RU2175035C2 - Ballistic protection cloth and pack based on ballistic protection cloth - Google Patents

Abstract

FIELD: textile industry. SUBSTANCE: cloth is manufactured from high-strength aramide threads of equal linear density in warp and weft directions, similar longitudinal configuration and equal number of threads per unit of width in both directions and twisting rate not exceeding 4. Cloth is manufactured by satin, twill or wafer weave of single threads and satin, twill, calico or wafer weave of 2-6 threads in warp and weft directions. Regular satin weave has pattern repeat of 5-10 with constant shift of from 2 to 7 and irregular satin weave has pattern of 4 to 10 with variable shift of from 1 to 8. Twill weave has 1-8 warp overlappings and 2-8 weft overlappings. Wafer weave pattern repeat has 4-16 threads. Pack of ballistic protection cloth has front and rear cloth layers arranged in succession and manufactured from high-strength aramide threads. Layers are arranged so that front and rear layers with respect to source of destructive force are manufactured from cloths having threads reinforced 2-6 times in warp and weft directions. Cloth pattern repeat and thread reinforcement in cloths in direction from front to rear layers is decreasing, with separating layers being arranged in front of rear layers and/or between rear layers, and/or behind rear layers. Cloth of such structure has improved puncture resistance. EFFECT: wider operational capabilities, increased efficiency and enhanced reliability in operation. 3 cl, 3 dwg, 1 tbl, 5 ex

Description

 The invention relates to the textile industry, in particular to the development of protective fabrics for special purposes, intended for the manufacture of body armor, protective clothing and other purposes.

 Known ballistic resistant fabrics from aramid yarns used for the manufacture of personal protective equipment, in particular body armor [1, 2, 3].

 However, these fabrics do not have high operational properties when used in bags for ballistic protection.

 The technical solution that most fully illustrates the approach to solving the problem of creating a protective fabric is a fabric for ballistic protection of linen weaving from high-strength aramid yarn of equal linear density on the basis and a weft made with the same longitudinal configuration and equal number of threads per unit width in both directions, with this coefficient of twisting of the threads does not exceed 4 [3].

 The disadvantage of this solution is the high force when moving the threads in the plane of the fabric. As a result of the impact of a ballistic projectile, the yarn with transverse destruction occurs with a small absorption of energy of the means of destruction, which in turn requires an increase in the number of tissue layers in the bag to increase the durability of the product.

 The technical result achieved by the invention is to increase operational characteristics, which include an increase in penetration resistance and effective damping of dynamic impact during firing in combination with low weight and good flexibility of the structure.

 To achieve this technical result, the fabric for ballistic protection from high-strength aramid yarn of equal linear density on the warp and weft with the same longitudinal configuration and equal number of threads per unit width in both directions with a twist coefficient of threads not exceeding 4 is made of satin or satin, twill, wafer weave of single threads or satin or satin, twill, linen, waffle weave from 2-6 times reinforced warp and weft threads. In this case, the correct satin or satin weave has a repeat pattern of 5 to 10 with a constant shift from 2 to 7, and the wrong satin or satin weave has a repeat pattern of 4 to 10 with a variable shift of 1 to 8, the twill weave has the number of main overlap from 1 to 8 and the number of weft overlaps from 2 to 8, the number of threads in the wafer weave pattern is from 4 to 16.

 Known bulletproof fabric package, which contains tissue layers based on aramid yarns Kevlar [4, 5, 6].

 Also known are bulletproof fabric bags made of fabric layers based on high modulus aramid filaments, such as CBM and PFTA (polyparaphenylene terephthalamide) [2, 7, 8, 9].

The closest technical solution is a bulletproof package, containing successive layers of heterogeneous synthetic fabrics, the front layers of which are made of threads based on high modulus polyamide fibers with a tensile strength of at least 2000 mN / m ² and an elongation at break of at least 1 %, and rear layers are made of polyamide yarns with a tensile strength of not less than 600 mN / m ^2, with a tensile elongation at break of not less than 10%, wherein the ratio of the front and back fabric layers on oditsya in the range 2: (1-4) by weight of [9].

 However, the known protective package has insufficiently high protective properties.

 Another technical result of the invention is the creation of a package based on the proposed fabric with high ballistic resistance with good flexibility of the structure.

