KR20120092933A - Fabric layer for bulletproof clothes - Google Patents

Abstract

PURPOSE: A laminated textile structure for a body amour is provided to maximize effects absorbing kinetic energy of bullets and increasing frictional force with the overlapping of textile straps because more than two first fiber sheets are laminated. CONSTITUTION: A laminated textile structure for a body amour is formed by laminating one or more first fiber sheets(100) and one or more second fiber sheets(200). Textile straps(1,2) cross each other in directions of warps and wefts to form the first fiber sheet. The second fiber sheet is formed by weaving multiple filaments.

Description

Fabric Layer For Bulletproof Clothes

The present invention relates to a fabric laminated structure for use as a bulletproof material of the body armor for protecting the human body from firearms.

Body armor is a protective suit that protects our bodies from bullets that are fired and debris from explosions. Soft type body armor has a laminated structure of several layers of fabrics and fiber composite fabrics. It is a laminated structure of small caliber pistols or fiber composite fabrics and is used to protect the human body from fragments of small caliber pistols, shotgun bullets and grenades. In order to be protected from the impact of more than a rifle, a hard type body armor which is reinforced with metal or ceramic plates is used. In general, the soft type is used by police officers or security guard bodyguards, and the hard type is used by soldiers such as mercenaries and special forces personnel.

These body armor uses a powerful fibrous layer to deform the flying bullet and capture it in a net-like shape, distributing the force from the bullet over a wide area. Thus, body armor absorbs the energy resulting from the change in bullets, preventing bullets from penetrating the fibrous layer completely. The deformation of the bullet can damage part of the fibrous layer, but as a result the energy is dispersed over a wider area.

Although body armor blocks bullets, the energy of the bullets affects the human body to some extent. Therefore, even if a body armor is worn, the impact of the bullet hits the body. Therefore, in evaluating the performance of the body armor, not only the performance of the body armor but also the impact on the human body should be considered.

Body armor began to develop rapidly since World War II. In 1945, the United States developed a body armor laminated with glass fiber composite fabric, and during the Korean War, body armor made of nylon fabric and fiber-reinforced plastic or aluminum was developed. . Meanwhile, in the mid-1970s, body armor made with DuPont Kevlar was developed and used as body armor for police officers. Since then, Kevlar and steel plate body armor were widely used, but when large fragments or high-speed bullets hit the heart, people could not protect their lives from the impact. Various types of body armor were developed to compensate for these problems, but the weight was so heavy that it was difficult for police officers and bodyguards to wear them in everyday life.

Research on such a bulletproof material has been made in a variety of weaving method and lamination method from the aspect of yarn development. In particular, by applying the weaving technology using a high-strength yarn to strengthen the fabric to prevent the penetration of the ballistic body, or weaving a variety of techniques to induce the dispersion of impact energy of the bullet by weaving the fabric sparsely and flexibly come. As an example, Korean Patent Laid-Open Publication No. 1996-0010933 discloses fabrics for bulletproof fabrics using different yarns for the purpose of absorbing energy through elongation of one side to prevent penetration, and the other side to absorb energy through elongation during impact. Although the technique is disclosed, there is a problem of lack of flexibility and excessive weight of the fabric.

Therefore, according to the present invention, the conventional body armor has a high weight and is stiff, thereby overcoming the problem of deterioration in operability when worn, and providing a light weight body armor laminated fabric structure having excellent ballistic performance while having flexibility.

Therefore, according to the present invention, formed by crossing the fabric band in the oblique direction and weft direction A fabric laminated structure for bulletproof clothing is provided, wherein at least one first fiber sheet and at least one second fiber sheet woven from a multifilament are laminated.

Hereinafter, the present invention will be described in more detail.

Fabric laminated structure for body armor of the present invention is to be used as a bulletproof material inserted into the body of the body armor, formed by crossing the fabric band in the inclined direction and weft direction One or more first fiber sheets and one or more second fiber sheets woven from multifilaments are laminated.

In other words, the woven fabric laminated structure of the present invention is a laminated structure of a first fiber sheet and a second fiber sheet made of a high-strength yarn to maximize the kinetic energy absorption and friction force when the bullet penetrates each fiber sheet. By providing a laminated structure with excellent enhancement effect and excellent morphological stability of the fabric structure, it has a flexible, lightweight and excellent ballistic capability.

