KR100591003B1 - The manufacturing Process of non-woven fabric, woven fabric and paper with preventation of electric charge amd anti-fungi - Google Patents

Abstract

The present invention relates to the production of non-woven fabrics, fabrics and papers having antistatic and antibacterial function, by applying an antistatic material to the nonwoven fabrics, fabrics and papers antistatic effect and electric field integration in the space by the antistatic material having a high resistance It is an object of the present invention to provide an antistatic antibacterial product which simultaneously dissipates an electric field as a self-resistance heat and has a bacteriostatic function.

In order to realize this, the present invention coats an antistatic material on one or both sides of a nonwoven fabric, fabric, or paper to remove static electricity due to dust charged in the space by self-resistance, and integrates an electric field to generate an electric field as a slight heat by self-resistance heat. Electric field blocking effect to remove, as well as bacteria of the antistatic material used, as well as fungal sterilization function belonging to the fungi belong to fungi.

Non-woven fabrics, textiles, paper, antistatic, electric field, antibacterial

Description

The manufacturing process of non-woven fabric, woven fabric and paper with preventation of electric charge amd anti-fungi}

The present invention dissipates an electric field as self-resistance heat through antistatic effect and electric field integration in the space by antistatic material having high resistance by applying antistatic material to nonwoven fabric, fabric and paper using antistatic material. At the same time relates to the production of anti-static anti-bacterial non-woven fabrics, fabrics and papers having a bacteriostatic function,

Through this, the electric field is scattered in the space known to adversely affect the human body and thereby to produce non-woven fabrics, fabrics and papers that can reduce static electricity, charged fine dust, and various bacteria.

In order to remove such an electric field, a description will now be made of a technique related to a super medium proposed by the present inventors and their differences.

(1) Republic of Korea Patent Application 2003-0047034 relates to a super medium, acryl is the main component of an aqueous dispersion (hereinafter referred to as a dispersion) mixed with 10 to 60% by weight of conductive carbon black (hereinafter referred to as a conductor) It is made by mixing at room temperature with a water-soluble acrylic adhesive having a resin content of 15 to 75% by weight. At this time, 5-50% by weight of the dispersion was mixed with 100% by weight of the acrylic adhesive to form a coating adhesive (hereinafter, referred to as a coating composition).

The manufacturing process of the electromagnetic shielding waterproof subsidiary material using the coating composition is coated by any one method of impregnating / calendering / spray / knife coating method on one surface of a roll-type super medium or nonwoven fabric (hereinafter referred to as an auxiliary material). The super medium and non-woven fabric produced by the present invention had a resistance of several MΩ, but the electromagnetic shielding effect was excellent, but the coating was possible only on the laminated nonwoven fabric due to the problem that the color was coated with black so that the opposite side was exposed.

(2) When using an antistatic material adhesive, such as Korean Patent Application No. 2003-0004662, even if any water soluble adhesive is used, the generation of volatile organic compounds (VOC) inherent in the adhesive cannot be reduced by 100%. There was this.

The present invention has been made to solve the above problems,

Non-woven fabrics, fabrics and papers use only antistatic materials to apply one or both sides without using adhesives to prevent electric fields from inflowing from outside or to accumulate electric fields scattered in the space by antistatic materials. Non-woven fabrics, fabrics, and papers, which have dissipated electric fields as heat or heat, and are coated only with pure antistatic materials without adhesives, can be fully environmentally friendly products that do not generate volatile organic compounds (VOCs), a kind of environmental hormonal substance. In case of using non-woven fabric or fabric for clothing, post-treatment coating is applied once more with fiber adhesive such as polyurethane or acrylic adhesive on the applied antistatic material layer to prevent the loss of antistatic material due to washing. To prevent the antistatic substance from falling even after frequent washing. In addition to providing a product that can reduce the damage caused by static electricity in the industrial field has its purpose.

Below, it looks at a preferred embodiment of the present invention.

[Example 1] The antistatic solution of the present invention was used as it is without the addition of water in the case of the antistatic material described in the Republic of Korea Patent Application 2003-0004662 (patent application 2003-0004662) filed before the present invention. ) Was used without an adhesive to dissolve 1 to 39.8 parts by weight of sodium chloride in 100 parts by weight of water to prepare an antistatic aqueous solution.

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Therefore, the antistatic substance may be used as it is, but the pasteurization method is a method of sterilization for 30 minutes at 63-65 ° C, a method of sterilization at 72-75 ° C for 15-20 seconds, and an ultrahigh temperature sterilization at 130 ° C. Sterilization treatment by any one of the method of sterilization for 2 seconds, UV sterilization method to prepare a sterilized antistatic aqueous solution.

The process of manufacturing an antistatic antibacterial nonwoven fabric, fabric or paper using the antistatic aqueous solution or sterilized antistatic aqueous solution is a printing process of coating on one or both sides by any one method of impregnation / calendaring / spray / knife coating After the drying process and the antistatic material was coated.
[Example 2] And when used for clothes that require washing, nonwoven fabrics or fabrics made only of a non-adhesive like Example 1 is very likely to lose the antistatic coating layer by one or two washes Since the upper layer and the rear surface are additionally coated with a polyurethane adhesive, a polyurethane two-component adhesive, or an acrylic adhesive, the antistatic substance can be prevented from being lost even after frequent washing. At this time, the adhesive used was an adhesive usually used for fiber coating.