 For this purpose, a ballistic protective fabric package is proposed that contains successively located frontal and back layers of fabric of the above structures from high-strength aramid filament, the layers being arranged so that the layers that are frontal to the means of destruction are made of fabrics having a warp and weft reinforced in 2- 6 times the filament, and the rapport of the weave of fabrics and the strengthening of the filaments in them in the direction from the front to the back layers decreases. The frontal layer consists of extended tissue fragments made in the form of strips and laid in parallel with the overlap without fixing each other. The layers located behind the front layer are made of fabric having staggered slits, the size of the slots and the step of their location along the base and weft are correlated with the caliber of the means of destruction, and the subsequent layer towards the rear consists of fragments of fabric bonded together with an overlap , after which the back layers of whole-cut tissue fragments are arranged in the shape of a packet, and the rapport of the weave of fabrics and the strengthening of the threads in the direction from the front layers to the back decreases even in front of the back layers and / or between them and / or after them there are separation pads.

 This gradient construction of the package, along with increased energy dissipation during shelling, prevents the threads from being crushed due to their equivalent movement into the fabric along the warp and weft with a rapidly increasing mass of the package until the ballistic projectile stops completely.

 Separation pads can be made of fabric, foam or a combination thereof.

 In FIG. 1 shows a structure diagram of a protective bag. The protective bag contains frontal layers 1 containing extended tissue fragments made in the form of strips and laid in parallel with the overlap without being fixed to each other, as shown in FIG. 2a and 2b. Adjacent to the frontal layer 2 is made of fabric having slits arranged in a checkerboard pattern, their size and location being correlated with the caliber of the weapon. As shown in FIG. 3, the layer 3 next to the rear consists of tissue fragments that are overlapped together. The back layers 4 are made of one-piece fabric fragments in the form of a bag, after which there is a spacer 5.

To confirm the technical result, the following weave fabrics were made:
- twill 1 / 2x3 ^* , 1 / 2x4, 2 / 2x4, 1 / 3x3, 3 / 3x2, 2/2, 3/5, 4/4, 5/5, 6/6:
- the correct atlas 5/2, 8/3, 10/7;
- irregular atlas 4 / 1,2,3,2, 6 / 2,3,4,4,3,2;
- canvas (matting) 1x2, 1x3, 1x4, 1x6:
- waffle fabric with a rapport of 4, 6, 8, 10 threads;
- Combined continuous two-web warp cloth made of kapron monofilament with a diameter of 0.2 mm and cotton thread of linear density 32 tex;
- continuous two-sheet warp-cloth from kapron monofilament with a diameter of 0.15 mm and from a composite thread of CBM with a linear density of 29.4 tex.

^* - the figure following the multiplication sign after the designation of the fabric weave repeat indicates the reinforcement of the warp and weft yarns an appropriate number of times within the fabric repeat.

 The ballistic protective bags shown in the examples were made from the resulting fabrics.

Example 1. The outer (front) layer of a packet 300 × 400 mm in size consists of 2/2 twill strips 22 mm wide, laid along the major axis of the packet with an overlap of 8 mm. It is followed by two layers of twill 2/2 with straight through slits 15 mm long, staggered along the major axis of the package, with the distance between the slots in a row equal to 12 mm and the distance between the rows 12 mm and the location of the fabric layers eliminates the coincidence of the slots. The next 12 layers consist of square fragments of twill 2 / 2x3, size 120x120 mm, overlapped in each layer with adjacent fragments, with an overlap of 25 mm and fixed in a layer with a straight sewing stitch from cotton thread with a linear density of 16.7 tex. Then there are 6 whole-cut layers of waffle fabric with a rapport of 10 threads. After the wafer cloth, there are 12 whole-cut layers of twill 3 / 3x2 and then 6 whole-cut layers of twill 6/6. On the back there is a dividing pad made of 12 mm thick polyethylene foam reinforced with a continuous two-sheet warp cloth made of nylon monofilament with a diameter of 0.15 mm. The weight of 1 m ² package is 6.8 kg,
Example 2. The outer layer of a bag measuring 300x400 mm consists of 3/5 twill strips 20 mm wide, laid across the larger axis of the bag with an overlap of 7 mm. It is followed by two 3/5 serge layers with 12 mm straight through slots, staggered across the larger axis of the packet. Moreover, the distance between the slots in the row is 15 mm and the distance between the rows is 12 mm and the location of the fabric layers eliminates the coincidence of the slots. The next 18 layers consist of square fragments of twill 1 / 2x3 with a size of 150x150 mm, overlapped in each layer with adjacent fragments with an overlap of 30 mm and fixed in a layer with a sewing stitch of 25 tex cotton linear thread. This is followed by 6 whole-cut layers of twill 1 / 3x3, and then 6 whole-cut layers of twill 1 / 2x4 and 6 whole-cut layers of irregular satin 6/2, 3, 4, 4, 3, 2. On the back of the bag there is a 15 mm thick spacer strip mm reinforced with continuous two-sheet warp cloth of CBM thread of linear density 29.4 tex. The weight of 1 m ² package is 6.2 kg.

