RU2196194C1 - Fire and heat-resistant double-sided fabric - Google Patents

Abstract

FIELD: textile industry. SUBSTANCE: fabric is manufactured by one and a half or double-sided interweaving of non-combustible component and combustible component selected from the group comprising wool, cotton, linen fibers. Non-combustible component is twisted fireproof yarn of wool fibers containing 1-10% of potassium fluorozirconate by weight of yarn. Combustible component is made in the form of twisted yarn of wool, cotton or linen fiber or linen mixture fiber. Non-combustible and combustible component ratio of fabric is (2.2-4):1. Surface density is within the range of 210-650 g/sq.m. Fabric of such structure is used for manufacture of clothing for protecting pilots, drivers, metallurgists, welders, firemen from flame or thermal radiation. EFFECT: increased efficiency and improved operating characteristics by improved hygroscopicity and reduced electrifiableness. 3 cl, 2 dwg, 1 tbl, 23 ex

Description

 The invention relates to the textile industry, and in particular to special-purpose fabrics that can be used for the manufacture of clothing that protects against fire-heat radiation for aircraft pilots, race car drivers, metallurgists, welders, firefighters.

 Known heat-resistant fabric, consisting of heat-resistant warp and non-heat-resistant weft threads, the surface filling of the outer layer with heat-resistant warp threads is 70-80% (author's certificate. USSR 1291624, D 03 D 15/08, 1987). The disadvantages of the known heat-resistant fabric are its low hygienic properties, as well as the fact that it does not withstand the effects of an open flame.

 Known heat-resistant material with high strength and heat-resistant properties, made of colored polyaramide corrugated tow and wool fiber in a ratio of 81-88% and 19-12%, respectively, and the filling factor of the material is at least 50% based and 35.0% duck (Patent RU 2093622, D 03 D 15/12, 1997).

 Known fabric for overalls of welders made by plain weaving and containing a basis of cotton threads and twisted weft linen threads with a ratio of the cross-sectional area of the main threads to the area of a single pore between the bound threads, equal to 1.3-2.5.

 However, the known materials for their performance properties do not satisfy the consumer (Author's certificate. USSR 1367569, D 03 D 15/12, 1985).

 The closest analogue to this technical solution is a heat-resistant fabric containing threads of heat-resistant and natural material, the front side of which is made with a predominant exit of threads from a heat-resistant material, and the wrong side with a predominant exit of threads from a natural material, and the fabric is made of satin or twill, or plain or satin weave, and the output of the threads from the heat-resistant material on the front side is 60-85%. The material from the group of aramid, tuligen, lola, CBM was selected as a heat-resistant material, and the material from the group of wool, cotton, linen, silk was selected as a natural material. The fabric is made in one, one and a half or two layers (RU 2016927, C1, D 03 D 1/00; 15/00; 11/00, 30.07.94).

 However, the assortment of well-known fabrics is limited, the structure of the fabrics does not satisfy the modern consumer market.

 The objective of the invention is the creation of fire-resistant double-sided fabric, ensuring the achievement of a technical result, consisting in expanding the range of fire-resistant double-sided fabrics with high performance by increasing hygroscopicity and reducing electrification.

This technical result in a fire-resistant double-sided fabric made by one and a half or two-layer weaving of a non-combustible and combustible component selected from the group of woolen, cotton, linen fibers is achieved by the fact that the non-combustible component is a twisted fire-resistant wool fiber yarn containing 1-10% potassium fluorozirconate by weight of the yarn, and the combustible component is made in the form of a twisted yarn of wool, or cotton, or linen, or flax blend, containing, wt.%:
Flax fiber - 30 - 40
Cotton fiber - 60 - 70
or
Flax fiber - 25 - 40
High Viscose High Modulus Fiber - 25 - 35
Polyester Fiber - 30 - 50
the ratio of the fibers of the non-combustible component and the fibers of the combustible component in the fabric is respectively (2.2-4): 1, the surface density is in the range of 210-650 g / m ² , and the non-combustible component in the base and / or in the weft additionally contains twisted yarn made of polyaramide or polyoxydiazole fibers, and the fabric is made plain or with a printed pattern.

 The claimed combination of features allows you to create a new fire-resistant double-sided fabric with the declared properties and going beyond the proposed limits and the use of other structures do not provide a technical result.

 As flax fiber, for example, modified flax fiber is used.

 As the polyester fibers used, for example, lavsan fiber.

 As polyaramide fibers, for example, Nomex fiber is used, and as polyoxydiazole fibers, for example, Arselon or Oxalone fiber is used.

 The proposed fire-resistant double-sided fabric is produced on any type of weaving looms, for example, on a STB-2-220 loom, with complex weaving. In the production of fabric, the following weaving transitions are used: warping, wading or snapping, weaving, finishing production.

 The weave pattern and parting in the remise allow you to create a double-sided structure on the loom using non-combustible and combustible components in the warp and weft.

 The color design of the declared fireproof double-sided fabric allows you to give the fabric a textured effect.

 At the base and weft, when using yarn of different colors, a fabric with the effect of "sandwich" is obtained.

 The proposed fabric is made one and a half - and two-layer weave of non-combustible and combustible components. As a non-combustible component, fireproof dyed or severe twisted wool fiber yarn was used, for example, 32x2 tex linear density yarn dyed with active dyes and treated with potassium fluorozirconate in the presence of oxalic and hydrochloric acids.

