KR20160004834A - Industrial Safety Uniform having flame-retardant and ventilation function and the manufacturing method - Google Patents

Abstract

The present invention relates to an industrial safety uniform and, specifically, to an industrial safety uniform with a silicone polymer having flame retardancy applied to the outer surface thereof. The purpose of the present invention is to provide an industrial safety uniform having flame-retardant and air-permeable functions which is manufactured by bonding a silicone polymer solution onto the outer surface of a fabric made of aramid yarns or a non-woven fabric made of carbon fibers, and heating and hardening the same, wherein a silicone polymer is attached and bonded only to the surface of yarns constituting the fabric and the surface of yarns constituting the non-woven fabric, except for through-holes formed on the fabric or the non-woven fabric. In addition, the silicone polymer desirably contains: 70-80 wt% of a main agent consisting of silicon in the form of polysiloxane, to which vinyl groups and hydrogen atoms are individually bonded; 10-30 wt% of an inorganic flame-retardant auxiliary agent; 3-10 wt% of a curing agent; and 0.1-1 wt% of a curing accelerator. Therefore, the present invention can provide a comfortable uniform having sufficient flame retardancy, since the silicone polymer is applied thereonto, and air permeability.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an industrial safety workwear having flame retardancy and ventilation,

The present invention relates to an industrial safety work wear worn by an operator in an industrial field, and more particularly, to a safety work wear having a flame proof property for protecting the safety of an operator from a fire, will be.

Safety work clothes worn by workers at industrial sites require high strength, heat resistance and chemical resistance. For example, protective garments used in dangerous applications, industrial garments, fire extinguishers and military garments may be made of yarn woven of non-synthetic fibers, such as cotton or wool, and then those fabrics may be treated with conventional halogen and phosphorus, The work clothes were limited in activity and were heavier than normal non-heat resistant fabrics.

Among the above-mentioned industrial safety work clothes, a welded garment to be worn during the welding work belongs to a work garment which requires more heat resistance and flame retardancy. Especially, in arc welding work, many sparks are splashed during the welding work, and there are risks such as electric shock, high temperature heat generated in welding, and unexpected external impact in the workplace.

In order to protect workers from these hazards, Welding Gears such as welding belts, welding masks and welding gloves are worn. Among them, welding belts protect most of their bodies, . Conventional welding belts are made of animal leather. Such welding belts made of leather are easily shrunken or lost due to high-temperature heat when the spark plug is touched during the welding work, and are not only heavy and inconvenient but also do not ventilate .

In recent years, the development of welded fabrics using high-strength and high-temperature-resistant fibers such as para-aramid, meta-aramid, carbon fiber, PBO and flame retardant rayon excellent in non-combustibility and heat resistance has been developed. However, However, there was still a weak point in the case of fire. That is, in the case of ignition over a certain level, the fiber itself is carbonized to generate toxic gas, and the operator can not be protected by further ignition.

In order to solve these problems, work clothes have been recently marketed in which flame retardancy is further enhanced by coating silicone on the outer surface of flame retardant fabrics such as aramid or carbon fiber as an inorganic flame retardant agent. However, such a work cloth coated with silicone on the outer surface has a problem in that the workability of the worker is lowered although the flame resistance is enhanced. That is, there is a problem that the outer surface is coated and ventilation is not performed at all. As described above, since the environment for the welding work is very poor, the ventilation of the work clothes is a very important factor. Therefore, the outer surface silicon coated flame-retardant clothes having no ventilation has a problem of lowering the work efficiency of the workers.

Korean Patent No. 10-1061829 (Flame Retardant Fabric Manufacturing Method and Flame Retardant Fabric According to That) Korean Patent No. 10-1259855 (High-heat-resistant silicone coating method for fabrics for industrial safety work clothes)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and an object of the present invention is to provide a safety workbench having flame retardancy, which uses silicon excellent in flame retardancy and enables smooth ventilation of a work cloth.

In order to accomplish the above object, the present invention provides an industrial safety work cloth in which a silicone polymer having flame retardancy is applied to an outer surface, the silicone polymer solution being bonded to the outer surface of a raw material made of aramid yarn or a nonwoven fabric made of carbon fiber, The present invention provides an industrial safety work cloth having a flame retardant and ventilating ability to which a silicone polymer is adhered and bonded only to a yarn of a fabric and a yarn surface constituting a nonwoven fabric excluding a self-hole formed in a fabric or a nonwoven fabric.

