CN110629352A - Flame-retardant antistatic breathable fabric and protective clothing made of same - Google Patents

Abstract

The invention provides a flame-retardant antistatic breathable fabric capable of resisting flame and static electricity and increasing air permeability and protective clothing made of the flame-retardant antistatic breathable fabric. The utility model provides a fire-retardant antistatic breathable fabric, includes first surface course, the second surface course of interval weaving, warp and the double-deck single strand of weft that the yarn that first surface course was made by aramid fiber 1313, polyimide fiber, fire-retardant viscose fiber, carbon black conducting fiber interweaved and form, warp and the double-stranded interweave of weft single-layer that the yarn that second surface course was made by aramid fiber 1313, polyimide fiber, fire-retardant viscose fiber, carbon black conducting fiber made were made and are made.

Description

Flame-retardant antistatic breathable fabric and protective clothing made of same

Technical Field

The invention relates to the technical field of spraying operation, in particular to a flame-retardant antistatic breathable fabric and protective clothing made of the same.

Background

The ship needs to be painted or repaired when the ship is overhauled during manufacturing, the ship is generally painted by spraying equipment to spray a spraying liquid after atomization, and a large amount of fine paint particles can be generated and distributed in the air during the spraying process. The paint particles can penetrate into clothes of an operator to enter the skin surface layer of the operator, and after the paint particles contact the skin, the paint particles can dissolve skin grease, interfere physiological dehydration, enable the skin to be cracked, enable the skin to be easily infected by dirt and bacteria, and can penetrate into the human body to damage blood cells, bone marrow and the like, so that the life health of the operator is seriously influenced. Paint particles are inflammable, and the paint particles in the air are easy to detonate after being contacted with open fire to cause fire, so that the life safety of operators is seriously threatened. The safety production work of related industries is more and more emphasized in the country, the personal protection consciousness of operators is continuously improved, and many enterprises begin to equip staff with safety protection clothes with antistatic and flame-retardant functions, namely flame-retardant and antistatic clothes. Most fire-retardant antistatic clothes in market all carry out the post processing to ordinary surface fabric, for example at ordinary surface fabric scribble the fire-retardant layer of one deck and antistatic layer on the surface and make it possess fire-retardant and antistatic function, the manufacturing cost of post processing's fire-retardant antistatic clothes is lower relatively, but there is certain potential safety hazard, the fire-retardant layer and the antistatic layer on ordinary surface fabric top layer can the loss after the washing, fire behaviour and antistatic property can reduce or disappear to some extent, weaken the safeguard function of fire-retardant antistatic clothes, and this kind scribbles the gas permeability of fire-retardant layer and antistatic layer's protective clothing is poor, the comfort level of dress is poor. In order to better protect the operators and ensure the personal safety of the operators, the scheme is generated from this.

Disclosure of Invention

Therefore, aiming at the problems, the invention provides a flame-retardant antistatic breathable fabric and protective clothing made of the flame-retardant antistatic breathable fabric, which can resist flame and resist static electricity and increase air permeability.

In order to solve the technical problems, the flame-retardant antistatic breathable fabric comprises a first surface layer and a second surface layer which are woven at intervals, wherein the first surface layer is formed by interweaving warp threads and weft threads which are made of yarns made of aramid fibers 1313, polyimide fibers, flame-retardant viscose fibers and carbon black conductive fibers in a single-layer single-strand mode, and the second surface layer is formed by interweaving warp threads and weft threads which are made of yarns made of aramid fibers 1313, polyimide fibers, flame-retardant viscose fibers and carbon black conductive fibers in a single-layer double-strand mode.

The further improvement is that: the two warps and the two wefts of the first fabric and the two warps and the two wefts of the second fabric are respectively warps and wefts made of the same yarn.

The further improvement is that: the warp and the weft are respectively made of 131320-35% of aramid fiber, 30-40% of polyimide fiber, 35-45% of flame-retardant viscose fiber and 1-2% of carbon black conductive fiber in a blending mode.