As the constituent fibers of the first fiber sheet and the second fiber sheet of the present invention, any one of aramid fibers, ultra high molecular weight polyethylene fibers, polybenzoxazole fibers, and carbon fibers may be used.

An example of the first fibrous sheet that is a component of the kevlar fabric laminated structure of the present invention is a braided fabric band in any one direction of the warp direction and the weft direction, as shown in Figure 1 It consists of 1) and the other direction uses a woven fabric band, ie a plain woven fabric band (2) woven into a plain weave tissue. The narrow fabric may be a band fabric, a circular fabric band and the like. One method for manufacturing the first fiber sheet is prepared by cutting the fabric woven in a plain weave tissue at a predetermined interval in the oblique direction, and then the fabric (1) of any one of the braid fabric band, narrow fabric to a certain width Cut to form a band-shape between the incision surface of the plain weave tissue to make up and down each fabric band (2) woven into a flat weave tissue of Hanol can be prepared as shown in FIG. As another method, each of the prepared braided fabric bands and narrow fabrics (1) in the weft direction, weaving fabric bands (2) woven in a plain weave tissue in a diagonal direction by supplying the first fiber as a whole as a plain weave tissue You can also provide a sheet.

Another example of the first fibrous sheet that is a component of the kevlar fabric laminated structure of the present invention may be made of any one of a braided fabric band, a narrow fabric of the warp and weft direction. In the example of the first fibrous sheet, the fabric strip may be arranged such that two or more of the braid fabric strip and the narrow fabric are alternately arranged.

In general, plain weave of fabric has high density of fabric and excellent shape stability of fabric, but high weight per unit area and low frictional effect of bullet in case of using as bulletproof material. However, braided fabrics and narrow fabrics have lower morphological stability than plain weave fabrics, but they have lower weight per unit area, and light and weft play so that they can maximize the kinetic energy absorption and the frictional force when bullets penetrate. This can be done. In particular, since the braided structure is continuously woven at a predetermined angle without cutting the yarn, it is considered that the impact propagation of the bullet is easy. The braid (Braid) tissue is as weaved by forming a certain angle from the weaving direction of the warp yarn and weft as shown in Figs. As one tissue, biaxial braided tissue or triaxial braided tissue is preferable.

When the first fiber sheet 100 shown in Figure 2 of the present invention is formed into a woven fabric band woven in a plain weave tissue in the oblique direction, braided woven fabric in the weft direction, the woven fabric (1) of any one of the narrow fabric It can increase the flexibility of the fabric laminated structure, reduce the weight per unit area of the braid structure, maximize the absorption of bullet kinetic energy, enhance the frictional force, and improve the shape stability of the plain weave tissue.

The second fiber sheet 200 shown in Figure 2 is a fabric of a plain weave tissue made of multifilament to be laminated to the back portion of the kevlar fabric laminated structure, that is close to the body to maintain the form of the entire kevlar fabric laminated structure Play a role. In some cases, the first fiber sheet and the second fiber sheet may be alternately laminated.

Fabric protective structure for body armor of the present invention is the first fiber sheet is laminated 2-10 sheets,

The 2 to 20 sheets of the second fiber sheet is laminated is effective to lower the weight per unit area of the entire body armor fabric laminated structure.

In particular, the laminated first fibrous sheet has two or more (100, 100 ') to be laminated so that the direction of the fabric band appearing on the surface as shown in Figure 2 of the bullet according to the overlap of the fabric band such as braid structure It is desirable to maximize the kinetic energy absorption of the bullet and the effect of increasing friction.

On the other hand, in order to improve the shape stability and anti-ballistic performance of the kevlar fabric laminated body of the present invention, the first fibrous sheet may be made by sewing the belt in the oblique direction and the weft direction is integrated.

Therefore, according to the present invention, the conventional body armor has a high weight and is stiff, thereby overcoming the problem of deterioration in wearability while providing excellent anti-ballistic performance while providing a flexible, breathable and lightweight body armor fabric laminated structure. there was.

1 is a surface photograph of the first fiber sheet of the kevlar fabric laminated structure of the present invention.
Figure 2 is a perspective view of the fabric laminated structure for body armor of the present invention.
3 is a photograph of the surface of a biaxial blade which is an example of a braided fabric which is a component of the first fiber sheet of the kevlar fabric laminated structure of the present invention.
Figure 4 is a surface photograph of a triaxial blade which is an example of a braided fabric that is a component of the first fiber sheet of the kevlar fabric laminated structure of the present invention.