Preferably, the silicone polymer comprises 70 to 80% by weight of a subject composed of polysiloxane type silicon in which the vinyl groups and hydrogen atoms are bonded to each other, 10 to 30% by weight of an inorganic flame retarding auxiliary, 3 to 10% by weight of a curing agent, 0.1 to 1% by weight. On the other hand, the above-mentioned subject is made of any one or mixture of dimethylhydrogenpolysiloxane, dimethylpolysiloxane, dimethylmethylvinylpolysiloxane and methylpolysiloxane, and the inorganic flame retardant aid is selected from aluminum hydroxide, antimony oxide, magnesium hydroxide, zirconium oxide, Zinc oxide, titanium oxide, and mica, and the curing agent is selected from the group consisting of [formula]

 [Wherein R3 is H or CH3 and o = 40 to 70.], and the curing accelerator is made of a platinum complex catalyst.

The present invention also relates to an industrial safety work cloth to which a silicone polymer having flame resistance is applied to an outer surface, comprising the steps of impregnating a silicone polymer liquid with a raw material made of aramid yarn or a nonwoven fabric made of carbon fiber; Heat-curing the silicone polymer for 20 to 60 seconds at a temperature of 100 ° C or higher in a heat chamber, blowing air from one side of the fabric or the nonwoven fabric to which the silicone polymer is adhered to transfer air to the other side, And a through-hole forming step of preventing a silicone polymer from adhering to the through hole. Another technical feature of the present invention is to provide a method of manufacturing an industrial safety worktop having flame retardancy and ventilation.

Preferably, the step of bonding the silicone polymer solution to the outer surface of the yarn as the aramid yarn passes through the silicone polymer solution; Heat-curing the silicone polymer for 20 to 60 seconds at a temperature of 100 ° C or higher in a heat chamber, and fabricating the fabric using a yarn to which the silicone polymer is thermally cured on the outer surface, Provides an industrial safety workwear manufacturing method.

The present invention has the effect of providing a pleasant work clothes since silicone polymer is applied and has sufficient flame retardancy and ventilation.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing the structure of an aramid fiber fabric of a flame-retardant and ventilated working suit according to the present invention. FIG.

Industrial safety work clothes of the present invention use silicone polymer for enhancing flame retardancy, and it is possible to provide ventilation of work clothes themselves. For this purpose, there is a method of applying air permeability through impregnation after impregnation instead of coating a silicone polymer on the surface of the fabric, or by coating the outer surface of the aramid yarn itself with a silicone polymer, Method can be done in two ways. The details will be described below.

1. Selection of fibers

The aramid fiber and the carbon fiber may be used as the fibers for the working clothes required in the present invention. Since the aramid fiber can be woven, it can be fabricated in the form of a fabric, then impregnated with a silicone polymer solution, post-treated, or the aramid yarn itself to be woven as a fabric is coated on the outer surface with a silicone polymer solution, So as to weave the fabric.

Since the carbon fiber is in the form of a short fiber, it is not easy to weave the fabric. Therefore, the nonwoven fabric is impregnated into the silicone polymer solution, and then the carbon fiber nonwoven fabric is produced through post treatment.

First, explain the aramid fiber.

The aramid fiber is classified into para-liked aramid fiber and meta-like aramid fiber according to the bonding position of the amide group and the benzene ring. The para-aramid fiber has high strength and high modulus, On the other hand, the meta-system is characterized by excellent thermal stability.

The meta-based aramid is a fiber made from a polymer linked with an amide group at the meta position and has a melting point of 320 ° C and is excellent in heat resistance, flame retardancy, and flame resistance, and is used in aircraft interior, army and civilian protective clothing, industrial filter material, paper material, Nomex of DuPont, Gonnex of Teijin, and Fhenylon of Russia have been developed as products for general consumers, and they are used for partition curtains and work clothes. Especially heat resistance, flame retardancy, Chemical resistance and radiation resistance, it has been widely used in protective clothing such as fire fighting clothing. Therefore, in principle, meta-aramid is used in the present invention.

The meta-aramid is a common polymer in aramid, which is prepared by reacting approximately the same amount of meta phrnylene diamine (MPD) and isophthaloyl dichloride (IPC) in an amide solvent to form a prepolymer After neutralization, washing with water, drying and dissolving in a solvent,

As the polyamide, the meta-aramid fibers comprise a meta-oriented synthetic aromatic polyamide, preferably poly (meta-phenylene isophthalamide) (MPD-I) and copolymers thereof. The meta-aramid fibers that can be used in the present invention include, Nomex available from E. I. du Pont de Nemours and Company, Tejinconex, a trade name of Teijin Ltd.; And New Star meta-aramid from Yantai Spandex Co., Ltd., and the like. Meta-aramid fibers are inherently flame retardant and can be prepared by dry or wet spinning using many processes.

