KR100478931B1 - Manufacturing method of multi-function button - Google Patents

Abstract

The present invention relates to a method for producing a multifunctional button having antibacterial, deodorizing function, far infrared or anion radiation function and electromagnetic wave scattering function.

The multifunctional button prepared according to the method for producing a multifunctional button of the present invention is added to the unsaturated polyester resin at least two functional materials selected from the group consisting of silver-based inorganic antimicrobial agent, titanium dioxide, tourmaline and electromagnetic neutralizer, It is manufactured by adding additives of organic binder and soft agent by the composition of functional substances in the weight ratio of 1: 1: 1, and deodorizing and decomposing powerful antibacterial or antifouling action and odor from various harmful bacterial substances, By scattering or attenuating the electromagnetic waves from the wearer can greatly contribute to the health of the wearer and health.

Description

MANUFACTURING METHOD OF MULTI-FUNCTION BUTTON}

The present invention relates to a method for manufacturing a multifunctional button, and more particularly, to a method for manufacturing a multifunctional button manufactured by a predetermined process by adding and mixing various functional materials to a thermosetting resin generally used in a method for manufacturing a button. will be.

Generally, a synthetic resin of a thermosetting resin is used as a raw material for producing a button, and preferably an unsaturated polyester resin is commonly used. As other materials, ABC resin, nylon, metal materials, shells, coconuts, animal horns, bones, and the like are used. Recently, as a part of the fashion, the Korean Patent Laid-Open Publication No. 1998-063302 discloses a method for manufacturing a bio-ceramic button as a conventional technology for a multifunctional button having not only a detachable function but also a multifunctional improvement as well as a health function that is a concern of modern people. It is known. However, ceramic buttons are known which simply have far-infrared radiation effects and optionally bactericidal, fluorescent and aromatic effects. In addition, Korean Patent Application No. 2001-23637 discloses a button and a manufacturing method of the far infrared rays are radiated by the inventor. In the present invention, the button is known to be manufactured by mixing ocher, jade, ganban stone, macsumite, germanium, and charcoal that emits far infrared rays, and by mixing various additives and aging for 24 hours at a predetermined temperature, but the ceramic powder, which is far-infrared radiation substance In the method of heating and baking by mixing a large amount and merely serves as a radiator that radiates only the far infrared rays, in particular, due to the crystallinity of the ceramic powder mixed in a large amount, there is a problem in that the bonding force and the surface cutting force in the polishing process is inferior. The present invention has been completed by producing a multifunctional button which creates various functions by adding a thermosetting resin and adding a predetermined amount of highly purified functional material, which is devised to solve the problem of the button.

It is an object of the present invention to provide a method for producing a multifunctional button having antibacterial, deodorizing function, far infrared or anion radiation function and electromagnetic wave scattering function. Another object of the present invention is to provide a multifunctional product prepared by adding a functional material to a thermosetting resin. It is to provide a method for manufacturing a button.

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Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention provides a method for producing a multifunctional button having antibacterial, deodorizing function, far infrared or anion radiation function and electromagnetic wave scattering function. More specifically, at least two functional materials selected from the group consisting of silver inorganic inorganic antimicrobial agents, titanium dioxide, tourmaline, and electromagnetic neutralizers are added to the unsaturated polyester resin, and the organic binder and softener additives are added by the composition of the functional materials. Adding each weight ratio of 1: 1: 1 and mixing with a U-type mixer (202); grinding and stirring with a roller mixer after the mixing step (202) (203); and a compression type after the step (203). Filtration by filtration through a filter (205); Aging by mixing the purified material in a ratio of 3: 7 to the thermosetting resin (206); Vacuum degassing by adding various pigments and additives to the mature material Step 207; shaping the vacuum defoamed material into a rod and a centrifugal plate or die in a pattern and monochromatic form through a molding apparatus (208); If it added to a temperature of 110 ℃ to afford a solid and after curing for 20 to 60 minutes removably 209; step 212 to blank the said detachable solid in the machining type; And a step 215 of grinding and blanking the blanked blank. The thermosetting resin may be any one selected from the group consisting of polyester resins, epoxy resins, urea resins, and melamine resins. .

In addition, the step 202 of mixing with the U-type mixer mixes two or more functional materials selected from the group consisting of silver-based inorganic antibacterial agents, titanium dioxide, tourmaline, and electromagnetic neutralizing agents with unsaturated polyester resins. As the thermosetting resin in the aging step 206, it is preferably selected from the group consisting of polyester resins, epoxy resins, urea resins and melamine resins.

In addition, in the mixing step 202, tourmaline (TOURMALINE) is the object that generates a charge of 0.06 ampere of the minerals present on the earth when the charge is applied to the crystal surface and exists on the earth is also called a tourmaline.