The further improvement is that: the warp and the weft are respectively made of 131325% of aramid fiber, 33% of polyimide fiber, 40% of flame-retardant viscose fiber and 2% of carbon black conductive fiber in a blending mode.

The utility model provides a protective clothing that fire-retardant antistatic ventilative surface fabric was made, includes the disjunctor protective clothing body that fire-retardant antistatic ventilative surface fabric was made, its characterized in that: the flame-retardant antistatic breathable fabric comprises a first surface layer and a second surface layer which are woven at intervals, wherein the first surface layer is formed by interweaving warp threads and double-layer weft single strands, the warp threads are made of yarns made of aramid fibers 1313, polyimide fibers, flame-retardant viscose fibers and carbon black conductive fibers, the second surface layer is formed by interweaving warp threads and double-layer weft single strands, the warp threads are made of yarns made of aramid fibers 1313, polyimide fibers, flame-retardant viscose fibers and carbon black conductive fibers, the weft single strands are interwoven, and an isolating device used for enabling the protective clothing body to form an interval with a human body is arranged on the inner surface of the protective clothing body.

The further improvement is that: the isolation device comprises a plurality of sealed air passages which are arranged on the inner surface of the protective clothing body, the sealed air passages are communicated with one another, the sealed air passages are in a vacuum state, a carbon dioxide steel cylinder used for inflating the sealed air passages is arranged on the outer surface of the protective clothing body, and a control valve is arranged between the carbon dioxide steel cylinder and the sealed air passages and is respectively connected with the carbon dioxide steel cylinder and the sealed air passages.

The further improvement is that: and the cuffs of the protective clothing, the openings of the trouser legs and the neckline are respectively provided with a fastening tape for fastening.

The further improvement is that: the protective clothing body is provided with a plurality of storage bags.

By adopting the technical scheme, the invention has the beneficial effects that: the invention has the following advantages:

1. the protective clothing is made of the fabric made of yarns blended by aramid fibers 1313, flame-retardant viscose fibers and carbon black conductive fibers, has better thermal protection, flame-retardant and antistatic performances, has better protective performance compared with flame-retardant antistatic heating protective clothing subjected to post-treatment in the market, does not reduce the performance of the protective clothing after being washed for many times, has longer service life, is lighter, thinner, breathable and softer, has the weight of about 200 grams and is lighter, and can protect operators and ensure the personal safety of the operators even if the protective clothing is worn for a long time.

2. The fabric of the protective clothing is woven by two strands of warps and wefts, the density is high, the tensile strength is high, the wear resistance is high, the two strands of warps and wefts are alternately woven by double single strands and single layer double strands all the time in the process of weaving the fabric, the double single strands are woven into the first fabric, the single layer double strands are woven into the second fabric, the double layer surface layer of the first fabric enables the fabric to be staggered, air inside the protective clothing firstly penetrates through the first layer of the first fabric and then penetrates through the second layer when exchanging with air outside, the penetration amount of the air penetrating through the first fabric is larger than that of the air penetrating through the second layer, the air permeability of the protective clothing is greatly increased, meanwhile, the diameter of paint particles is much larger than that of molecular particles in the air, when the paint particles penetrate through the fabric along the vertical direction of the fabric, the first layer and the second layer of the first fabric can simultaneously block the paint particles, that is to say that the effect that blocks of first surface fabric to the paint granule is the same with the effect that blocks of second surface fabric, but the gas permeability of first surface fabric is superior to the second surface fabric greatly, adopts the combination of first surface fabric and second surface fabric can not change the barrier properties of protective clothing, can increase the gas permeability of protective clothing on the whole, lets operating personnel can be more ventilative at the in-process of long-time dress protective clothing spraying paint, can not produce damp and hot sense, can let operating personnel accomplish work with better state, improves work efficiency.

