed by the components of undestructed flexible elements.

If the protective package is supplemented with flexible armor elements and anti-traumatic elements, the number of declared flexible non-piercing elements can be reduced.

Flexible elements and protective bags from these elements are made on the equipment of textile and chemical industries.

Claims (5)

1. A flexible element of a protective bag for personal protective equipment against bullets, fragments and piercing objects, containing a base of high-strength aramid fabric coated with a coating, characterized in that aramid fabric with a density of warp and weft density is used as a high-strength aramid fabric not less than 26 threads / cm, the coating is made of nickel with a thickness of less than 0.1 μm and is applied on both sides of the fabric with the connection of the fabric and the coating at the molecular level. 2. The element according to claim 1, characterized in that the coating is made in the form of electroplating. 3. A protective package for personal protective equipment against bullets, fragments and piercing objects, including a package of flexible elements, characterized in that the package consists of flexible elements according to any one of claims 1 and 2. 4. The package according to claim 3, characterized in that it further comprises flexible armor elements from high-strength aramid fabric. 5. The package according to claim 3 or 4, characterized in that it further comprises anti-traumatic flexible elements of non-woven aramid material.

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