KR20030091369A - Manufacturing Method for Making Silver Fiber Chip - Google Patents

Abstract

PURPOSE: A manufacturing method of chips for producing silver fiber containing silver particles is characterized by infiltrating colloidal silver into polymer for producing fiber, producing the silver fiber having excellent antibiosis and preventing separation of the silver particles. CONSTITUTION: The manufacturing method of the chips for producing the silver fiber containing the silver particles is as follows: (a first mixing process) blending 99.7-95wt.% of polymer for producing the fiber and 0.3-5wt.% of the colloidal silver; (a first cooling process) putting a mixture of the polymer and the colloidal silver into a hopper to maintain temperature of the mixture on 10-30deg.C; (a second mixing process) putting the mixture into a screw cylinder containing a moving screw to vaporize moisture contained into the mixture, followed by dispersing silver solution into the polymer; (a spinning process) spinning the polymer mixture through a spinning hole; (a second cooling process) cooling the spun polymer mixture to solidify; and then (a cutting process) cutting the cooled polymer mixture on 3-6mm.

Description

Manufacturing method for silver fiber chip containing silver particles {Manufacturing Method for Making Silver Fiber Chip}

The present invention relates to a method for manufacturing a silver fiber chip containing silver (Ag) particles, and more particularly, to finely disperse colloidal silver in which silver particles are mixed in a colloidal form in a polymer for fiber production, thereby providing excellent antimicrobial properties. The manufacturing method of the chip | tip for silver fiber manufacture containing the silver particle which can manufacture the fiber which has is related.

Recently, various functional fibers such as far infrared, antibacterial, deodorant and deodorant, conductive and flame retardant have appeared and are being studied more actively. On the other hand, the most important of these functional fibers can be said to provide a fiber having antitoxicity and antibacterial harmful to the human body.

In general, silver (Ag) not only removes toxins, but also can treat about 650 kinds of diseases including viruses and bacterial infections, and it has been found to have excellent antibacterial effect by neutralizing enzymes that act as metabolic bacteria. lost. Because of this effect, silver (Ag) has been used as a tableware or jewelry, and recently, has been applied to antibiotics, filters of water purifiers and the like.

Conventionally, disinfectant fibers prepared using silver are prepared by mixing a predetermined fiber manufacturing chip and solid fine silver particles, or by simply coating silver particles on the surface of the fiber. However, the method of manufacturing the fiber by mixing the fiber chip and the silver particles, since the use of solid silver particles, only fine silver particles are depressed in the fiber structure, and the silver particles are not uniformly dispersed in the fiber structure There was this. In addition, the method of coating the silver particles on the surface of the fiber does not form a strong bonding relationship can be easily peeled through a process such as washing, there was a disadvantage that it is difficult to maintain the initial sterilization power as it is.

An object of the present invention for solving the above disadvantages is to impregnate the colloidal silver in which the silver particles are mixed in the colloidal phase in the polymer for producing fibers to evenly disperse the silver particles in the polymer to produce a fiber having excellent antimicrobial properties It is to provide a method for producing a chip containing silver fiber.

Another object of the present invention is to provide a method for producing a silver fiber-containing chip which contains silver particles which can prevent the silver particles dispersed in the fiber from being washed off by completely dispersing the silver particles into the polymer for fiber production.

The method for producing a silver fiber chip containing silver particles to achieve the above object is a mixture of 99.7 to 95% by weight of the polymer for preparing fibers such as polypropylene, polyester, nylon and 0.3 to 5% by weight of colloidal silver (Blending ) A step of placing the polymer mixture of the polymer and colloidal silver in a low temperature hopper to maintain a temperature of about 10 to 30 ° C., and transferring the mixture of the polymer and colloidal silver introduced into the hopper therein. Sequentially pouring into the screw-mounted screw cylinder to completely evaporate the water impregnated in the polymer mixture, and evenly disperse the silver liquid in the polymer, and the polymer mixture transferred to the outlet of the cylinder screw and evaporated water is formed at the outlet Spinning through a spinneret to a diameter of 3 to 7Φ and the spun polymer mixture Characterized in that it comprises the steps of cutting the cooled polymer mixture to a length of 3 to 6mm, which solidified by cooling.

Colloidal silver used in the present invention is colloidal silver is mainly used in the ionic state (Ag +) colloidal silver, silver is released by applying a certain amount of current and voltage to pure silver (purity 99.9% or more) in pure distilled water The silver ions are dissolved in distilled water and colloidated. At this time, the silver particles dispersed in the colloidal silver preferably has a particle size of 1 to 100nm.

Hereinafter, the present invention will be described in detail by dividing the present invention with reference to the accompanying drawings. On the other hand, the process described later is controlled by the main control panel (main control panel) speed, pressure and the like in each process.

1st process: 1st mixing process

Blend 99.7 to 95% by weight of the polymer selected from polypropylene resin (PP RESIN), polyester resin, polypropylene powder, polyester powder, nylon resin, nylon powder and mixtures thereof and 0.3 to 5% by weight of colloidal silver ( Blending). If the colloidal silver is mixed at more than 5% by weight, the effect is the same, but because it contains a large amount of silver is uneconomical, when mixed at less than 0.3% by weight can reduce the sterilization power of the fiber produced. On the other hand, colloidal silver is preferably a mixture of 2 to 6% by weight of pure silver solution to 98 to 94% by weight of water evenly.

