KR20140114082A - Functional clothes containing the far infrared radiationproperty and making method of thereof - Google Patents

Abstract

The present invention relates to a cement composition comprising 76-88 wt% alumina, 1.8-2.2 wt% magnesium oxide, 1.8-2.0 wt% calcium oxide, 1.0-1.4 wt% sodium oxide, 0.1-0.3 wt% potassium oxide, 0.1-0.3 wt% 7 to 10% by weight of a natural mineral powder containing 6 to 8% by weight; 83 to 86% by weight of distilled water; 1 to 2% by weight of an antibacterial auxiliary; 1 to 2% by weight of a urethane silicone resin; And 2 to 3% by weight of an ionizing catalyst, and optionally further adding a pleasant fragrance ingredient and an antistatic agent, and a process for producing the same.
And they are prepared by ionizing them by first and second agitation. The far-infrared radiation composition thus produced has antibacterial, deodorizing and antistatic functions, and when applied to fibers, a unique natural fragrance is generated, which not only gives a pleasant fragrance and refreshing feeling but also removes various odors around the body, And can be produced in neutral as well as easy to increase in the price because it is much cheaper than existing raw materials and can be widely used without adverse effects in all fields of the fiber.

Description

TECHNICAL FIELD [0001] The present invention relates to a functional garment containing a far-infrared radiation composition and a method of manufacturing the functional garment.

The present invention relates to a functional garment containing a far-infrared radiation composition, and more particularly, to a functional garment containing a far-infrared radiation composition, which can be applied to various kinds of fibers such as clothing to exhibit pleasant fragrance, antibacterial, deodorant and far- And more particularly, to a functional garment containing a far-infrared radiation composition which can be widely used for a plant growth promoter and other health-related products, and a method for producing the functional garment.

The functional clothes used in the present invention include a shirt, a trousers, a knit, a T-shirt, a padded jacket and a necktie.

Far-infrared rays are vibration waves of electromagnetic force lines caused by molecular motion inside an object, and act to smooth the metabolism of the human body. Therefore, it is used in various industrial fields, and it is widely used in health-related products.

Generally, the far-infrared ray radiator is manufactured in a powder state, and then it is made into a liquid state as it is, and any object is made or applied by coating, deposition, or the like.

In particular, when a far infrared ray generating material is applied to clothes such as clothing, most of the far infrared ray materials are mixed, hydrated and fired, and then made into powders and liquefied. However, it is very difficult to ionize the previously baked far infrared ray materials into water, , And also has a disadvantage in that it is not economical.

Accordingly, development of a far infrared ray radiation composition in a liquid or ionized state that can be easily applied to fibers has been demanded. For example, in Korean Patent Publication No. 96-15657, sodium silicate, aluminum soda, sodium oxide, sodium thiosulfate, Sodium chloride, purified glucose, supernatant, etc. are melted at 30 to 40 ° C, respectively, and then the mixture is ionized with chloroauric acid, and silver nitrate ionized with thiosulfuric acid is added to the above mixed solution and left at room temperature for 48 to 72 hours (Ionized) bioceramics, which is characterized by the fact that the liquid crystal phase of the present invention is a liquid crystal phase.

However, the above-described method of producing liquid (ionized) bioceramics ionizes organic compounds. Most of the raw materials used therein are strongly alkaline. The far infrared ray-generating liquid material produced by this method has a pH of 11 to 12, When applied, it causes damage to the material, yellowing occurs at a certain temperature or higher during processing, and the application range is limited due to a severe change in the touch.

In addition, according to this method, expensive raw materials such as gold are used, so that the economical efficiency is inferior.

The inventors of the present invention have conducted intensive studies to solve the above problems and have found that a liquid phase (ionization) process which is inexpensive and simple to manufacture by pulverizing alumina (aluminum oxide) based natural minerals into ultrafine particles, It has been found that a functional garment containing a far-infrared radiation composition can be provided.

That is, the object of the present invention is to provide a cosmetic composition which has a high emissivity of far-infrared rays and has a pleasant fragrance emission, antibacterial and deodorizing function, can improve human health and is cheap by using cheap raw materials, The present invention is to provide a functional garment containing a far-infrared ray radiation composition having little side effects when processing a fiber material, and a method for producing the functional garment.

The functional clothing containing the far-infrared ray radiation composition according to the present invention contains 76-88 wt% alumina, 1.8-2.2 wt% magnesium oxide, 1.8-2.0 wt% calcium oxide, 1.0-1.4 wt% sodium oxide, 0.1-0.3 wt% potassium oxide 7 to 10% by weight of a natural mineral powder containing 0.1 to 0.3% by weight of iron, and 6 to 8% by weight of silica; 83 to 86% by weight of distilled water; 1 to 2% by weight of an antibacterial auxiliary; 1 to 2% by weight of a urethane silicone resin; And 2 to 3% by weight of an ionization catalyst.

In addition, the present invention is further characterized in that a pleasant fragrance ingredient is further added in an amount of 4 to 5% by weight based on the whole composition.

Further, in the present invention, it is further characterized in that it is further added with an antistatic agent.

The functional clothes of the present invention may further comprise a first step of mixing the natural mineral powder, the distilled water, the antibacterial auxiliary, the urethane silicone resin, and the ionization catalyst; A second step of pulverizing the raw material into fine particles by mixing the mixture of the first step and a ceramic ball of zircon ceramic in a pulverizer and stirring the mixture;

A third step of adding a flavor and an antistatic agent selectively to the processed product of the second step and then stirring and ionizing the same; And a fourth step of filtering and leaving the treated material in the third step.

