KR200267731Y1 - The far infra red ray emissive ceramic cup - Google Patents

Abstract

Today, various kinds of beverages such as coffee have become one of the indispensable pleasures of modern people's food and drink life. However, a bitter taste like coffee may make coffee lovers more attractive, but in most cases they prefer a more mild and mild flavor.

In the cup designed to improve this point, the far infrared ray cup of the present invention is designed to improve this point. In the far infrared ray of the present invention, each kind of mineral is compounded according to the blending ratio so that the far infrared rays in the range of 20 μm to 1000 μm are radiated, The cup is characterized in that a glaze radiating high-efficiency far-infrared rays is applied so as to emit far-infrared rays of higher efficiency and a ceramic for emitting far-infrared rays is attached to the bottom of the cup.

Description

[0001] The present invention relates to a ceramic cup for emitting far-infrared rays,

In addition to glass cups, cups are mainly composed of clay, kaolin, feldspar, and silica. The above-mentioned minerals are compounded according to the ratio and molded at a pressure of 800 to 1300 kg / cm 2 in a mold to obtain a desired mold.

It is dried in the drying room for 24 hours and then loaded on the firing furnace and fired by adjusting the furnace temperature according to the type of product. If the product is made from only kaolin, feldspar and silica, the firing temperature is adjusted to 1050 ℃ ~ 1150 ℃. If the product is made of clay, kaolin, feldspar and silica, the firing temperature is 1200 ℃ ~ 1300 ℃ And controlled firing.

However, these products are suitable for coffee, but can not obtain the desired far infrared rays. Far infrared rays are electromagnetic waves that resonate with molecular vibrations and rotational movements of the material and can absorb the resonance and raise the temperature immediately. Furthermore, the electromagnetic wave energy in the wavelength range of far-infrared rays (3 탆 to 1000 탆) is widely used as an efficient heating means by radiation since it is not absorbed in the air but passes at the light speed. Far infrared rays are absorbed by water molecules and resonance resonance to activate the water molecules to make the krasta firm and improve the taste of the water.

Ceramic coffee cups that emit far-infrared rays using this design are used to convert water molecules dissolved in coffee raw solution by using the characteristics of far-infrared rays, thereby improving the taste of water and improving the taste of coffee. Taste and aroma.

(MnO ₂ ), iron oxide (Fe ₂ O, and the like) in order to radiate high-efficiency far-infrared rays from the glaze treated outside the general magnetic coffee beverage as means for irradiating the far infrared rays as a method for improving water molecules as described above. ₃ ), chromium oxide (Cr ₂ O ₃ ), cobalt oxide (CoO) and copper oxide (CuO) are added to the glaze composition and the ceramic glaze and the glaze are both ceramic. Respectively.

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101: Ceramic cup emitting far-infrared rays

102: Cross-section of a ceramic cup emitting far-infrared rays

(Far-infrared rays are not radiators)

103: Cross-section of a ceramic cup emitting far-infrared rays

(With a far-infrared emitter)

104: far-infrared emitter

105: A groove in the bottom of the cup in which the far-infrared ray emitter is to be inserted

The ceramic cup 101 that emits the far-infrared rays of the present invention is made of a mineral material composed of 20% by weight of clay, 60% by weight of kaolin, 10% by weight of feldspar and 10% by weight of silica, And then molded at a pressure of 800 to 1300 kg / cm 2 in a mold provided to obtain a desired mold. The molded cup is rounded so as to insert a far infrared ray radiator 104 having a round bottom in an inner bottom. The formed ceramic cup is dried in a drying chamber and then placed in a firing furnace and fired at 1200 ° C to 1300 ° C . (MnO ₂ ), iron oxide (Fe ₂ O ₃ ), chromium oxide (Cr ₂ O ₃ ), cobalt oxide (CoO) and copper oxide (CuO) as a means for increasing the radiation efficiency of the far infrared rays in the first fired ceramic cup. , Quartz 26 to 30 wt.%, Talloidite 5.5 to 6.2 wt.%, Limestone 9.2 to 9.7 wt.%, Zincification 5.5 to 6.0 wt.%, Plastic clay 4.5 to 5.0 wt. (Fe ₂ O ₃ ) 80 to 85% by weight and manganese dioxide (MnO ₂ ) 9 to 15% by weight based on the total weight of the glaze composed of 28% by weight of aluminum oxide, 1.2 to 1.6% by weight of aluminum oxide and 0.3 to 0.5% (CuO) is used as a dependent material in an amount of 1 to 3 wt%, zinc oxide (ZnO) 8 to 10 wt%, aluminum oxide (Al ₂ O ₃ ) 2 to 5 wt%, silicon oxide (SiO ₂ ) 3.5% by weight, calcium (CaO) 2.5 ~ 5% by weight of oxide, cobalt oxide (CoO) 2.5 ~ 4% by weight of molybdenum oxide (MnO ₃₎ 1.5 ~ 2 wt% and yttria _{(y 2 O 3) 0.2 ~} 0.5 wt. % Of the far infrared ray inflow body 104 is inserted into the circular groove 105 provided at the bottom of the ceramic cup, , Dried in a drying room at 45 to 55 ° C for 24 hours, loaded in a closed firing furnace, and allowed to reach an internal temperature of 1050 to 1150 ° C over 8 hours in an inert gas atmosphere. And then cooled gradually over a period of 6 hours so that the furnace temperature reaches 200 ° C. When the temperature in the calcining furnace reaches 200 캜, the door of the calcining furnace is opened and the product is taken out from the calcining furnace and cooled at room temperature. At this time, the right glaze is sintered to the inside and the outside of the ceramic cup, and the far-infrared radiation ceramic fitted to the groove 105 provided in the circular shape at the bottom of the ceramic cup is closely contacted.

The ceramic cup that emits the far-infrared rays of the present invention is a cup that emits high-efficiency far-infrared rays. When cups of coffee and other beverage-like beverages are placed in the cup of the present invention, the far-infrared rays radiated from the cup act on the water molecules, Water molecules to be changed into delicious water, so that the taste of the contents dissolved in water is not only smooth and smooth, but also has the effect of changing the original taste and flavor of the contents to a tasty drink of the same level.

Claims (2)

A circular groove is formed in the bottom of a conventional cup with a handle made of 20% by weight of clay, 60% by weight of kaolin, 10% by weight of feldspar and 10% by weight of silica, and 80 to 85% Far-infrared ray-emitting ceramics consisting of 9 to 15% by weight of manganese dioxide, 8 to 10% by weight of zinc oxide, 2 to 5% by weight of aluminum oxide and 1 to 3% by weight of silicon oxide, cup. The ceramic cup according to claim 1, wherein a far infrared ray radiating ceramics to be fitted into a groove provided at the bottom of the ceramic cup is adhesively bonded by a glaze.