The following examples are given as non-limiting examples of the kevlar fabric laminated structure of the present invention.

Example 1

After weaving aramid fabric into plain weave fabric using aramid filament with fineness of 840d, breaking strength of 26.5g / d, elongation of 3.6% and Young's modulus of 800g / d, incision was made at 2.2cm intervals in an oblique direction and then the same aramid filament was used. After weaving the biaxial braided tissue to cut into a width of 2.4cm to make a fabric strip, and put between the incision surface of the prepared plain weave tissue to be immersed for each flat weave belt prepared as shown in Figure 1 .

On the other hand, weaving a plain weave tissue in the same manner as the plain weave portion of the first fiber sheet was prepared by cutting to the same width as the first fiber sheet.

After laminating the five sheets of the first fiber sheet but the direction of the braid structure appearing on the surface is orthogonal, the prepared 12 sheets of the second fiber sheet is laminated on the rear surface of the first fiber sheet of the bulletproof body fabric of the present invention The structure was prepared.

Comparative Example 1

36 sheets of the second fiber sheet of the plain weave tissue prepared in Example 1 were laminated to prepare a fabric laminated structure for body armor.

The antiballistic performance was evaluated according to the physical properties of the Example 1 and Comparative Example 1 and NIJ Standard-0101.06 Standard of Ballistic Test (head warhead weight: 8.05g, loading amount: 0.398g, bullet rate 434.489m / s) to the following Table 1 It was.

division Weight (g) Weight per unit area (g / ㎠) Back Depth Depth (mm) Deformation diameter
(Mm) Longevity Example 1 946.81 0.592 39 61, 67.5 3 sheets of 1st fiber sheet,
7 sheets of 2nd fiber sheet Comparative Example 1 1,132.2 0.708 38 58.3, 69.3 Chapter 12.3

As shown in Table 1, Example 1 and Comparative Example 1 had the same level of back deformation depth and deformation diameter have equivalent ballistic performance in accordance with the NIJ standard, Example 1 is 15% weight compared to Comparative Example 1 It can be seen that the case is lighter than above. In addition, the width difference of the rear deformation in the embodiment was lower than in the comparative example, the variation in the direction was also reduced, it was confirmed that the kinetic energy absorption of the bullet is uniform.

1: Woven fabric band braided
2: Woven fabric woven into plain weave
100: first fiber sheet
200: second fiber sheet

Claims (11)

Formed by crossing the fabric bands in the warp and weft directions A fabric laminated structure for bulletproof clothing, characterized in that one or more first fiber sheets and one or more second fiber sheets woven in multifilament are laminated.
The method of claim 1, wherein the first fiber sheet is made of a braided fabric band of any one of the warp direction and the weft direction, made of any one of the narrow width of the narrow fabric, the other direction is made of a woven fabric band of plain weave tissue, The second fiber sheet is a woven fabric laminated structure, characterized in that the fabric of the plain weave tissue consisting of multifilament.
The method of claim 1, wherein the first fiber sheet is made of any one of the braided fabric band, narrow fabric in both the warp direction and the weft direction, the second fiber sheet is characterized in that the fabric of the plain weave tissue made of multifilament Fabric laminated structure for body armor.
The fabric laminated structure of claim 2 or 3, wherein the woven fabric band has two or more of braided woven fabrics and narrow woven fabrics alternately.
The fabric laminate structure of claim 1, wherein the first fiber sheet and the second fiber sheet are made of any one of aramid fibers, ultra high molecular weight polyethylene fibers, polybenzoxazole fibers, and carbon fibers.
The method of claim 1, wherein the first fiber sheet is laminated 2 to 10 sheets, the second fiber sheet is laminated body structure for bulletproof clothing, characterized in that 2 to 20 sheets are laminated.
The fabric laminated structure of claim 2 or 3, wherein the braid structure is a biaxial braid structure or a triaxial braid structure.
The fabric laminated structure according to claim 6, wherein the laminated first fiber sheet has two or more sheets laminated so that the direction of the fabric band is orthogonal.
The fabric laminate structure of claim 6, wherein the second fiber sheet is laminated to the rear portion of the first fiber sheet.
The fabric laminate structure of claim 1, wherein the first fiber sheet and the second fiber sheet are alternately laminated.
The fabric laminated structure of claim 1, wherein the first fiber sheet is integrally formed by sewing a fabric band in a warp direction and a fabric band in a weft direction.

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