As described in detail above,

The far infrared ray radiation composition according to the present invention has an antimicrobial, deodorizing and antistatic function, and when applied to various kinds of fibers, a unique natural fragrance is generated to give a pleasant fragrance and refreshing feeling. In addition, And it can be widely used without any adverse effect in all fields of the fiber because it can be manufactured with neutrality as well as being easy to popularize because it is much cheaper than existing raw materials.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a process flow diagram of a far infrared ray radiating composition according to the present invention. FIG.

The far infrared ray radiation composition contained in the functional garment for achieving the object of the present invention contains 7 to 10 wt% of alumina-based natural mineral powder, 83 to 86 wt% of distilled water, 1 to 2 wt% of antimicrobial auxiliary, 2% by weight and an ionization catalyst of 2 - 3% by weight, and optionally, a pleasant fragrance ingredient may be added in an amount of 2 to 3% by weight of the total composition and a small amount of an antistatic agent.

The alumina-based natural mineral powder used in the present invention contains alumina, magnesium oxide, calcium oxide, sodium oxide, potassium oxide, iron powder and silica (silicon dioxide) A mineral powder containing 1.8 to 2.2 wt% of magnesium, 1.8 to 2.0 wt% of calcium oxide, 1.0 to 1.4 wt% of sodium oxide, 0.1 to 0.3 wt% of potassium oxide, 0.1 to 0.3 wt% of iron powder and 6 to 8 wt% use.

The antimicrobial auxiliary agent and the ionizing catalyst are not particularly limited, and the pleasant fragrance raw material is microencapsulated with floral fragrance, wood fragrance, etc. which are extracted from natural materials and are not harmful to the human body.

Also, a method for preparing a far-infrared radiation composition includes a first step of mixing a natural mineral powder, distilled water, an antibacterial auxiliary, a urethane silicone resin and an ionizing catalyst; A second step of pulverizing the raw material into fine particles by mixing the mixture of the first step and a ceramic ball of zircon ceramic in a pulverizer and stirring the mixture; A third step of adding a flavor and an antistatic agent selectively to the processed product of the second step and then stirring and ionizing the same; And a fourth step of filtering and leaving the treated material in the third step.

Referring to FIG. 1, the first step is a simple material mixing step (S1), and the second step is a raw material refining and grinding step (S2), which generally proceeds at a speed of 500 rpm for about 4 hours using a circulating pulverizer . Here, the ceramic balls made of zircon are crushed into balls of about 3Φ in order to promote miniaturization of the raw materials.

In the third step, the treated material of the second step is added to the mixed pulverizer having a larger capacity by the second pulverization ionization step (S3), and stirring is performed at a speed of about 500 rpm for about 2 hours. In the fourth step, (S4) (filtration step), and the filtrate is allowed to stand at room temperature for about one day (S5).

In this manufacturing process, the pleasant fragrance raw material and the antistatic agent used as raw materials may be mixed together with other raw materials in the first step, or may be added to the mixture during the third step.

The characteristics of the far infrared ray emitting composition prepared by the ionized far infrared ray radiating composition according to the present invention and the method for producing a liquid phase bioceramics of a third party (invention of Japanese Patent Publication No. 96-15657) were measured at room temperature (35 ° C) .

The far infrared ray radiation composition according to the present invention is slightly better in far-infrared ray emissivity and radiation intensity than the other raw materials, and the other raw materials are 11 to 12 in alkaline pH, while the composition of the present invention is 3 to 11, . Therefore, when a neutral far-infrared ray radiation composition is used for fiber processing, there is no side effect, so that it can be widely applied to all fields of fibers.

In addition, the composition of the present invention not only possesses multifunctional properties such as pleasant fragrance function, antibacterial function and deodorant function, but also is economical enough to be only 1/30 of the cost of other raw materials.

In addition, yellowing phenomenon occurred at 130 캜 when the raw materials of other companies were processed into fibers, but yellowing phenomenon could not be found when the composition of the present invention was applied to fibers.

As described above, it is considered that the yellowing phenomenon does not occur even though the composition of the present invention uses the urethane-based silicone resin because the amount of the urethane resin used is very small and the other components act on the urethane resin during the ionization process to change the characteristics.

Claims (4)

Wherein the alumina powder comprises 76-88 wt% alumina, 1.8-2.2 wt% magnesium oxide, 1.8-2.0 wt% calcium oxide, 1.0-1.4 wt% sodium oxide, 0.1-0.3 wt% potassium oxide, 0.1-0.3 wt% 7 to 10% by weight of natural mineral powder containing% by weight; 83 to 86% by weight of distilled water; 1 to 2% by weight of an antibacterial auxiliary; 1 to 2% by weight of a urethane silicone resin; And 2 to 3% by weight of an ionizing catalyst.
The functional garment according to claim 1, further comprising 4 to 5% by weight of a pleasant fragrant raw material added to the entire composition.
The functional garment according to claim 1, further comprising a further antistatic agent.
A first step of mixing a natural mineral powder, distilled water, an antibacterial auxiliary, a urethane silicone resin and an ionization catalyst;
A second step of pulverizing the raw material into fine particles by mixing the mixture of the first step and a ceramic ball of zircon into a pulverizer and stirring the mixture;
A third step of selectively immersing a flavor and an antistatic agent in the processed product of the second step and stirring the resultant to ionize it; And
And a fourth step of filtering and leaving the treated product in the third step.

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