RU179333U1 - HEAT RESISTANT FABRIC FOR PROTECTIVE CLOTHING - Google Patents

Abstract

The utility model relates to the production of heat-resistant fabric and can be used in the manufacture of firefighter protective clothing that requires increased resistance to heat during emergency rescue operations in close proximity to an open flame, as well as from adverse climatic effects. The technical result of the utility model is the creation of heat-resistant fabric for protective clothing, which has high heat-shielding properties and high strength during operation. The technical result is achieved in the inventive heat-resistant fabric for protective clothing formed by weaving the main (1) and weft (2) threads, and impregnated with a polymer emulsion (3), while the weaving is made on the basis of complex threads and twisted yarn made from aramid fibers, with the mass of multifilament yarns is not less than 9% of the total mass of multifilament yarn and twisted yarn for warp and weft, the number of warp yarns (1) per 10 cm is 150 ÷ 220, and the number of weft yarns (2) is 120 ÷ 180. In such a heat-resistant fabric for protective clothing, it is preferable: - aramid fibers are made on the basis of para-aramid or meta-aramide; - the number of torsions of the multifilament yarn per 1 m is 70 ÷ 120; - twisted yarn consists of two threads, each of which has 950 ÷ 1100 torsions per 1 m and the number of joint torsions per 1 m - 350 ÷ 400; - weaving of the main (1) and weft (2) filaments; - weaving of the main (1) and weft (2) twill threads; - polymer emulsion (3) for impregnation based on organofluorine compounds; - surface density fabric is 100 ÷ 230 g / m. Such a heat-resistant fabric for protective clothing is preferable: - on the warp and on the weft contains multifilament yarns and twisted yarn; - on the warp contains multifilament yarns and on the weft - multifilament yarns and twisted yarn. 9 s.p. f-ly, 1 ill.

Description

The utility model relates to the production of heat-resistant fabric and can be used in the manufacture of firefighter protective clothing that requires increased resistance to heat during emergency rescue operations in close proximity to an open flame, as well as from adverse climatic effects.

The closest in design features to the claimed technical solution and selected as the closest analogue is a heat-resistant fabric formed by interweaving the main and weft threads with a combined plain weave, based on the main rep and weft by the weft rep, made of background threads on the warp and weft from a mixed double thread yarn, including para-aramid fiber and polyoxidiazole fiber in a ratio of 50 × 50, with a resulting linear density of 60 Tex, with reinforcement on the base and the weft is tripled Integrated aramid yarn 29.4 tex × 2, wherein the percentage of yarn / filament fabric is composed of 75/25, and the surface density of the fabric 260 g / m ² ((Russian patent for invention №2614002, cl. D02G 3/04, D03D 15/12, published March 22, 2017 - prototype).

Significant disadvantages of the known heat-resistant fabric are:

- reduction of heat-protective properties of the fabric due to the inclusion of polyoxydiazole fibers in addition to para-aramid fibers in double-thread yarn;

- reduction of the strength characteristics of the fabric due to the inclusion of polyoxidiazole fibers in addition to para-aramid fibers, which are subject to “aging” from light exposure during operation;

- a decrease in the strength characteristics of the fabric during operation due to the introduction of the base and weft of a refined complex arimide yarn having lower strength characteristics compared to aramid fiber yarns.

The technical result of the utility model is the creation of heat-resistant fabric for protective clothing, which has high heat-shielding properties and high strength during operation.

The technical result is achieved in the inventive heat-resistant fabric for protective clothing formed by interweaving of warp and weft threads and impregnated with a polymer emulsion, while, according to a utility model, the weaving is made on the basis of multifilament yarns and twisted yarn made of aramid fibers, with the mass of multifilament yarns not less than 9% of the total mass of multifilament yarns and twisted yarns for warp and weft, the number of warp yarns per 10 cm being 150 ÷ 220, and the number of weft yarns is 120 ÷ 180.

In such a heat-resistant fabric for protective clothing, it is preferable:

- aramid fibers are made on the basis of para-aramid or metaaramide;

- the number of torsions of the multifilament yarn per 1 m is 70 ÷ 120;

- twisted yarn consists of two threads, each of which has 950 ÷ 1100 torsions per 1 m and the number of joint torsions per 1 m - 350 ÷ 400;

- weaving of the main and weft threads plain;

- weaving of the main and weft threads twill;

- polymer emulsion for impregnation is made on the basis of organofluorine compounds;

- the surface density of the tissue is 100 ÷ 230 g / m ² .

Such a heat-resistant fabric for protective clothing is preferably:

- warp and weft contains complex threads and twisted yarn;

- on the basis contains complex threads, and on the duck - complex threads and twisted yarn.

The manufacture of the inventive heat-resistant fabric for protective clothing, preferably linen or twill weaves, with the number of warp yarns 150 ÷ 220, and weft yarns - 120 ÷ 180 per 10 cm provides it with high heat-shielding properties and high strength during operation.

The manufacture of the inventive heat-resistant fabric for protective clothing with a mass of multifilament yarns of at least 9% of the total mass of multifilament yarns and twisted yarn based on warp and weft provides it with high strength during operation.