It is preferable that the thickness of each thread constituting the meta-aramid fiber is in the range of 7 to 60'S. When the thickness of the yarn is 7 'S or less, it is too thick to be used for clothing. When the thickness of the yarn is 60' S or more, it is difficult to coat the silicone polymer liquid on the outer surface. In fact, it was found that the number of twists is 400 to 500 TPM (TWIST PER MITER), which makes it possible to form a suitable fabric for the manufacture of work clothes and to achieve a smooth ventilation condition.

Next, the carbon fiber will be explained.

Carbon fiber is widely used as a material for flame resistance at present, and it is used in the form of nonwoven fabric or fiber form, but since it forms a short fiber form, it is manufactured in the form of nonwoven fabric, Since the carbon fiber nonwoven fabric of the present invention is a general type, the nonwoven fabric of the carbon fiber nonwoven fabric of the present invention has a general shape, and a detailed description thereof will be omitted.

2. Silicone polymer

The silicone polymer to be used in the present invention is composed of 70 to 80% by weight of a subject, 10 to 30% by weight of an inorganic flame retardant, 3 to 10% by weight of a curing agent and 0.1 to 1% by weight of a curing accelerator.

First, the subject uses silicon of polysiloxane type in which a predetermined vinyl group and a hydrogen atom are bonded to each other, and the vinyl group of the polysiloxane is cross-linked by thermosetting so that it can be attached to the surface of a wig or a yarn. Such polysiloxane type silicon can be prepared as follows.

The polysiloxane type silicon can be prepared as follows. Methanol is used as a raw material for silicon production in the form of methyl chloride. Methyl chloride is absorbed in methylchlorosilane, which is a silicone monomer, and the methyl group is left in the polymer by hydrolysis, and the chlorine is recovered as hydrochloric acid. The recovered hydrochloric acid is reacted again with methanol and reused. Various types of polysiloxane such as dimethylhydrogenpolysiloxane, dimethylpolysiloxane, dimethylmethylvinylpolysiloxane and methylpolysiloxane can be prepared and used in the same manner as described above.

Next, an explanation will be given of an anti-flammable auxiliary agent. The present inventors have found that sufficient thermal stability can be obtained even at a high temperature of 1000 캜 or higher as the auxiliary agent is added. Aluminum hydroxide, antimony oxide, magnesium hydroxide, zirconium oxide, barium borate, zinc oxide, titanium oxide and mica can be used as the anti-flame-resistant auxiliary. The inorganic flame retardant aid is preferably used in an amount of 10 to 30% by weight, and if it is 10% by weight or less, sufficient flame retardancy can not be obtained. If it is 30% by weight or more, It was found that the feel was not good.

It is preferable that the curing agent is used in an amount of 3 to 10% by weight, and it is preferable to use a siloxane having the above formula

 [Chemical Formula]

 [Wherein R3 is H or CH3 and o = 40 to 70.]

The curing accelerator is used in an amount of 0.1 to 1% by weight, and may be used for general use such as a platinum complex catalyst.

Next, a description will be made of a method for fabricating a safety work cloth having flame retardancy and ventilation for the above-mentioned fibers and silicone polymer.

1. Manufacture of silicone polymer liquid

The silicone polymer liquid is prepared according to the above composition ratio, and since the prepared silicone polymer liquid exhibits a high viscosity, it is stirred at a low speed using a general-purpose stirrer to prevent the surface from hardening.

2. Impregnation or surface coating of aramid yarn

As described above, since the air permeability is to be ensured, the present invention is not limited to the above-mentioned method, so that the aramid fabric or the carbon fiber nonwoven fabric having its own through holes can be impregnated to maintain the self- The coated fabric is used to weave the fabric so that the fabric itself maintains the through-holes.

3. Post-treatment to maintain ventilation

A method of maintaining ventilation through impregnation of the fabric or nonwoven fabric and through post-treatment will be described first.

After impregnating the fabric or the nonwoven fabric with the silicone polymer solution, the silicone polymer solution is cured by thermosetting in a heat chamber at 100 DEG C or more for about 20 to 60 seconds while the silicone polymer solution is sufficiently wetted on the outer surface, Or attached to the surface of the nonwoven fabric and cured at the same time. At this time, since the attached silicone polymer liquid can block the through holes formed in the raw fabric or the nonwoven fabric itself, a blower is applied from one side of the nonwoven fabric or the fabric so that the blowing air is transmitted to the back side so that the silicone polymer solution is not filled in the self- . 1, the silicone polymer coating 20 is applied to the outer surface of the yarn 10 forming the fabric, and the through hole 30 of the fabric itself is maintained as it is, The coating is made, but each through hole is left intact, so that ventilation can be made.