2nd process: 1st cooling process

As such, the mixture of polymer and colloidal silver is introduced into a hopper cooled to a temperature of about 10 to 30 ° C. In this case, in order to prevent the colloidal silver from solidifying to the polymer, it is preferable to cool the mixture of the polymer and the colloidal silver to about 10 to 30 ° C.

3rd process: 2nd mixing process

The mixture of polymer and colloidal silver in the hopper is sequentially introduced into a screw cylinder equipped with a transfer screw therein. At this time, the inlet extending from the hopper to the screw cylinder is to maintain the same temperature as the hopper.

The polymer mixture conveyed to the inlet of the screw cylinder is moved to the outlet along a screw that is rotated at an internal temperature of 200 to 250 ° C. to completely evaporate the moisture impregnated in the polymer mixture through the screw cap and evenly disperse the silver particles in the polymer. . At this time, the screw is preferably rotated at a speed of 50 to 90rpm. On the other hand, if the cylinder is at a temperature below 200 ℃ or the rotation of the screw is 90rpm or more, the transfer can be completed in a state that the water impregnated in the polymer mixture is not completely evaporated, the cylinder is at a temperature of 250 ℃ or more and the rotation of the screw If it is 50 rpm or less, the water may evaporate too fast and silver particles may not be evenly dispersed in the polymer.

Through this second mixing process, the mixture of polymer and colloidal silver removes water impregnated in the polymer in a high temperature cylinder, thereby eliminating the disadvantage of irregularly dispersing silver particles in the polymer. The silver particles can be evenly dispersed in the polymer.

4th process: spinning process

The silver particles transferred to the outlet of the cylinder screw are dispersed, and the polymer mixture from which moisture is removed is spun to a diameter of 3 to 7Φ through the spinneret formed in the outlet. At this time, the spun ejected solid melt is cooled by dipping in a water-cooled cooler. This process may proceed in a conventional manner.

5th process: cutting process

The cooled polymer is cut into lengths of 3 to 6 mm to prepare chips for producing silver fibers.

<Example>

To the blender rotating at 800 rpm, 66% by weight of polypropylene resin, 32% by weight of polypropylene powder, and 2% by weight of colloidal silver containing 4% pure silver solution were added and mixed for about 10 minutes. After the mixture was introduced into a hopper cooled to 15 ° C., the inner diameter was introduced into a cylinder screw having an internal temperature of 220 ° C. and rotating at 75 rpm. At the outlet of the cylinder screw was spun with a thickness of 3Φ, which was cooled with water having a temperature of 40 ° C. and then cut into a masterbatch of chips of 4 mm length. The cut chips were mixed for 15 minutes in a mixer having a capacity of 1000 kg to homogenize the product. Thereafter, using the produced masterbatch, through the usual fiber manufacturing process to prepare a fiber yarn.

0.4 g of sterile fibrous yarn prepared according to the above process was inoculated after incubation for 24 hours in Staphylococcus aureus ATCC 6538 , pneumococcal ( Klebsiella pneumoniae ATCC 4352 ), and pathogen ( MRSA ATCC 33592 ), respectively. After that, the cells were cultured for 18 hours, and the test results are shown in Table 1 (Test Method: KS K 0693-2001).

Initial bacterial count (ml) Bacteriostatic rate after 18 hours Staphylococcus aureus 1.4 × 10 ⁵ 99.9% Pneumococcal 1.3 × 10 ⁵ 96.3% Pathogens 1.6 × 10 ⁵ 96%

As shown, it can be seen that the fiber yarn in which silver particles are dispersed has an excellent bacteriostatic reduction rate of 96% or more.

Although the preferred embodiments of the present invention have been described in detail above, various embodiments of the present invention may be made without departing from the spirit of the present invention as defined in the appended claims by those skilled in the art. All changes or modifications to the design will fall within the scope of the present invention.

As described in detail above, silver chips containing silver particles are mixed in a large mixer to improve product uniformity, and then, when silver fibers are manufactured, silver particles are uniformly dispersed in the fiber tissue and have excellent antimicrobial properties. There is an advantage to manufacture.

In addition, there is an advantage that can be prevented from peeling the silver particles from the produced silver fiber by finely dispersed the fine silver particles in the fiber structure.

Claims (4)

A first mixing step of blending 99.7 to 95% by weight of the polymer for fiber manufacture and 0.3 to 5% by weight of colloidal silver; A first cooling process of introducing the mixture of the polymer and colloidal silver into a cooled hopper to maintain a temperature of about 10 to 30 ° C .; A second mixing step of sequentially injecting a mixture of the polymer and colloidal silver introduced into the hopper into a screw cylinder equipped with a transfer screw therein to completely evaporate the water impregnated in the mixture and evenly disperse the silver liquid in the polymer; A spinning step of spinning the polymer mixture which is transferred to the outlet of the cylinder screw to remove moisture to a diameter of 3 to 7Φ through a spinning hole formed in the outlet; A second cooling step of cooling and solidifying the spun polymer mixture; And a cutting step of cutting the cooled polymer mixture to a length of 3 to 6 mm. The silver particle of claim 1, wherein the polymer is any one of polypropylene resin (PP RESIN), polyester resin, polypropylene powder, polyester powder, nylon resin, nylon powder, and mixtures thereof. Method of manufacturing chips for producing silver fibers. The method of claim 1, wherein the screw cylinder has an internal temperature of 200 ° C. to 250 ° C. 6. The method of claim 1, wherein the colloidal silver is silver fiber containing chips, characterized in that silver having a particle size of 1 to 100nm dispersed.