KR100806075B1 - Manufacturing method of fire-fighting clothes having antibiotic function - Google Patents

Abstract

A manufacturing method of fire-fighting clothes having an antibiotic function is provided to have thermal resistance, flame resistance, and high elasticity functions, and to prevent propagation of bacteria and mold. A manufacturing method of fire-fighting clothes having an antibiotic function comprises the steps of: forming an outer cloth and an inner cloth using fabric comprising the aromatic polyamide yarn; forming a middle material using non-woven fabric comprising the aromatic polyamide fiber; and adding an antibiotic agent to the inner cloth, outer cloth, and the non-woven fabric.

Description

Manufacturing method of Fire-Fighting Clothes having antibiotic function

The present invention relates to a method for manufacturing fire protection fire clothing, and more specifically, to prepare fire protection fire protective clothing with aramid-based fabric having properties of heat resistance, high elasticity, high strength, flame retardancy, light weight, electrical insulation, etc. The present invention relates to a method of manufacturing fire protection clothing by mixing silver in a state to be spun into a fabric or coating nano-silver on a fabric spun in an aramid yarn.

Conventional fire protection suits are made of flame retardant and heat resistant materials that are not fired even at high temperatures due to flame retardancy. However, in order to increase heat resistance, fabrics are generally composed of three or more layers. In addition, there is a problem in that it does not provide a hygienic good environment, and when fire protection clothing is wet with fire water during disaster prevention work, the washing process using detergent and mechanical washing to clean it There is a problem that the function of the flame retardant by the flame retardant process is lost, and if you do not wash to prevent the function of the flame retardant, the bacteria grow inside the fire suit and the microorganisms decay, so that the smell is bad and the hygiene and wearing feeling are dirty. As a result, there is a problem such as user infection and deterioration of workability. Does not readily is to improve this because the problem such that the mold and parasitic.

The present invention has a purpose to provide a fire protection clothing that is not only good elasticity, but also easy to work when wearing a fireman (消防 手) to work for disaster prevention in the event of fire is dangerous because the work itself is dangerous. .

It is an object of the present invention to provide a fire prevention garment that is flame retardant in a woven state.

It is an object of the present invention to provide a fire protection suit having an antibacterial function that does not cause bacterial propagation or microbial rot, mold propagation, etc. even during long-term storage or management in a wet state.

The raw material of the fire prevention garment according to the present invention is composed of a woven fabric using an aromatic poly aramid-based yarn and mixed or coated with nano silver in the yarn or woven fabric to solve the problem of the present invention.

The aromatic poly aramid system is made of a woven fabric made of a light weight, flame-retardant, heat-resistant, high-elastic yarn composed of polyamide of at least about 85% of the total amide groups directly connected to both aromatic rings in both sides Construct a fire suit.

Fireproof clothing made of the above fabric is composed of outer material, lining and intermediate material, and each material (outer material, lining and intermediate material) is composed of aromatic poly aramid system and it is not easily dried when moisture is formed in the space formed between each material. Therefore, in order to remove the odor caused by breeding or decaying bacteria, microbial breeding, and mold, nano-silver penetrates into the aramid yarn and weaves the fabric in a state where the yarn and the silver become one, or weave the aramid yarn. To form a nano-silver film on the fabric to form a fire suit.

Fire protection clothing according to the present invention is composed of a woven fabric of aromatic poly aramid yarn has heat resistance, flame resistance, and high elasticity, and its weight is light, so it is not only safe during fire disaster prevention, but also light weight, so it can act quickly in the fire site. Since it is possible to prevent the occurrence of bacteria breeding, microbial rot, mold, etc., because nano-silver is mixed or coated on the fire protection clothing, it is effective in protecting the pleasant environment and disease when worn.

The present invention is a process in which the silver 15 penetrates into the yarn 15 while the yarn 15 composed of an aromatic poly aramid system is impregnated in the silver container 19 in the nano state, and the yarn 15 penetrated with silver is dried and dried. Nano-structured silver on both sides of a fire suit 11 composed of a process consisting of a fabric 16 woven the yarn 15, and a fabric 16 composed of an aromatic polyaramid yarn 15 The fire prevention garment 11 is comprised by the process of constructing the coating layer 22. FIG.

Figure 1 shows a fire suit according to the present invention.

Figure 2 shows the structure of the fire suit.

Figure 3 shows the structure of the yarn according to the present invention.

Figure 4 shows the state of coating the silver nano of the fabric used in the fire suit.

Figure 5 illustrates a process for producing a fire protection silver nano yarns according to the present invention.