Example 3. The outer layer of a packet of 300x400 mm in size consists of 5/2 satin stripes with a width of 25 mm laid along the major axis of the packet with an overlap of 10 mm. It is followed by two 5/2 satin layers with through straight slits 15 mm long, staggered along the major axis of the packet, with the distance between the slots in a row equal to 15 mm and the distance between the rows 15 mm and the location of the layers eliminating the coincidence of the slots. The next 12 layers consist of square fragments of twill 2 / 2x3 in size 130x130 mm, overlapped in each layer with adjacent fragments with an overlap of 35 mm and fixed in a layer with a sewing stitch zigzag of cotton thread of linear density 16.7 tex. The next 12 layers consist of square fragments of twill 1 / 2x3 in size 110x110 mm, overlapped in each layer with adjacent fragments with an overlap of 20 mm and fixed in a layer with a sewing stitch zigzag of cotton thread of linear density 16.7 tex. Next, 6 whole-cut atlas 10/7 layers are laid. The next 8 whole-cut layers consist of a waffle fabric with a rapport of 10 threads, after which there is a separation pad of a combined continuous two-web warp cloth 15 mm thick made of 0.2 mm diameter nylon monofilament, and the warp and weft threads are made of linear density cotton thread 32 tex. The weight of 1 m ² package is 6.5 kg.

Example 4. The outer layer of a bag with a size of 300x400 mm consists of equal-weight 1/2 twill ribbons 1/2 with a width of 22 mm from a CBM thread of 29.4 tex on the warp and 58.8 tex on the weft, laid along the major axis of the bag in parallel with an overlap of 9 mm without fixing between each other, and from one edge all the ribbons are sewn together with a zigzag stitch from cotton thread of linear density 25 tex to plain fabric from Rusar 58.8 tex reinforced 4 times. It is followed by 2 layers of the web reinforced by 2 times, with through straight slits 12 mm long, arranged in a checkerboard pattern along the greater axis of the package, with the distance between the slots in a row equal to 12 mm and the distance between the rows of 12 mm and the location of the layers eliminates the coincidence of the slots . The next 6 layers consist of square fragments of twill 2 / 2x3 in size 120x120 mm, overlapped in each layer with adjacent fragments with an overlap of 30 mm and fixed in a layer with a sewing stitch zigzag of cotton thread of linear density 16.7 tex. The next 6 layers consist of square fragments of twill 1 / 2x4, size 120x120 mm, overlapped in each layer with adjacent fragments with an overlap of 30 mm and fixed in a layer with a sewing stitch zigzag of cotton thread of linear density 16.7 tex. The next 6 layers consist of square fragments of twill 1 / 2x3 with a size of 120x120 mm, overlapped in each layer with adjacent fragments with an overlap of 30 mm and fixed in a layer with a sewing stitch zigzag of cotton thread of linear density 16.7 tex. They are followed by a separation pad of a combined continuous two-sheet warp cloth 12 mm thick made of nylon monofilament with a diameter of 0.2 mm, and the warp and weft threads of the bulk fabric are made of cotton thread with a linear density of 32 tex. The next 6 whole layers are composed of 6/6 twill. Followed by 6 all-cut layers of twill 5/5. On the back there are 6 whole-cut layers of waffle fabric with a rapport of 4 threads. The weight of 1 m ² package is 6.2 kg.