3. The protective clothing of the invention is provided with a plurality of sealed air passages on the inner surface of a protective clothing body, the sealed air passages are communicated and in a vacuum state, the wearing of an operator on the protective clothing is not influenced by the existence of the sealed air passages when the sealed air passages are not inflated, the air passages are not fully distributed on the inner surface of the protective clothing body, so the air permeability of the protective clothing is not influenced, the sealed air passages can be bent along with the wrinkles of the protective clothing cloth and the softness degree of the protective clothing is not influenced, a carbon dioxide steel cylinder for inflating the sealed air passages is arranged outside the protective clothing body, the sealed air passages are rapidly inflated through the carbon dioxide steel cylinder when a fire disaster occurs, the protective clothing can be supported after the sealed air passages are inflated, so that a space is formed between the protective clothing and the body of the operator, and the surface temperature of the protective clothing can not burn the skin surface layer of the operator in a short time in a big fire, but can reduce the heat-conduction between protective clothing and the operating personnel health when protective clothing body and operating personnel's health have a certain distance, effectively protect operating personnel to avoid burning operating personnel, guarantee operating personnel's life healthy.

4. The aramid fibers 1313 added to the fabric of the protective clothing can expand at high temperature, gaps between yarns on the fabric can be reduced when the aramid fibers 1313 expand, and meanwhile the thickness of the fabric of the protective clothing is increased to form a protective barrier and protect personal safety of operators.

Drawings

FIG. 1 is an enlarged view of a flame-retardant antistatic breathable fabric and a fabric of protective clothing made of the flame-retardant antistatic breathable fabric according to an embodiment of the invention;

FIG. 2 is a schematic cross-sectional view of a flame-retardant antistatic breathable fabric and a fabric of protective clothing made of the flame-retardant antistatic breathable fabric according to an embodiment of the invention;

FIG. 3 is a front view of a flame retardant, antistatic, breathable fabric and protective apparel made therefrom, according to an embodiment of the invention;

FIG. 4 is a rear view of a flame retardant, antistatic, breathable fabric and protective apparel made therefrom, in accordance with an embodiment of the present invention;

fig. 5 is a schematic structural view of a flame-retardant antistatic breathable fabric and a sealed air passage of protective clothing made of the flame-retardant antistatic breathable fabric according to an embodiment of the invention.