A comparative analysis of the proposed utility model and prototype reveals the distinctive features of the inventive heat-resistant fabric for protective clothing in comparison with the closest analogue, which ensures that it meets the criterion of "novelty."

The presence of distinctive features allows you to get a positive effect, expressed in the creation of heat-resistant fabric for protective clothing, which has high heat-shielding properties and high strength during operation.

The use of the inventive heat-resistant fabric in the manufacture of protective clothing for a fireman, requiring increased resistance to heat during emergency rescue operations in close proximity to an open flame, as well as from adverse climatic influences, ensures that it meets the criterion of "industrial applicability".

The drawing illustrating the claimed utility model shows a cross section of a fragment of heat-resistant fabric for protective clothing.

Heat-resistant fabric for protective clothing formed by weaving the main 1 and weft 2 threads, and impregnated with a polymer emulsion 3, while the weaving is made on the basis of complex threads and twisted yarn made from aramid fibers, with a mass of complex threads of at least 9% of the total mass of complex threads and twisted yarn for warp and weft, the number of warp yarns 1 per 10 cm is 150 ÷ 220, and the number of weft yarns 2 is 120 ÷ 180. In such a heat-resistant fabric for protective clothing, it is preferable:

- aramid fibers are made on the basis of para-aramid or metaaramide;

- the number of torsions of the multifilament yarn per 1 m is 70 ÷ 120;

- twisted yarn consists of two threads, each of which has 950 ÷ 1100 torsions per 1 m and the number of joint torsions per 1 m - 350 ÷ 400;

- weaving of the main 1 and weft 2 threads plain;

- weaving of the main 1 and weft 2 threads twill;

- polymer emulsion for impregnation is made on the basis of organofluorine compounds;

- the surface density of the tissue is 100 ÷ 230 g / m ² .

Such a heat-resistant fabric for protective clothing is preferably:

- warp and weft contains complex threads and twisted yarn;

- on the basis contains complex threads, and on the duck - complex threads and twisted yarn.

The manufacture of heat-resistant fabric for protective clothing is as follows.

To obtain the fabric, weave the main 1 and weft 2 threads on a STB loom. Next, the resulting fabric is subjected to impregnation with 3 aqueous solution of an emulsion of organofluorine compounds at a rate of 30 ÷ 150 g per 1 liter of water on a drying and spreading machine SCHM. Impregnation 3 is carried out by the plus method with further extraction, drying at a temperature of 150 ° C for 2 min, followed by heat setting at a temperature of 170 ÷ 180 ° C for 1 min. In this case, the impregnation 3 provides water resistance of the fabric.

Comparative indicators of the inventive heat-resistant fabric for protective clothing and prototype are shown in table 1.

The comparative indicators shown in table 1 allow us to conclude that the inventive heat-resistant fabric for protective clothing has a higher strength and greater resistance to open flame in comparison with the prototype.

Due to the fact that in the description of the prototype there are no separate important physical and mechanical indicators affecting the performance properties of the fabric, table 2 shows the indicators of the inventive heat-resistant fabric for protective clothing in comparison with the requirements of GOST R 53264-2009 “Special protective clothing of a fireman. General technical requirements. Test Methods. "

As can be seen from table 2 of the physico-mechanical properties of the inventive heat-resistant fabric for protective clothing exceed the requirements of GOST R 53264-2009 "Special protective clothing of a firefighter. General technical requirements. Test Methods. "

Claims (10)

1. Heat-resistant fabric for protective clothing formed by interweaving of warp and weft threads and impregnated with a polymer emulsion, characterized in that the interweaving is made on the basis of multifilament yarns and twisted yarn made from aramid fibers, with a mass of multifilament threads of at least 9% of the total mass of multifilament threads and twisted yarn on the basis of and weft, while the number of warp threads per 10 cm is 150 ÷ 220, and weft threads - 120 ÷ 180. 2. Heat-resistant fabric for protective clothing according to claim 1, characterized in that the aramid fibers are made on the basis of para-aramid or meta-aramide. 3. Heat-resistant fabric for protective clothing according to claim 1, characterized in that the number of torsions of the multifilament yarn per 1 m is 70 ÷ 120. 4. Heat-resistant fabric for protective clothing according to claim 1, characterized in that the twisted yarn consists of two threads, each of which has 950 ÷ 1100 torsions per 1 m and the number of joint torsions per 1 m is 350 ÷ 400. 5. Heat-resistant fabric for protective clothing under item 1, characterized in that it is made plain weave of the main and weft threads. 6. Heat-resistant fabric for protective clothing according to claim 1, characterized in that it is made by twill weaving of the main and weft threads. 7. Heat-resistant fabric for protective clothing according to claim 1, characterized in that the polymer emulsion for impregnation is made on the basis of organofluorine compounds. 8. Heat-resistant fabric for protective clothing according to claim 1, characterized in that it has a surface density of 100 ÷ 230 g / m ² . 9. Heat-resistant fabric for protective clothing according to claim 1, characterized in that the warp and weft contains complex threads and twisted yarn. 10. Heat-resistant fabric for protective clothing according to claim 1, characterized in that it contains complex threads on the basis, and complex threads and twisted yarn along the weft.

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