Example 5. The outer side of the package with a size of 300x400 mm consists of 6 whole-cut layers of twill 2 / 2x4. The next 6 whole layers contain twill 1 / 2x4, after which there are 12 whole layers twill 1 / 2x4. The next 6 whole-cut layers consist of 4-fold linen fabric reinforced after which there are 6 whole-cut layers of waffle-weave fabric with a rapport of 6 threads. The next 6 whole-cut layers consist of 6/6 twill, after which there are 6 whole-cut 5/5 twill layers and then a spacer, which is an 8 mm thick woven mat of 140 tex linear density polypropylene yarn. The weight of 1 m ² package is 7.5 kg.

 The ballistic resistance of the protective bags was evaluated by the results of fire tests on a plasticine block from a Tokarev pistol (TT) with a 7.62 mm bullet with a metal core from a distance of 5 m perpendicular to the surface of the bag at a bullet speed of 450-460 m / s.

 The test results are shown in the table.

 These tables show that the proposed fabric from aramid yarns and ballistic packages based on them in accordance with the claims have high bulletproof properties, which reduces the weight of the bulletproof vest and increase its ergonomic characteristics.

 The above examples of specific performance of the fabric and the protective ballistic package do not limit the claims of the applicant set forth in the claims.

Sources of information
1. Pat. RF N 2041986 cl. D 03 D 15/00, 1995

 2. Pat. RF N 2042915 class. F 41 H 1/02, 1995

 3. Pat. RF N 2126856 class. D 03 D 15/00, 1999

 4. Pat. USA N 4413357, class. F 41 H 1/02, 1983

 5. US Pat. N 83097, cl. F 41 H 1/02, 1980

 6. Application of Germany N 3328415, CL F 41 H1 / 02, 1985

 7. Pat. RF N 1792517 class. F 41 H 1/02, 1993

 8. Pat. RF N 1799450 cells F 41 H 1/02, 1994

 9. Pat. RF N 2098739 cells F 41 H 1/02, 1988

Claims (3)

 1. Fabric for ballistic protection from high-strength aramid threads of equal linear density on the warp and weft with the same longitudinal configuration, an equal number of threads per unit width in both directions and a twist coefficient not exceeding 4, characterized in that it is made of satin or satin, twill , single-strand wafer or satin or satin, twill, linen, wafer weave of 2 to 6 warp and weft, with the correct satin or satin weave t 5 to 10 with a constant shift from 2 to 7, and the wrong satin or satin weave has a rapport from 4 to 10 with a variable shift from 1 to 8, the twill weave has the number of main overlaps from 1 to 8 and the number of weft overlaps from 2 to 8 , the number of threads in the wafer weave pattern is 4 to 16.  2. Ballistic protective fabric package containing sequentially located front and back layers of fabric from high strength aramid yarns, characterized in that the fabric for ballistic protection is made of high strength aramid yarns of equal linear density on the base and weft with the same longitudinal configuration, equal number of threads per unit width in both directions and with a twist coefficient not exceeding 4, satin or satin, twill, waffle weaving of single threads or satin or satin, arzhevym, linen, waffle weaving from 2 to 6 threads on the warp and weft, while the correct satin or satin weave has a rapport from 5 to 10 with a constant shift from 2 to 7, and the wrong satin or satin weave has a rapport from 4 to 10 with a variable shift from 1 to 8, the twill weave has the number of main overlaps from 1 to 8 and the number of weft overlaps from 2 to 8, the number of threads in the wafer weave repeat is from 4 to 16, the layers being arranged so that the front and back layers are in relation to the medium time The stitches are made of fabrics having warp and weft reinforced by 2-6 times, the rapport of the weaving of fabrics and the strengthening of the threads in them in the direction from the front to the back layers decrease and are located in front of the back layers and / or between them and / or after them separation pads.  3. Ballistic protective fabric package according to claim 2, characterized in that the frontal layers consist of extended tissue fragments made in the form of strips and laid in parallel with the overlap without fixing each other, adjacent to the frontal layers are made of fabric having slots located in staggered with size and pitch, correlated with the caliber of the means of destruction, and the subsequent layers towards the rear consist of tissue fragments that are overlapped together, after which the rear layers of whole swarming tissue fragments shaped package.

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