Figure 6 shows the process of coating the silver nano to the fire protection fabric according to the present invention.

The present invention will be described with reference to the drawings and embodiments.

The fire protection garment 11 according to the present invention is an outer fabric 12 composed of an aromatic poly aramid fabric 16 and an intermediate material 14 composed of an aromatic poly aramid nonwoven fabric and a lining 13 composed of an aromatic poly aramid fabric 16. It consists of.

PTFE film 23 is attached to the inside of the nonwoven fabric of the intermediate material 14 to prevent moisture penetrating in the direction of the outer fabric 12, and is configured to be moisture-proof to dissipate the lining 13 direction, that is, sweat. .
PTFE stands for Poly Tetra Fluoro Ethylene.
PTFE has a melting point of 327 ° C, which is stable at high temperatures, and stable at -268 ° C, so it is intended for use at high and low temperatures.

Example

The present invention provides a fire suit worn by firefighters during fire disaster. It is to provide a fire protection clothing that is safe for heat, safe for electricity, quick to wear, breathable, and prevents the decay of bacteria and microorganisms, mold and the like.

Conventional fireproof clothing is made of flame-retardant fabric and composed of outer lining intermediate material, so that the outer lining and lining and intermediate material have heat resistance and flame resistance. In addition to this inconvenience, in the end, there is a problem that is easily tired, and because the infiltrated moisture is not easily dried, the growth of bacteria, the decay of microorganisms, mold, etc. occurs to the user's health, and the environment is poor due to bad smell. There is, there is a problem that can be prevented by washing the fire suit to remove the above problems, but if the fire suit is often washed, there is a problem that the flame retardant function is lost.

In general, the sterilization rate of the fire suit (11) for use by firefighters (消防 手) is set to a 90% sterilization rate after washing.

Infection Rate Early(%) After washing Washing count Staphylococcus 95.0 90.0 5 Escherichia coli 95.0 90.0 5

TABLE-1

As shown in Table 1 above, it can be seen in the experiment of the Korea Textile Development Institute that the infection rate can be maintained until 9 times after using the fire protection suit 11 configured by the conventional method, depending on the number of washing. It can be inferred that the flame retardant function formed in) is reduced.

5 is an intermediate material 14 composed of a nonwoven fabric and a process for penetrating the silver in the nano state from the yarn 15 of the outer fabric 12 and the lining 13 to form the fire protection clothing 11, as shown in FIG. As a process chart constituting the penetration of silver in the nano state, the efficacy of sterilization was increased.

As shown in FIG. 6 of the present invention, a process diagram of coating nanostructured silver on the aromatic poly aramid fabric 16 with the outer fabric 12, the lining 13, and the intermediate member 14 constituting the fire protection suit 11. As shown in FIG. 5, it may have the same bactericidal effect as the fire clothes 11 according to the process diagram of FIG. 5, but the efficacy may be gradually lowered than that of the fire clothes 11 according to the process of FIG. 5.

Example-1

As shown in FIG. 5, the aromatic polyaramid-based yarn 15 is unrolled from the roll 17 and proceeds to a configuration in which the nano-shaped silver container 19 is impregnated along the guide roll 18 to form a drying chamber 24. Dried on the roll 17 to form a yarn 15 and woven using the yarn 15 to form the fabric 16 as a unitary fabric of the silver in the nano state to form a fire suit 11.

Example-2

The intermediate material 14 according to the present invention passes through the nonwoven fabric in the fabric state as shown in FIG. It dried by etc. (26) and used it as the intermediate material (14).
When forming the aromatic poly aramid fabric, the nano state silver is impregnated in the containing container 19 so as to be coated with silver on both sides of the aromatic poly aramid fabric and dried by a near infrared lamp 26 in the chamber 24. Outer fabric 12 and lining 13 were used.
In Example-2, it is for obtaining the effect of covering a yarn by a rapid process by impregnating and coating a nonwoven fabric and an aromatic poly aramid fabric as in Example-1.
Example-3

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The aromatic poly aramid fabric 16 was impregnated with the fabric 16 in the container 19 containing the nano-silver in the same manner as the yarn 15 in Example-1, so that the nano-silver was sufficiently filled in the fabric 16. It was made to penetrate and dried with a near infrared ray (26) in the chamber (24) to prepare a fire suit (11).