On the other hand, when the meta-aramid yarn is used, the yarn is passed through a cylinder containing the silicone polymer solution to coat the outer surface with the liquid, and then the outer surface is cured while passing through a heat chamber having a temperature of 100 ° C or higher. Prepare coated yarn by winding. By using the coated yarn to weave the fabric, air permeability can be maintained by maintaining the through holes of the fabric itself.

As described above, it can be seen that the present invention is based on the technical concept of providing a safety work cloth having a ventilating silicone polymer having a flame retardant silicone polymer formed on the outer surface thereof. In the above description, it is only one embodiment, It will be appreciated that various embodiments consistent with the teachings of the invention are possible, and that these embodiments are not intended to be exhaustive of the invention.

Claims (7)

In an industrial safety work garment wherein a flame-retardant silicone polymer is applied to the outer surface,
A silicone polymer is adhered and bonded only to a yarn surface of a raw fabric and a nonwoven fabric excluding a self-hole formed in a fabric or a nonwoven fabric by bonding a silicone polymer liquid to the outer surface of a fabric made of aramid yarn or a nonwoven fabric made of carbon fiber, Wherein the flame retardant is a flame retardant. The method according to claim 1,
Wherein the silicone polymer comprises 70 to 80% by weight of a subject consisting of polysiloxane type silicon in which vinyl groups and hydrogen atoms are respectively bonded, 10 to 30% by weight of an inorganic flame retardant aid, 3 to 10% by weight of a curing agent and 0.1 to 1% Wherein the flame-retardant and ventilated industrial safety workwear is characterized in that the flame retardant and ventilated industrial safety workwear are provided. 3. The method of claim 2,
The subject matter consists of any one or mixture of dimethylhydrogenpolysiloxane, dimethylpolysiloxane, dimethylmethylvinylpolysiloxane and methylpolysiloxane,
The inorganic flame-retardant aid is composed of any one or a mixture of aluminum hydroxide, antimony oxide, magnesium hydroxide, zirconium oxide, barium borate, zinc oxide, titanium oxide and mica,
The curing agent,
[Chemical Formula]

[Wherein R3 is H or CH3 and o = 40 to 70.]
Wherein the curing accelerator is a platinum complex catalyst. ≪ RTI ID = 0.0 > 8. < / RTI > In an industrial safety work garment wherein a flame-retardant silicone polymer is applied to the outer surface,
Impregnating the silicone polymer solution with a nonwoven fabric made of aramid yarn or fabric made of carbon fibers;
Thermally curing the silicone polymer for 20 to 60 seconds at a temperature of at least < RTI ID = 0.0 > 100 C < / RTI &
And a through-hole forming step of applying a blowing force to one surface of the fabric or the nonwoven fabric to which the silicone polymer is attached to transfer the air to the other surface, thereby preventing the silicone polymer from adhering to the through hole formed in the fabric or the nonwoven fabric, ≪ RTI ID = 0.0 > 1, < / RTI > In an industrial safety work garment wherein a flame-retardant silicone polymer is applied to the outer surface,
Bonding the silicone polymer liquid to the outer surface of the yarn as the aramid yarn passes through the silicone polymer liquid;
Thermally curing the silicone polymer for 20 to 60 seconds at a temperature of at least < RTI ID = 0.0 > 100 C < / RTI &
And fabricating a fabric using the yarn on which the silicone polymer is heat-cured on the outer surface, wherein the fabric has flame retardancy and air permeability. The method according to claim 4 or 5,
Wherein the silicone polymer comprises 70 to 80% by weight of a subject consisting of polysiloxane type silicon in which vinyl groups and hydrogen atoms are respectively bonded, 10 to 30% by weight of an inorganic flame retardant aid, 3 to 10% by weight of a curing agent and 0.1 to 1% Wherein the method comprises the steps of: The method according to claim 6,
The subject matter consists of any one or mixture of dimethylhydrogenpolysiloxane, dimethylpolysiloxane, dimethylmethylvinylpolysiloxane and methylpolysiloxane,
The inorganic flame-retardant aid is composed of any one or a mixture of aluminum hydroxide, antimony oxide, magnesium hydroxide, zirconium oxide, barium borate, zinc oxide, titanium oxide and mica,
The curing agent,
[Chemical Formula]

[Wherein R3 is H or CH3 and o = 40 to 70.]
Wherein the curing accelerator is a platinum complex catalyst. ≪ RTI ID = 0.0 > 8. < / RTI >

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