KR20030064580A - Manufacture of functional textile containing FIR(Far Infrared Ray) energy emitting material including tourmaline - Google Patents

Abstract

The present invention relates to the production of functional fibers with far infrared energy releasing materials comprising tourmaline. Tourmaline, magnesium oxide, germanium, elite, chitosan, bamboo charcoal, titanium oxide and aluminum oxide are blended according to the ratio and made into a fine powder. The adhesive is adhered to the compressed fiber at 120 ° C., or captioned or rolled up on the film, and the mixed agent is pressed into a roller and completely attached to the heated fiber at 70-120 ° C. The far-infrared energy emitting material thus produced is characterized in that it does not fall off even after washing. The functional fiber produced in this way is far infrared energy of 365 microns (μm) is released is a functional fiber which is very beneficial to human health.

Description

Manufacture of functional textile containing far infrared ray energy emitting material including tourmaline}

Fibers having a far infrared energy releasing material attached to inner lamp fibers have been commercially available. The far infrared energy release of these fibers is only about 50-100 microns (μm). The inventors have been very concerned about how to develop more far-infrared energy-releasing clothing fibers. Many textile manufacturers recognize that if a substance has a large amount of far infrared energy, applying it to a large amount of fiber will produce a large amount of far infrared energy, but many years of research has not. In this invention, experimentally found that the far-infrared energy emission amount is large according to the adequacy of the material and the mixing ratio, the motivation for applying for the present invention patent.

It is known that tourmaline ore has a large amount of far infrared energy emission. In addition, germanium oxide, nitrite, chitosan, bamboo charcoal, titanium oxide, aluminum oxide and the like are representative materials of far-infrared energy emitting materials. However, depending on the mixing ratio of these materials, far-infrared energy emission varies greatly. When the mixture ratio was 60% tourmaline, 10% germanium oxide, 5% illite, 5% chitosan, 10% bamboo charcoal, 4% titanium oxide, and 6% aluminum oxide, the far infrared energy emission amount was 120 microns (µm). The experiment was carried out by changing the mixing ratio in several stages. After 3 years of research, the amount of far-infrared energy emitted was 3.65x10 when the mixture was 40% tourmaline, 13% germanium oxide, 4% illite, 7% chitosan, 15% bamboo charcoal, 10% titanium oxide and 11% aluminum oxide. ^{It was a 2} (365) micron (micrometer) maximum. Also antibacterial was the maximum. E. coli reduction was 99.5% and P. aeruginosa reduction was 99.7%. It is considered that it is the most suitable ratio and it has reached an application.

In the preceding paragraph, the mixing ratio of the optimal drug for the emission of far-infrared energy was urgently mentioned, but the technology is described as follows.

30-45 parts of tourmaline, 8-15 parts of magnesium oxide (MgO), 7-12 parts of germanium oxide, 2-6 parts of illite, 5-9 parts of chitosan, 10-17 parts of bamboo charcoal, 8-12 parts of titanium oxide 9-13 parts of aluminum oxide were weighed accurately to obtain a powder. Herein, the inorganic adhesive or the organic adhesive was brought into an appropriate amount of mixed paste, and then captions or mussels were put on the transfer paper, and the transfer paper was pressed at 70-120 ° C. to remove the transfer paper. Vivid subtitles or munu are stuck to the fabric. Alternatively, the film was engraved with subtitles, pushed onto a roller and heat-treated at 70-120 ° C. Clear captions or munus appeared on the cloth Even if you have washed the captions or munus more than 10 times, the captions and munus were not damaged.

[Experiment 1]

The samples were submitted to the Korea Institute of Construction Materials. Emissivity was 0.904 (5-20 μm), radiation energy was 3.65 x10 ² microns (μm)

[Experiment 2]

The antimicrobial test results of the prepared samples were 99.5% for E. coli and 99.7% for P. aeruginosa.

[Experiment 3]

Infrared image measurement of the prepared sample was conducted by the Korea Institute of Materials and Materials.

The difference from the existing far-infrared energy-releasing products was wide. In general, the far-infrared energy-releasing clothing products ranged from 50 to 100 microns (µm), but the patented product of this invention was 360 microns (µm), which is 3-5 times more than the existing products. The test results were confirmed with a decrease rate of 99.5% in the anti-E. Coli test and 99.7% in the anti-E. Coli test. This was a breakthrough and I think it will contribute to the export as well as the domestic market.

Claims (3)

As in the invention, transfer or subtitle patterns such as tourmaline, magnesium oxide, germanium oxide, elite, chitosan, bamboo charcoal, titanium oxide, and aluminum oxide powder as inorganic or organic adhesives, and the like, as in the configuration of the invention are transferred or Functional fiber production with a far-infrared energy emitting material comprising tourmaline, characterized in that the printing and heat treatment. Aluminum oxide solution (Alumina sol) adhesive as the inorganic adhesive in claim 1. Polyurethane adhesive, acrylic adhesive as an organic adhesive according to claim 1.