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[Example 1] As in Example 1, in the case of a product coated with an antistatic material without using an adhesive, it was possible to eliminate the generation of volatile organic compounds (VOCs). According to the test results, the fine particles of the antistatic material coated or adhered are stuck between the fine grooves of the nonwoven fabric, the fabric and the paper, so that the dropping is hardly occurred except by the washing method. The antistatic material that was loosely fixed due to the very fine particles of the atomic size was detached from the surface. However, in most cases, the surface of the surface was observed by electron microscopy after rubbing or scratching test. Due to this existence, the same electromagnetic wave attenuation function as the patent application 2003-0004662 was shown. Surface resistance (KS M 3015-1997) of the nonwoven fabric prepared with the antistatic aqueous solution was tested under the test conditions; Applied voltage 500V, 60 seconds, 20 ± 2 ℃, 65 ± 2% RH, test equipment; TOA SME-8311, D ₁ = 1.96 cm, D ₂ = 2.41 cm and 5.1 × 10 ^{7 to} 4.3 × 10 ⁸ Ω and half-life (KS K 0555-2000, Method A) was tested; The antistatic performance was very good at 1.5 ± 2.1 seconds at 20 ± 2 ° C. and 40 ± 2% RH.

Therefore, when the nonwoven fabric prepared in the above process is used as the nonwoven material for the papering, it was found that the human body is very harmless due to its superior competitiveness and no volatile organic compounds in terms of manufacturing cost due to no adhesive. In addition, the conventional laminated nonwoven fabric, which is another object of the present invention, has a width of up to 100 cm, and when it is reprocessed into an electromagnetic wave blocking laminated nonwoven fabric using the same, the width is further reduced than that, considering that the height of the existing apartment is approximately 230 cm. It has been pointed out that the shortage of about 30 ~ 36cm is the problem when it is first used, but until now, no countermeasures have been provided for the provision of electromagnetic wave blocking function using laminated nonwoven fabric. However, the present invention enables the use of low-cost wide nonwoven fabrics instead of expensive laminated nonwoven fabrics due to the white color, which can realize various colors, thereby enabling the production of antistatic or electromagnetic wave-resistant antibacterial nonwoven fabrics.

In addition, the range of applications such as disposable antibacterial sanitary masks, disposable antibacterial sanitary suits, antibacterial car interiors, ventilation (or air conditioners, small air conditioners), antibacterial air filters, non-woven fabric insect repellent mats, antibacterial gauze, and antibacterial stuffed toys are endless. In particular, hygienic masks and gauze are inventions that are beneficial for the prevention of wound scars as well as wound healing through the moisturizing and antimicrobial effects of antistatic materials used. It prevents insects such as Esau's ant from coming up on the mat and is also effective in preventing itching from substances such as lacquer.

Papers also suppressed the occurrence of bookworms after long periods of time, such as newspapers, books and notebooks. Due to the insect repellent function and printability, which are inherent functions of the antistatic material used, it was able to escape from the concern about the saving of printing ink due to the type printing and the worries caused by the worms that disgusted in newspapers and books and the bacterial infection.

[Application Example 2] In application as an antistatic clothing, the same process as in Example 2 allowed the development of a garment without loss of antistatic and antibacterial function even by frequent washing. When the user wears the garment manufactured by the present invention, the electric field can be removed from the electromagnetic waves introduced from the outside by the physics law that the electric field tries to be "zero", and by the antistatic performance Reduced friction, static damage, product damage and human shock.

[Application Example 3] The film (or sheet) manufactured by the same process as in Example 3 is a conventional confectionery bag due to the antistatic property, printability, and antibacterial property, biodegradability, and insect repellency, which are inherent to the antistatic material used. It could replace the A1 film laminating layer to give antistatic property to it, and it is possible to increase the product reliability because consumers can check the inside due to the transparent confectionery bag, which can increase the purchasing power of consumers.

In addition, although specific embodiments of the present invention have been described and illustrated above, it is obvious that the present invention may be variously modified and implemented by those skilled in the art.

Such modified embodiments should not be individually understood from the technical spirit or the prospect of the present invention, and such modified embodiments should fall within the appended claims of the present invention.

As described above, the non-woven fabric, fabric, and paper having antistatic antibacterial function of the present invention have an antistatic and electric field blocking effect by accumulating electric fields scattered in the space by self-resistance and removing electric fields by heat of resistance. As well as bacteria, in particular, having the ability to inhibit the fungus has excellent characteristics in reducing the risk of fire or product shock due to human benefits and electrostatic phenomena in industrial sites.

As described above, non-woven fabrics, fabrics, and papers (hereinafter referred to as subsidiary materials) having antistatic antibacterial function of the present invention integrate electric fields scattered in a space by self-resistance, and remove electric fields by mild heat by resistance heat. It has an antistatic and electric field blocking effect, and it has excellent features in reducing the shock of fire and products due to the human body benefit and electrostatic phenomena in the industrial field due to the ability to inhibit bacteria as well as fungi.

Claims (3)

An antistatic solution prepared by dissolving 1 to 39.8 parts by weight of sodium chloride in 100 parts by weight of water, or the antistatic solution prepared by using any one of a method of pasteurization, high temperature sterilization, ultrahigh temperature sterilization and ultraviolet sterilization. A subsidiary material manufacturing method using any one material, through a printing process and a drying process of coating on one or both sides by any one method of impregnation / calendar ring / spray / knife coating. delete delete