KR20030079373A - The far infra red ray emissive deodorant ceramics and a method for its preparation - Google Patents

Abstract

PURPOSE: A method for producing for emission of far infrared ray and deodorization is provided to remove the odors of various foods in a refrigerator and to maintain the freshness of the foods. CONSTITUTION: The method comprises the steps of: mixing 10 wt% of a dolomite, 60 wt% of a zeolite, 25 wt% of a clay, 3 wt% of titanium dioxide(TiO2) and 2 wt% of silver chloride(AgCl), adding water to the mixed powdery composition and mixing them uniformly; screening the mixture to obtain the powder having the size of 80-90 mesh; molding the powder in a mold having a desired shape under the pressure of 1,000 to 1,200 kg/cm2 to obtain a shaped body; drying the shaped body at room temperature for 24 hours and trimming it; loading the shaped body in a baking furnace, baking it at 800-1000 deg.C for 1 to 5 hours, and then cooling it.

Description

The far infra red ray emissive deodorant ceramics and a method for its preparation}

The refrigerator has long been an indispensable necessity in our lives.

We have always contributed to our households by providing us with fresh food and preventing waste. However, as the modern house structure is not separated from the kitchen but is provided in the same space of life, the smell of food emitted every time the refrigerator door is opened is displeased to people living in the space. In addition, the indoor air, which should be refreshed, is contaminated by the smell of food, which causes discomfort in our lives. Therefore, the present invention is installed by the deodorizing ceramics radiating far-infrared rays in the refrigerator to absorb and remove the smell emitted from various foods stored in the refrigerator, as well as the food due to the emission of far-infrared rays which is beneficial to food in the deodorizing ceramics radiating far infrared rays The purpose is to maintain a freshness of life and lead a more pleasant life.

Refrigerators have become an indispensable necessity in the lives of people living in modern times. Moreover, it is well known that refrigerators are a great help to the home economy. However, because the living space of modern people is not open and closed, sometimes the smell that comes out every time the refrigerator door is opened in food stored in the refrigerator, especially fermented food such as kimchi, which is indispensable on the table of Korean people It stays indoors, causing inconvenience to people living in the space.

In addition, the food is stored in the refrigerator to maintain the fresh state, but it also does not last long, wither or rot, resulting in economic losses.

Therefore, the invention was made for the purpose of solving the above problems by putting a hole in the top of the egg-shaped plastic case and put the fragrance inside into the refrigerator, the fragrance emitted from the plastic case is combined with the smell emitted from the food to neutralize It is based on the principle, but the substance emitted from the fragrance is attached to the food, so the food with the fragrance is eaten, and there are not one or two kinds of food stored in the refrigerator, for example, fermented food, meat, and fish. And other foods. Neutralizing all of these odors is not an easy problem. In addition, it can be seen that the fragrance cannot absorb and remove the smell in the emitting refrigerator and maintain the freshness of the food.

The present invention has been made to solve the problems of the prior art as described above, the object of the present invention is to absorb and remove the smell of various foods from the food stored in the refrigerator and to emit far-infrared rays, which are beneficial growth light to food In providing a ceramic. In order to achieve the above object, the present invention attempts to efficiently absorb the odor emitted from various foods stored in the refrigerator as a porous ceramic material, and at the same time to maintain the freshness of food by radiating far infrared rays, which are raw glows. I will.

Far Infrared Radiation and Deodorization Ceramics

The present invention is a porous ceramics that emit high absorption and high efficiency far infrared radiation and strong far infrared radiation energy. It is composed of a powder by weight, titanium oxide (TiO ₂ ) 3% by weight, silver oxide (AgCl) 2% by weight, 9% of water is added to the total weight of the powder and mixed evenly and granulated with 80 to 90 mesh. After drying the molded body at a pressure of 1,000 to 1,200kg / ㎠ for 24 hours at room temperature for 24 hours in the mold manufactured according to the desired mold, trimming the appearance and then loaded into a firing furnace 1 ~ 5 at the furnace temperature of 800 ℃ ~ 1,000 ℃ By firing for a long time, high-efficiency odor absorption, as well as high-efficiency far-infrared radiation and high-intensity far-infrared energy are produced. Inert gas (nitrogen) is introduced into the kiln while the body formed in the present invention is heated in the kiln. When the inert gas flows into the furnace, the temperature in the furnace rises to 500 ° C. Inert gas is then injected into the furnace, and the temperature inside the furnace starts to cool. When the temperature inside the furnace reaches 200 ° C, the inert gas that flows into the furnace is shut off. Open the door and slowly cool the sintered ceramic at ambient air temperature.

Porous ceramics emitting far-infrared rays of the present invention have a high absorption rate and emit high-infrared radiation and strong far-infrared energy. Therefore, the porous ceramics of the present invention absorb the odor emitted from various foods or foods to keep the indoor air pleasant, and also the effect of enabling long-term storage of foods due to the radiation of far-infrared rays, which are beneficial to various foods. do.

The characteristics of the composition of porous ceramics that absorb odor absorption and far-infrared rays in the refrigerator of the present invention will be more clearly explained through the following specific examples.

Example 1

The powder is composed of 10% by weight dolomite (dolomite), 60% by weight zeolite (stone), 25% by weight clay, 3% by weight titanium oxide (TiO₂) and 2% by weight silver oxide (AgCl). , 9% water to the total weight of the fine powder, and then evenly mixed and granulated into 80 ~ 90 mesh and molded at a pressure of 1,000 ~ 1,200kg / ㎠ in a mold manufactured according to the desired mold at room temperature After drying for 24 hours, the appearance is trimmed, loaded into a kiln, fired at a furnace temperature of 800 ° C to 1,000 ° C for 1 to 5 hours, and then cooled to form a ceramic object. Inert gas (nitrogen) is introduced into the kiln while the object formed in the present invention is heated in the kiln. When the inert gas flowing into the furnace rises to 500 ℃, the inert gas is injected from that time, and the temperature inside the kiln starts to cool. When the temperature inside the kiln reaches 200 ℃, the inert gas entering the kiln is blocked and the kiln is fired. The far-infrared radiation and deodorization ceramics of the present invention obtained by slowly cooling the sintered ceramics at ambient air temperature were measured by using the FT-1R spectrometer and the far-infrared radiation output was measured as follows. .

1, emissivity and radiation output of far infrared

2, The results of the deodorization test of ammonia gas by the method of KF1A-F1-1004 for the far-infrared radiation and deodorization ceramics obtained in the manner of Example 1 are as follows.

Claims (2)

The composition of ceramics for far-infrared radiation and deodorization is 10% by weight dolomite (dolomite), 60% by weight zeolite (zeolite), 25% by weight clay (clay), 3% by weight titanium oxide (TiO ₂ ) and 2% by weight silver oxide (AgCl) Powder composition of ceramics for far-infrared radiation and deodorization made by mixing powders of 9% water is added to the total weight of the powder composition of claim 1, and then mixed evenly and granulated into 80 to 90 mesh, and the molded article is molded at a pressure of 1,000 to 1,200 kg / cm 2 in a mold manufactured according to a desired mold. After drying at room temperature for 24 hours, the appearance was refined and loaded into a kiln, and then fired in an inert gas (nitrogen) atmosphere at a furnace temperature of 800 ° C. to 1,000 ° C. for 1 to 5 hours and gradually cooled until the temperature in the furnace reached 200 ° C. The method for producing ceramics for far-infrared radiation and deodorization is made by opening the door of the kiln and slowly cooling it at room temperature when the temperature in the kiln reaches 200 ° C.