 To obtain flame retardant properties, wool yarn or wool fiber can be processed.

 As a combustible component in the warp or in the weft, twisted yarn from wool fiber, for example, with a linear density of 32x2 tex, from cotton or linen fiber, for example, with a linear density of 25x2 tex or flax blend yarn containing, wt.%: Flax fiber 30-40 , cotton fiber 60-70 or flax fiber 25-40, viscose high modulus fiber 25-35, polyester fiber 35-50, for example, with a linear density of 25x2 tex.

 The non-combustible component in the warp and / or in the weft further comprises dispersed dyed or stiff yarn from Nomex fiber, for example, linear density 25x2 tex, and also dyed or severe yarn from Arselon or oxalone fiber, for example, linear density 25x2 tex. The fabric is made plain or with a printed pattern.

The density of threads per 10 cm on the basis is 210-620, for weft 110-560, the surface density of the fabric is 210-650 g / m ² . The fabric is available in widths of 140-160 cm.

 The basic structure of the fabric is presented in figures 1 and 2 (figure 1 - one and a half layer fabric, figure 2 - two-layer fabric).

 In FIG. 1 shows the interweaving of a fireproof double-sided one and a half layer fabric, where 1 is a non-combustible component of the base, 2 is a combustible component of the base, 3 is a non-combustible component of the weft: a is a transverse section of the fabric; b - a longitudinal section of the tissue.

 Figure 2 shows the weaving of a fireproof double-sided two-layer fabric, where 1 and 2 are the non-combustible component of the warp, 3 is the non-combustible component of the weft, 4 is the combustible component of the weft: a is a transverse section of the fabric; b - a longitudinal section of the tissue.

 Specific examples, technological and physico-mechanical characteristics of the proposed fabric are shown in the table.

 Examples 1 and 4 used fire-resistant twisted wool yarn containing 1% potassium fluorozirconate.

 In examples 2 and 6, fireproof twisted wool fiber yarn containing 5% potassium fluorozirconate was used.

 Examples 5 and 9 used fireproof twisted wool yarn containing 10% potassium fluorozirconate.

 In examples 12, 18, 21, and 15, fireproof twisted wool fiber yarn containing 3% potassium fluorozirconate was used.

 In examples 3, 7, 8, 10, 11, 13, 14, 16, 17, 19 and 20, fire-resistant twisted wool fiber yarn containing 7% potassium fluorozirconate was used.

 In example 2, twisted yarn from flax fiber contains, wt.%: Flax modified fiber 30; cotton fiber 70.

 In example 6, twisted yarn from flax fiber contains, wt.%: Flax modified fiber 40; cotton fiber 60.

 In example 9, twisted yarn from flax fiber contains, wt.%: Flax modified fiber 25; high viscose fiber 25; polyester fiber 50.

 In example 12, twisted yarn from flax blend fiber contains, wt.%: Flax modified fiber 40; high viscose fiber 30; polyester fiber 30.

 In example 14, twisted yarn from flax fiber contains, wt.%: Flax modified fiber 33; high-modulus viscose fiber 37; polyester fiber 30.

As can be seen from the table, the hygroscopicity of the claimed tissue increases to 11.4 instead of 7.4-7.8 of the known tissue, the tissue is practically not electrified, while the electrosomeness of the known tissue is 2.0 • 10 ¹¹ , while it retains the remaining parameters level: the proposed fabric has a low shrinkage after wet processing, high abrasion. The magnitude of the passing pulse when exposed to intense heat flux is 0.8-1.5 cal / cm ² at a rate of 1.8 cal / cm ² , the tissue does not ignite, which protects a person from fire. Products from this fabric are pleasant and comfortable to wear, as Natural fibers, which give high hygiene, physiological comfort due to certain microclimate conditions, come to the surface of the wrong side, the fabric contains mainly natural fibers. The surface structure of the fabric in combination with the color scheme allows you to expand the range of fabrics for workwear with attractive artistic coloristics.

 Replacing synthetic fire-resistant fibers with flame-retardant wool fibers dramatically reduces the cost of the declared fabric, and therefore, significantly reduces the cost of manufactured clothing, and what is very important: it is made from domestic raw materials.

Claims (3)

1. Fire-resistant double-sided fabric made of one and a half or two-layer weaving of a non-combustible and combustible component selected from the group of woolen, cotton, linen fibers, characterized in that the non-combustible component is a twisted fire-resistant wool fiber yarn containing 1-10% potassium fluorozirconate by weight of the yarn, and the combustible component is made in the form of twisted yarn from wool, or cotton, or linen fiber, or flax blend containing, by weight. %:
Flax fiber - 30 ÷ 40
Cotton fiber - 60 ÷ 70
or
Flax fiber - 25 ÷ 40
High Viscose High Modulus Fiber - 25 ÷ 35
Polyester fiber - 30 ÷ 50
the ratio of the fibers of the non-combustible component and the fibers of the combustible component in the fabric is respectively (2.2 ÷ 4): 1, and the surface density is in the range of 210 ÷ 650 g / m ² .  2. Fire-resistant double-sided fabric according to claim 1, characterized in that the non-combustible component in the warp and / or in the weft further comprises twisted yarn of polyaramide or polyoxydiazole fibers.  3. Fire-resistant double-sided fabric according to claim 1, characterized in that it is made one-colored or with a printed pattern.

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