KR20000030331A - Antibacterial & far-infrared-emission funtio manufacturing method of wallpaper - Google Patents

Abstract

PURPOSE: Provided is a process for preparing wall paper having antivirus activity and far infrared ray emitting functionality which has strong antivirus activities and antibacterial activities by using sericite, moscovite and other mineral as starting material. Thereby, it is possible to appear synergy effect useful for the sterilizing agent by using the wall paper having antivirus activity and far infrared ray emitting functionality. CONSTITUTION: The process contains the following the steps of: positioning a sericite in the furnace to solve the sericite at 1400°C for 24hour; depositing the sericite in the ball mill of water type to drive it for 24-48 hour; obtaining 7 micrometer of high powder; addition of 2-3% by weight of 0.2-0.3 micrometer of medium particle size of photo catalyst having excellent heat resistant and bacterial resistant to 3-5% by weight of far infrared ray emitting high powder in the stirrer to stir sufficiently; stirring the mixed material to 94-97% by weight of suspension of slurry to obtain paper matrix to desired size at 50-200°C of temperature.

Description

Antibacterial & far-infrared-emission funtio manufacturing method of wallpaper

The present invention is applied to the principle due to the mechanism of far-infrared radiation (Sericite), mica, Mica, Moscovite and other minerals by using the inorganic minerals as starting materials to remove impurities and fine ceramics After conversion to (fine ceramics), the particle size is divided into finely divided within 5㎛ ~ 10㎛ in the state of thinning to increase the far-infrared emissivity to maximize the far-infrared radiation at room temperature and apply it as a far-infrared radiator material and photocatalyst The composition of the photocatalyst prevents "trouble" problems that affect the properties and properties of the photo catalyst, which is a function of the photocatalyst (function is achieved even with a wavelength of 387 nm light). In addition to the various types of dust bacteria living in the atmosphere caused by the wavelengths, Touch kills germs of various ticks causing skin allergies, as well as sterilizes them by turn to sterilize adjacent bacteria in turn and continuously causes oxidation and reduction reactions. The same antimicrobial activity as the first one is to continue to come out.

By this, the mechanism of anti-infrared and antimicrobial (Mechanism) provides a synergy effect by mutual security action, semi-permanent reflection, neutralizing the toxicity of strong alkaline cements, and increasing far-infrared emissivity even at room temperature. He shall be able to receive far-infrared radiation without installing any additional equipment.

Inorganic minerals such as Mica, Moscovite, Sericite, and other inorganic minerals can be used to remove impurities from human toxic components dissolved in minerals and convert them into fine ceramics. After converting to a powder having a thickness of 10 µm to 10 µm), the mixture was sufficiently stirred with a photocatalyst, an inorganic antimicrobial agent, and then sufficiently stirred so as to have a good powder phase in a slurry paper matrix. Various papers and wallpaper made by applying heat according to the manufacturing method are obtained. The functional paper made in the above process is not only sterilization of various bacteria but also made of functional paper which is very beneficial to our human body due to far-infrared radiation. This functional paper has the effect of vitalizing our lives and making our body healthy. Will lead.

1 is an exemplary process flow diagram for practicing the present invention.

Hereinafter, the present invention will be described in detail with reference to Examples.

Example 1;

After sericite is put into the melting furnace, it is dissolved for 24 hours at 1,400 ℃, and then put into a ball mill of a quench type type to obtain a size of 24 hr. After operating for 48 hours, the average 7㎛ high powder powder is used as the starting material of the far-infrared emitter. Photo catalyst is used as an antimicrobial agent It is intended to give various functionalities of photo catalyst by using mixed starting materials. In particular, it gives fatality to humans from airborne bacteria and various bacteria bacteria living in our living spaces. It is protected from various germs that are very harmful to our body and beneficial to humans due to various functions. The main photocatalyst receives light where it is functioning moisture in the air, attracts excitation electrons, and has a hydroxyl group (OH) formed by the twin holes. At this time, the (H) cation hydrogen group and (O) oxygen are separated and carbon dioxide (CO ₂ ) is generated to kill various bacteria and then to decompose protein components to make it impossible to inhabit bacteria as well as secondary sources of contamination. It is a photo catalyst that plays a role.

Example 2;

In the above process, the average particle size of the photocatalyst having the antimicrobial resistance at 3 to 5% by weight of the high powder powder particle size 7 μm (average particle size) capable of emitting far infrared rays by converting to fine ceramics is 2 μm and 2 After adding 3% by weight to the stirrer, the mixture is sufficiently stirred, and then stirred until 94-97% by weight of the suspension in the slurry state is sufficiently mixed in the paper manufacturing process.

Slurry paper matrix (Slurry) is a manufacturing process is completed by applying 50 ℃ ~ 200 ℃ heat to dry according to the material of the paper to be produced and the paper completed in the above process chart is antibacterial It is widely used as a paper for antibacterial wallpaper and is made of a functional paper which is very beneficial to us.

The antimicrobial and far-infrared radiator paper obtained by the above-mentioned method can occupy a very wide range of places that are used very close to our daily life such as wallpaper, books for long-term preservation, notes, wrapping papers, and wallpaper for the first time. When used for wallpaper inside a house, the mechanism that is caused by far-infrared rays neutralizes the strong alkaline concrete toxicity to neutral to neutralize the harmfulness of our human body. It also plays a role of synergy. . Furthermore, the harmless antimicrobial agent is a semi-permanent invention that is not semi-permanently extinguished in functionality, so as to protect the human body with photocatalysts from harmful germs of the human body to maintain a healthy life.

Claims (2)

Far-infrared radiator Sericite, Mica, Moscovite are alternatively dissolved in a high temperature furnace at 1,400 ℃ for 24 hours, and then put into a ball mill of a water-type type and operated for 24hr ~ 48hr. Obtain 7 μm high powder powder. 3 to 5% by weight of the far-infrared radiant high powder powder obtained in the above process is added to the stirrer with an average particle size of 0.2 µm to 0.3 µm to 2 to 3% by weight, which is excellent in heat resistance and antibacterial resistance, and then sufficiently stirred. The mixed material obtained in the above process was stirred to sufficiently mix it in 94 to 97% by weight in a slurry of a paper base material, and then the paper matrix was produced according to the thickness to be produced. Depending on the It is a manufacturing method that is completed by applying 50 ° C to 200 ° C heat.