Detailed Description

The invention will now be further described with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1 to 5, disclosed in the embodiment of the present invention are a flame-retardant antistatic breathable fabric and a protective garment made of the same, the protective garment comprises a one-piece protective garment body 1 made of the flame-retardant antistatic breathable fabric, a plastic zipper 11 for wearing or taking off the protective garment is arranged on the protective garment body 1, and an isolation device for enabling the protective garment body 1 to form a space with a human body is arranged on the inner surface of the protective garment body 1; the isolating device comprises a plurality of sealed air passages 2 which are arranged on the inner surface of the protective clothing body 1 in a gluing way, the sealed air passages 2 are air sac bodies which are made of high-temperature-resistant polytetrafluoroethylene materials correspondingly and integrally formed with the size of the protective clothing and are provided with a plurality of criss-cross hollow air passages, the outer surfaces of the air sac bodies are coated with high-temperature-resistant airtight silica gel coatings, the initial states of the sealed air passages 2 are vacuum states, the sealed air passages are arranged on the inner surface of the protective clothing through gluing, carbon dioxide steel cylinders 21 used for inflating the sealed air passages 2 are arranged on the outer surface of the protective clothing body 1, control valves 22 are arranged between the carbon dioxide steel cylinders and the sealed air passages 2, the control valves 22 are respectively connected with the carbon dioxide steel cylinders and the sealed air passages 2 (the carbon dioxide steel cylinders 21, the outlet of the control valve penetrates through the protective clothing body and is connected with the air inlet of the sealed air passage 2 through gluing), when a fire occurs, the hand rope 221 on the control valve 22 is manually pulled to trigger the carbon dioxide steel cylinder, so that the carbon dioxide in the carbon dioxide steel cylinder is quickly filled in the sealed channel, after the sealed channel is filled with air, one side of the sealed channel is attached to the body of an operator, and the other side of the sealed channel supports the protective clothing body 1, so that the protective clothing body 1 has a certain distance with the body of the operator, the skin of the operator is prevented from being burnt due to overhigh temperature of the protective clothing body 1 when the fire occurs, and the temperature received by the skin of the body surface of the operator from the outside is reduced; the cuffs, the trouser leg openings and the neckline of the protective clothing are respectively provided with a fastening tape 3 for fastening, the fastening tapes 3 can fasten the protective clothing on the body of an operator, and paint particles are prevented from entering the protective clothing from the cuffs, the trouser leg openings and the neckline; the protective suit is characterized in that two object containing bags 4 are arranged on the protective suit body 1, the object containing bags 4 are symmetrically arranged on the protective suit body 1 positioned at the front of the chest, the protective suit is made of flame-retardant antistatic breathable fabric, the flame-retardant antistatic breathable fabric comprises a first surface layer 51 and a second surface layer 52 which are woven at intervals, the four edges of the first surface layer 51 are connected with the second surface layer 52, the four edges of the second surface layer 52 are connected with the first surface layer 51, the interval weaving area of the first surface layer 51 and the second surface layer 52 is about one square centimeter, the first surface layer 51 and the second surface layer 52 are respectively formed by interweaving warp yarns 53 and weft yarns 54, the warp yarns 53 and the weft yarns are made of two strands of aramid fibers 131325%, polyimide fibers 33%, flame-retardant viscose fibers 40% and carbon black conductive fibers 2%, the aramid fibers 131325%, the polyimide fibers 33% and the flame-retardant viscose fibers 40% are blended firstly and then carbon black conductive fibers 2% are added to, the first surface layer 51 is a surface layer formed by two strands of warps 53 and wefts 54 which are divided into two groups of single strands of interwoven warps 53 and wefts 54 and superposed up and down, and the second surface layer 52 is a single-layer surface layer formed by two strands of interwoven warps 53 and wefts 54; the first surface layer 51 and the second surface layer 52 are made of fabrics woven by two strands of warps 53 and wefts 54, so that the fabrics are high in density and tensile strength and can better protect operators; the first surface course adopts the superimposed surface course of two-layer single strand warp 53 and weft 54 weaving, can strengthen the air permeability of protective clothing, increases the comfort level that protective clothing wore.

A flame retardant property test of flame-retardant antistatic breathable fabric, wherein a fabric sample is subjected to a vertical combustion property test after washing, and GB/T5455-: 26 ℃, 65% RB, ignition time: 12S, gas source: butane, the test was performed. And (3) testing results: the damage degree of protective clothing surface fabric warp-wise, latitudinal direction is 45mm, 42mm respectively, and the afterflame time warp-wise, latitudinal direction are 0s, and smoldering time warp-wise, latitudinal direction are 0s, the burning characteristic: no melting and dripping phenomena.

The antistatic performance of the protective clothing made of the flame-retardant antistatic breathable fabric is tested, a sample is subjected to a charged electric charge amount test after being washed, the test method and conditions are according to the requirements of GB 12014-2009 standard, and the test environment is as follows: 22.4 ℃, 38.0% r.h., were tested. And (3) testing results: the amount of charged dot charge was 0.39 μ c/piece.

The air permeability test of the protective clothing made of the flame-retardant antistatic air-permeable fabric is to take 20cm from the protective clothing²The fabric sample is subjected to air permeability performance test, and the test method and conditions are tested according to the GB/T5453-1997 standard requirement and the pressure drop of 100 Pa. And (3) testing results: the air permeability was 152 mm/s.

