RU180575U1 - GRAY FABRIC FOR PROTECTION AGAINST EMY - Google Patents

Abstract

A harsh fabric for protection against electromagnetic radiation, made of two types of yarn: the first type of yarn, which is a combination of continuous stainless steel and polymer fibers of a mixture of polypara and polymetharamides located inside a spiral of steel wire, and a second type of yarn, which is a continuous thread of polymetharamide fibers twisted by a pneumomechanical method with a stainless steel wire 40 ÷ 60 mm long, 4 ÷ 7 μm in diameter and woven with a fabric pattern selected from g groups: twill 3/3, twill 3/2, twill 4/1, matting 2/2, satin 4/1, broken twill 2/2, reverse-shifted twill 4/4 with a weaving pattern of 4 ÷ 8, working on the basis 10 ÷ 20%, duck working time 10 ÷ 20%. 3 s.p. f-ly; 3 ill.

Description

The utility model relates to the field of fabric arrangement, characterized by the material, the structure of the yarn from which they are made and containing metal wire, and more particularly, to the fabric device for products that protect a person from the harmful effects of industrial and radio frequency electromagnetic radiation (EMP).

State of the art

A device of a multilayer material for protection against the harmful effects of electromagnetic radiation of industrial and radio frequency (EMP) (US Pat. France 2940533, D03D 15/02, published. 2008.12.19).

A device is known for an absorber of industrial electromagnetic radiation and radio frequency (EMP) (US Pat 7336215, published. 2005.12.21).

From European patent EP 0377813, a device for absorbing electromagnetic radiation of industrial and radio frequency is known, comprising woven fabrics of interwoven warp threads and weft threads based on synthetic polymers, so that it is further developed that wires of electrically conductive material are included in the fabric of the fabric in order to maintain the effect like Faraday cages

The closest in purpose and technical essence is the device of the material for protection from the harmful effects of electromagnetic radiation of industrial and radio frequency, made of yarn consisting of metal threads in a composition with synthetic and natural fibers, in the form of a single piece of cloth, the metal threads of which are connected in a continuous electrically conductive circuit in all areas of the surface to be protected, which allows directing the electric current of the stun device through closed metal threads, bypassing the body, or to the ground. As metal filaments, it contains stainless steel wire of the grade X18N9TVI with a thickness of 0.04-0.2 mm, strength 50-120 mg / kg. mm and made in the form of a sleeve from a knitted fabric, the number of loops in which 1 dm is 35-55 and the number of looped posts per 1 dm is 55-105. (RF patent 2113811, IPC D02G 3/12, published. 09/13/1996)

The disadvantages of the known fabric device is the low coefficient of protection of a person from the harmful effects of electromagnetic radiation in the frequency range 30 MHz - 1800 MHz and insufficient resistance to repeated washing and sanitization.

The technical problem, which this technical solution is aimed at, is to provide a high shielding coefficient of electromagnetic radiation in the frequency range 30 MHz - 1800 MHz, increase resistance to repeated washing and sanitization, and achieve the necessary optical density of protective materials after dyeing fabrics.

The essence of the proposal

The problem is solved in that the device is a harsh fabric of yarn, including metal threads in a composition with synthetic fibers, according to the proposal is made on the basis of and weft, at least two types of yarn: the first type of yarn, which is a collection of continuous threads from stainless steel and polymer fibers from a mixture of polypara and polymetharamides located inside a spiral of steel wire (Fig. 1), and a second type of yarn, which is a continuous thread of polymetharam fibers yes twisted by a pneumomechanical method with stainless steel wire 40 ÷ 60 mm long, 4 ÷ 7 μm in diameter and woven (Fig. 2) with a fabric pattern selected from the group: twill 3/3, twill 3/2, twill 4/1, matting 2/2, satin 4/1, broken twill 2/2, reverse-shifted twill 4/4 with weaving pattern 4 ÷ 8, working on the basis of 10 ÷ 20%, working on the weft 10 ÷ 20%

The utility model is illustrated by examples and diagrams of the device.

FIG. 1. The scheme of the device yarn of the first type

1 - stainless steel wire; 2 - fibers from polymetharamide; 3 - fibers of polyparaaramide; 4 - step turns of steel wire

FIG. 2. The scheme of the device severe fabric for the manufacture of products of protection against EMP

7 - yarn yarn of the first type; 8 - yarn yarn of the second type

FIG. 3. Variants of combination (duplication) of threads in a harsh fabric device for the manufacture of articles of protection against electromagnetic radiation.

7 - yarn yarn of the first type; 8 - yarn yarn of the second type.

Description of the harsh fabric device

The harsh fabric for protection against electromagnetic radiation (Fig. 2) consists of two types of yarn. Of the first type of yarn - (Fig. 1), which is a combination of stainless steel wire (1) in the form of a spiral and polymer fibers from a mixture of polypar- (2) and polymetaramide (3) located inside the spiral with a step (4) 1-2 mm And from the yarn of the second type, which is a continuous thread of polymetaramide fibers twisted by a pneumomechanical method with stainless steel wire. The fabric is woven with a pattern selected from the group: twill 3/3, twill 3/2, twill 4/1, matting 2/2, satin 4/1, broken twill 2/2, reverse-shifted twill 4/4 with weave repeat 4 ÷ 8 of one or two combined threads (Fig. 3) of the yarn of the first (7) and second (8) type with working on the basis of 10 ÷ 20%, working on the weft 10 ÷ 20%

Device Examples

Example 1. A harsh fabric for protection against EMR (electromagnetic radiation) consisting of metal threads in a composition with synthetic fibers is woven with a 3/3 twill pattern on the base and weft of two types of yarn. Of the first type of yarn - (Fig. 1), which is a combination of 316L stainless steel wire in the form of a spiral with a diameter of 50 μm (1) and polymer fibers from a mixture of polypara- (2) and polymetaramides (3) located inside a steel spiral wire (1) with a pitch (4) of 1.5 mm. And from the yarn of the second type, which is a continuous thread of polymetaramide fibers twisted by a pneumomechanical method with a stainless steel wire 60 mm long, 6.5 microns in diameter. The fabric sample according to example 1 is woven by a repeat pattern of weaving 6 with a base work of 15%, a duck work of 15%.