Example-4

As shown in FIG. 6, in the process of unwinding the fabric 16 from the roll 17 of the fabric 16 formed using the aromatic poly aramid-based yarn 15, it is wound along the guide roll 18. After passing through 24, silver in the nano state is applied to the upper surface of the fabric 16 by the spray 25 and dried by the near infrared lamp 26 of the chamber 24, and then the lower surface of the fabric 16 is applied. , The image of the fabric 16, which is dried and coated with silver in the nano state. A silver coating layer 22 is formed on the lower surface, and the fabric 16 formed through the above process is used as the outer fabric 12 and the lining 13 of the fire protection clothing 11.

Strain name Sample concentration Number of bacteria after incubation Sterilization Reduction (%) Bacteriostatic reduction rate (%)   Salmorela 5 ppm 2.1 × 10 ⁴ 86.0 100 10 ppm 3.2 × 10 ³ 97.8 100 20 ppm 0 cfu / ml 100.0 100.0

TABLE-2

As described in Table 2, the reduction rate of bacteria can be determined according to the sample amount of silver in the nano state, and the target bacteria were sterilized when the silver in the nano state was 20 ppm or more.

Therefore, since the target pathogens are sterilized when the nano-state silver has a concentration of 20 ppm or more over an area, the nano-state silver having a concentration of 20 ppm is used in the embodiment of the present invention.

In addition, the intermediate material 14 in the structure of the fire prevention garment 11 using Example-3 was made to use the intermediate material 14 comprised in Example-2.

Example-5

When the outer fabric 12, the lining 13, and the intermediate material 14 formed in the processes of FIGS. 5 and 6 are formed, the intermediate material 14 to prevent moisture introduced into the outer fabric 12 from being permeated into the lining 13. The PTFE film 23 is attached to the inner surface (lining direction) to prevent moisture from penetrating into the lining 13 and the moisture in the lining 13 direction can be released . Since the PTFE film is stable to high and low temperatures, it is high and low temperature. To protect the body temperature.

Example-6

When manufacturing the interlayer, non-woven fabric and PTFE film can be used to improve the antibacterial function by using an adhesive with antibacterial ingredients.In addition, when forming platinum, copper, zinc, ocher, macsumite, mica, etc. in nano state, It can be seen that there is an antibacterial effect, in particular, when chitosan is added to the antimicrobial agent to bond the aramid nonwoven fabric and the PTFE film, it was found that the antibacterial function is maintained for a long time.

1 is an overall view of a fire suit

2 is a cross-sectional view taken along line A-A 'of a fire suit.

3 is a detailed view of the yarn in which the nano-state silver is integrated

4 is a detailed view of a silver coated fabric of the nano state

5 is a flow chart of the fireproof fabric weaving yarn

Fig. 6 is a flow chart of fabric coating

** Description of the symbols for the main parts of the drawings **

11: fireproof clothing 12: outer

13: lining 14: middle blood

15 yarn 16 fabric

17: roll 18: guide roll

19: housing 22: silver coating layer

23 film 24 chamber

25: spray 26: near infrared light

Claims (6)

Outer fabric and outer lining are formed by using a fabric composed of aromatic poly aramid yarn, consisting of an intermediate material using a non-woven fabric formed of aromatic poly aramid fibers and having an antibacterial function, characterized in that the antimicrobial agent is added to the lining, outer fabric and nonwoven fabric. How to make fire fighting suit The method of claim 1, wherein the yarn is impregnated in the nano-silver receiving and dried in the chamber with near-infrared radiation is composed of a yarn which is formed integrally with the nano-state silver fire fighting fire clothing having a antimicrobial function. The method of claim 1, wherein the fabric is impregnated in the silver state of the nano-receiving and dried in the near-infrared in the chamber is composed of a fabric consisting of the nano-state of the fire protection fire fighting clothes having an antimicrobial function. The image of the fabric of claim 1, wherein the fabric is coated with a top surface with nano-silver passing through the spray and dried in near-infrared in the chamber, and then the bottom surface is applied with a nano-state silver and dried in near-infrared in the chamber. Fire protective clothing manufacturing method having an antibacterial function, characterized in that the silver coating layer is formed on the lower surface. The method of claim 1, wherein the nonwoven fabric is impregnated in the silver container in the nano state and dried in a near infrared ray in the chamber so that the nano state silver is integrally formed. (Correction) The method of claim 1, wherein the intermediate material is a PTFE film having a function of moisture permeable moisture is attached to the surface of the non-woven fabric in the direction of the outer fabric direction, the moisture in the outer direction by the film to which the antibacterial agent is added and attached Fire prevention fire prevention clothing manufacturing method having an antibacterial function, characterized in that the moisture is prevented and configured to discharge the lining direction.

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