The using method of the invention comprises the steps of unzipping the zipper 11 on the protective clothing body 1, wearing the protective clothing body 1 on the body of an operator, pulling the zipper 11, tightly fastening the cuffs with the fastening tapes 3 on the trouser leg openings and the neckline, and spraying paint on the ship body by taking the isolation mask; when a fire occurs, the hand rope 221 on the control valve 22 is pulled manually to trigger the carbon dioxide steel cylinder, so that carbon dioxide gas in the carbon dioxide steel cylinder is filled in the sealed channel quickly, one side of the sealed channel is attached to the body of an operator after the sealed channel is filled with gas, and the other side of the sealed channel supports the protective clothing body 1, so that the protective clothing body 1 has a certain distance from the body of the operator, and cannot be directly attached to the body of the operator, thereby avoiding the situation that the skin of the operator is burnt due to overhigh temperature of the protective clothing body 1 when the fire occurs, and protecting the body health of the operator.

While there have been shown and described what are at present considered to be the fundamental principles of the invention and its essential features and advantages, it will be understood by those skilled in the art that the invention is not limited by the embodiments described above, which are included to illustrate the principles of the invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents.

Claims (8)

1. The flame-retardant antistatic breathable fabric is characterized in that: first surface course, the second surface course of weaving including the interval, warp and the double-deck single strand of weft that the yarn that first surface course was made by aramid fiber 1313, polyimide fiber, fire-retardant viscose fibre, carbon black conducting fiber interweaved and form, warp and the double-stranded interweave of weft individual layer that the yarn that second surface course was made by aramid fiber 1313, polyimide fiber, fire-retardant viscose fibre, carbon black conducting fiber made were made are interweaved and are made.

2. The flame-retardant antistatic breathable fabric according to claim 1, characterized in that: the two warps and the two wefts of the first fabric and the two warps and the two wefts of the second fabric are respectively warps and wefts made of the same yarn.

3. The flame-retardant antistatic breathable fabric according to claim 1 or 2, characterized in that: the warp and the weft are respectively made of 131320-35% of aramid fiber, 30-40% of polyimide fiber, 35-45% of flame-retardant viscose fiber and 1-2% of carbon black conductive fiber in a blending mode.

4. The flame-retardant antistatic breathable fabric according to claim 3, characterized in that: the warp and the weft are respectively made of 131325% of aramid fiber, 33% of polyimide fiber, 40% of flame-retardant viscose fiber and 2% of carbon black conductive fiber in a blending mode.

5. The utility model provides a protective clothing that fire-retardant antistatic ventilative surface fabric was made, includes the disjunctor protective clothing body that fire-retardant antistatic ventilative surface fabric was made, its characterized in that: the flame-retardant antistatic breathable fabric comprises a first surface layer and a second surface layer which are woven at intervals, wherein the first surface layer is formed by interweaving warp threads and double-layer weft single strands, the warp threads are made of yarns made of aramid fibers 1313, polyimide fibers, flame-retardant viscose fibers and carbon black conductive fibers, the second surface layer is formed by interweaving warp threads and double-layer weft single strands, the warp threads are made of yarns made of aramid fibers 1313, polyimide fibers, flame-retardant viscose fibers and carbon black conductive fibers, the weft single strands are interwoven, and an isolating device used for enabling the protective clothing body to form an interval with a human body is arranged on the inner surface of the protective clothing body.

6. The protective clothing made of the flame-retardant antistatic breathable fabric according to claim 5 is characterized in that: the isolation device comprises a plurality of sealed air passages which are arranged on the inner surface of the protective clothing body, the sealed air passages are communicated with one another, the sealed air passages are in a vacuum state, a carbon dioxide steel cylinder used for inflating the sealed air passages is arranged on the outer surface of the protective clothing body, and a control valve is arranged between the carbon dioxide steel cylinder and the sealed air passages and is respectively connected with the carbon dioxide steel cylinder and the sealed air passages.

7. The protective clothing made of the flame-retardant antistatic breathable fabric according to claim 5 or 6, characterized in that: and the cuffs of the protective clothing, the openings of the trouser legs and the neckline are respectively provided with a fastening tape for fastening.

8. The protective clothing made of the flame-retardant antistatic breathable fabric according to claim 5 or 6, characterized in that: the protective clothing body is provided with a plurality of storage bags.