A sample of the harsh tissue according to example 1, is tested according to GOST 12.4.172-2014 to determine the screening coefficient of EMP with a frequency of 50 Hz and a frequency range of 30 MHz - 1800 MHz. After testing, the sample is subjected to 10 machine wash cycles and re-tested according to GOST 12.4.172-2014.

The test results of the protective properties of the sample of harsh tissue in example 1 are shown in table 1.

The harsh fabric of the proposed device makes it possible to achieve an EMP shielding factor of up to 100 dB at 30 MHz and 49 dB at 50 Hz, which meets the requirements of the personal protective equipment regulation of the Customs Union (TS 019/2011 Technical Regulation of the Customs Union "On Personal Protective Equipment Safety", GOST 12.4 .172-2014 Occupational safety standards system. Individual shielding kit for protection against electric fields of industrial frequency).

The breaking load of the harsh fabric sample of Example 1 is 930 N for the base and 850 N for the weft.

After 10 machine wash cycles, EMR shielding coefficients reach 79 dB at 4000 MHz and 41 dB at 50 Hz, which meet the requirements of TP TS 019/2011 Technical Regulation of the Customs Union “On Personal Protective Equipment Safety”, GOST 12.4.172-2014 Safety Standards System labor. Individual shielding kit for protection against electric fields of industrial frequency. The breaking load of the harsh fabric sample of Example 1 after 10 machine wash cycles is 900 N for the base and 800 N for the weft.

The harsh fabric of example 1 is painted in a protective green color when treated with vat dye in the appropriate TU mode to an optical density of 1.6. After 10 cycles of machine-washable tissue samples, the optical density is 1.55.

Example 2. The harsh fabric of example 1, but woven with a repeat pattern of weaving 4, working on the basis of 10%, working on the weft 10%

Example 3. The harsh fabric of example 1, but woven with a repeat pattern of weaving 8, work on the basis of 20%, work on the weft of 20%

Example 4 (control). The material for protection against electromagnetic radiation of the known device is made using a stainless steel wire of grade X19H9T with a thickness of 100 μm and a sewing capron thread of 10 K. To produce the fabric, a semiautomatic device of knitting grade PVRK of class 10 was used to obtain an interweaving “cooler surface”, the number of loop rows 1 dm is equal to 40, the number of looped posts per 1 dm is 80. A control sample of the material is tested according to GOST 12.4.172-2014 to determine the screening coefficient of EMP with a frequency of 50 Hz and a frequency range of 30 MHz - 1800 MHz

A sample of the material is painted in protective green color when treated with vat dye in the appropriate TU mode to an optical density of 1.4. After 10 cycles of machine-washable tissue samples, the optical density is 1.25.

The test results of the protective properties of the control sample of example 4 are shown in table 1.

Thus, confirmation of the solution to the technical problem of the proposal has been obtained - providing a high shielding coefficient of electromagnetic radiation in the frequency range 30 MHz - 1800 MHz, increasing resistance to repeated washing and sanitizing, and achieving the necessary optical density of protective materials after dyeing fabrics.

Claims (4)

1. A harsh fabric for protection against electromagnetic radiation (EMP), made of yarn consisting of metal threads in a composition with synthetic fibers, characterized in that it is made on the basis and weft of at least two types of yarn: yarn of the first type , which is a combination of continuous threads from stainless steel and polymer fibers from a mixture of polypara and polymetharamides located inside a spiral of steel wire, and a second type of yarn, which is a continuous thread from poly fibers metaaramide twisted by a pneumomechanical method with stainless steel wire 40 ÷ 60 mm long, 4 ÷ 7 μm in diameter, and woven with a fabric pattern selected from the group: twill 3/3, twill 3/2, twill 4/1, matting 2/2 , satin 4/1, broken twill 2/2, reverse-shifted twill 4/4 with weaving pattern 4 ÷ 8, working on the basis of 10 ÷ 20%, working on the weft 10 ÷ 20%. 2. The harsh fabric according to claim 1, characterized in that it is made of two types of yarn consisting of metal threads with a diameter of 50 μm and a diameter of 6.5 μm in a composition with synthetic fibers from polypara and polymetharamides. 3. The harsh fabric according to claim 1, characterized in that it is made of three types of yarn: the first type of yarn, which is a combination of continuous stainless steel threads and polymer fibers from a mixture of polypara and polymetharamides located inside a steel wire spiral, and yarn of the second type, which is a thread of polymetaramide fiber twisted with stainless steel wire 40 ÷ 60 mm long, 4 ÷ 7 μm in diameter and yarn of the third type: cotton or kapron thread. 4. The harsh fabric according to claim 1, characterized in that the twill 3/2 is woven with a fabric pattern with a weaving pattern of 6, working on the basis of 15%, working on the weft 15%.

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