This phenomenal tourmaline has attracted the attention of various industries as an environmental improvement material and a health improvement material, and the characteristics of the tourmaline are the generation of permanent weak currents.

1) electric field formation

2) negative ion generation

3) Far infrared ray emission (wavelength of 4 to 14㎛)

4) antibacterial and deodorant effect

5) Surfactant Action

6) mineral elution effect

(SI silicon: visceral function, B boron: active, growth promoting, MG magnesium: cell activity, growth, nervous system, FE iron: blood, heart, stomach)

Tourmaline having various functions as described above releases negative ions in response to solar energy, and the energy discharged from tourmaline is known to be very effective for the human body. It reacts with harmful substances in human living environment and makes them harmless, as well as instantly sterilizes and removes odors and purifies airborne germs.

And in the mixing step 202, the electromagnetic neutralizer is a product developed in the headlights Cospia is already used in the atmospheric company as an electromagnetic wave shielding agent of home appliances, mica, feldspar, clay, rockfall, kaolin, dolomite, meteorite, stone Several kinds of gemstones were alternatively placed in a furnace, heated to a high temperature of 1200 to 1300 ° C., and then pulverized into powders of about 250 mesh. It is a material obtained after fermentation at about 35 to 37 ℃ for 7 to 9 days by feeding about 80 kinds of mineral plant materials such as rhododendron, buttercup, blush, etc. to feed microorganisms parasitic on powder. .

The blending composition ratio of the raw materials used in the manufacturing method of the multifunctional button is as follows.

1) Thermosetting 70 to 80%

2) 7 to 10% of organic binder

3) Softener 3 to 5%

4) Titanium Dioxide 3-4%

5) Tourmaline 2-3%

6) Silver Inorganic Antibacterial 2 ~ 3%

7) Electromagnetic Neutralizer 2-3%

8) Accelerators and Curing Agents 0.8-1.5%

9) Pigment 0.01 to 0.8%

The present invention is not limited to the above-described preferred embodiments and various modifications can be made by those skilled in the art without departing from the gist of the invention as claimed in the claims. And such modifications will be within the scope of the claims set forth as essential elements of the invention.

The following is the test report evaluation contents tested by the far infrared application evaluation researcher samples of the multi-functional buttons manufactured by the above method.

(Note) ① BLANK: Measured without sample.

② The number of bacteria on the medium is calculated by multiplying the dilution multiple.

③ Strains used: Escherichia ATCC 25922

              Pseudomonas aerugionsa ATTCC 15442

(Note) BLANK: Measured without sample.

① Test method: KFIA-FI-1004

② Name of Test Gas: Ammonia

③ Gas concentration measurement: gas detector

① Name of Sample: Multi-functional Bio Button (Accessory)

The experiment was carried out at 37 ℃ and FT-IR Spectrometer was used.

① Test Method: KFIA-FI-1042

② Test piece: 30 (g)

③ Room temperature 23 ℃ Humidity 47% by using charged particle measuring device

It was tested under the condition of 10 ² / cc anion water in the air. It is the result of measuring the anion released from the measurement object and displaying it as the number of ions per unit volume.

As described above, the present invention provides a multifunctional button having antibacterial, deodorizing function, far infrared or anion radiation function and electromagnetic wave scattering function. The button of the present invention relieves fatigue of the user, promotes metabolism, deodorizes powerful antibacterial or antifouling action and odor from various harmful bacterial substances, and scatters or attenuates electromagnetic waves from various electric and electronic devices, thereby making the wearer comfortable life. In addition, the button of the present invention is a multi-functional button having a variety of functions and improved physical properties by enhancing the bonding force and the cutting force seen in the conventional method of manufacturing a bio-ceramic button.

1 is a process chart showing the manufacturing method of the multifunctional button of the present invention.

Claims (4)

To the unsaturated polyester resin, two or more kinds of functional substances selected from the group consisting of silver-based inorganic antibacterial agents, titanium dioxide, tourmaline, and electromagnetic neutralizers are added, and the additives of the organic binder and the softener are each weighted by the composition of the functional substances. Adding 1: 1: 1 and mixing with a U-type mixer; Grinding and stirring with a roller mixer after the mixing step; Purifying by filtration with a compressed filter after the step; Mixing the purified material in a ratio of 3: 7 with respect to the thermosetting resin and aging; Vacuum defoaming by adding various pigments and additives to the aged material; Molding the vacuum degassed material into a rod, centrifugal plate, or die by means of a molding apparatus through a molding apparatus; Applying a temperature of 40 to 110 ° C. to the molded material, curing for 20 to 60 minutes, and then removing the solid to obtain a solid. Blanking the detached solids by processing type; And And manufacturing and blanking the blanked blank. delete The method of claim 1, wherein the thermosetting resin is any one selected from the group consisting of polyester resins, epoxy resins, urea resins, and melamine resins. delete