KR20030080352A - Manufacturing method of far infrared ray radiation ceramic ball - Google Patents

Abstract

PURPOSE: Provided is a method for making a far infrared ray-emitting ceramic ball which emits or contains other components beneficial to human health in addition to far infrared rays. CONSTITUTION: The method for making a far infrared ray-emitting ceramic ball comprises: the steps(S1,S3) of grinding and mixing minerals and ceramics to form a first mixture; the steps(S2,S4) of grinding and mixing a bamboo, a mulberry tree root and a black pine leaf to form a second mixture; the step(S5) of adding a diluted solution of a medicinal herb concentrate to the first and the second mixtures, respectively, mixing the first mixture slurry together with the second mixture slurry, and adding a clay thereto to form a third mixture; the steps(S6,S7) of fermenting and drying the third mixture and forming it into the shape of a sphere; and the step(S8) of baking and sintering the formed product in a kiln.

Description

Manufacturing method of far infrared ray radiation ceramic ball

The present invention relates to a radiation ceramic ball, and more particularly, to a method for manufacturing a far infrared radiation ceramic ball containing various components beneficial to health as well as far infrared rays.

Far infrared ray (far infrared ray) is a wavelength of more than 25㎛ long infrared rays, which is a kind of electromagnetic wave with a large thermal action because the wavelength is longer than the red region of visible light. These infrared rays are invisible, absorbed well by materials, and have strong resonance and resonance effects on organic compound molecules.

In addition, light generally reflects well when the wavelength is short, and absorbs well when it reaches an object because the wavelength is long, so the penetration is strong. For example, you can hardly feel the warm energy in the water at 30 ℃, but sitting in the sun at the same temperature can feel warm because the infrared rays contained in the sun penetrates deep into the skin to create heat.

This heat action helps to eliminate the bacteria that cause various diseases, and helps to expand the capillaries and blood circulation and tissue formation. In addition, by touching the water and protein molecules that make up the cells, the cells are shaken finely 2,000 times per minute to activate cell tissue, which is effective in preventing various adult diseases such as aging, promoting metabolism, and chronic fatigue.

In addition, it promotes sweating, relieves pain, removes heavy metals, sleeps, deodorizes, disinfects, prevents mold growth, dehumidification, and purifies the air.It is effective in housing and building materials, kitchen utensils, textiles, clothing, bedding, medical equipment, and saunas. It is used in many fields.

As such, as the efficacy of far-infrared rays is revealed, various kinds of far-infrared radiation products using ceramics emitting far-infrared rays have been developed. However, these far-infrared radiation products are mostly products sintered by mixing ores and ceramics, and have the function of far-infrared radiation only. Perform.

The present invention has been proposed in order to solve the problems of the prior art as described above, the method of manufacturing a far-infrared radiation ceramic ball having bamboo, mulberry roots, sea pine leaves, etc. together with other beneficial functions to the far infrared The purpose is to provide.

1 is a flow chart showing the manufacturing procedure of the far infrared radiation ceramic ball according to an embodiment of the present invention.

According to the present invention for achieving the object as described above, in the manufacturing method of the far-infrared radiation ceramic ball, the step of crushing and mixing the ore and ceramic to make a first mixture, pulverizing bamboo, mulberry roots, seaweed leaves Mixing to form a second mixture, mixing the first mixture and the second mixture with a diluting solution of herbal extracts, mixing the first mixture and the second mixture in a kneaded state together, and adding clay to the A method of producing a far-infrared radiation ceramic ball is provided, comprising the step of making a mixture, the step of fermenting and drying the third mixture into a sphere shape, and sintering the molded product in a kiln.

Preferably, the first mixture is a mixture of the ore and the ceramic in a weight ratio of 1 to 1.

More preferably, the second mixture of the bamboo and the mulberry root and the pine needles is mixed in a weight ratio of 1: 1 to 1.

Even more preferably, the third mixture is mixed with clay of the same weight relative to the weight of the first mixture and the second mixture mixed.

Below, before explaining a preferred embodiment of the method for producing a far-infrared radiation ceramic ball according to the present invention, bamboo, mulberry roots contained in the far-infrared radiation ceramic ball of the present invention having better performance than the conventional radiation-ceramic products. And, I will briefly explain the efficacy of the pine needles.

Heo-Jun's 'B agree' shows that bamboo power (bamboo oil) has an excellent effect on stroke and mental and mental stability.In folk medicine, bamboo sap is effective for stroke, cough and tetanus, and bamboo bark is effective for vomiting. Known. Bamboo charcoal is made by baking such bamboo at high temperature of 1000 ℃, and it has many fine pores than ordinary charcoal, so the surface area of charcoal is excellent for its absorption / absorption effect. In addition, water filtered with bamboo charcoal, or bamboo charcoal, is alkaline, promoting metabolism to maintain body balance and lowering cholesterol levels. In addition, bamboo charcoal is added to tap water to remove odor of chlorine and minerals of bamboo charcoal are dissolved in water, making the water more delicious and also purifying air and reducing the concentration of carbon dioxide. Like this, bamboo charcoal has a very close relationship with our human health. Looking at the seven health effects of bamboo charcoal in detail, it is as follows.

As seven health effects of bamboo charcoal,

The first is the relaxation effect. The air purifying effect and the negative ion effect of bamboo charcoal make the mind and body refresh and fall asleep. In addition, the α-waves emitted by bamboo charcoal relieve all kinds of stress of modern people.

The second health effect of bamboo charcoal is the deodorization effect. The excellent adsorption of bamboo charcoal removes odors, old rice smell and various odors that interfere with sound sleep.

Third is the Hair & Skin care effect. Bamboo charcoal absorbs and dissipates extra moisture during sleep, keeping the bedroom's humidity at 50-60% at all times to protect hair and skin health.

The fourth is the electromagnetic shilding effect. Bamboo charcoal, which is highly conductive, prevents the generation of static electricity and frees humans from electromagnetic pollution.

Fifth is the water absorption effect. Bamboo charcoal absorbs large amounts of moisture, such as sweat from sleeping or urine in children, to decompose impurities.

Sixth is the Far-infrared ray effect. Far-infrared rays generated from bamboo charcoal warms the whole body from the inside during sleep to promote blood circulation and metabolism.

Seventh is the water purification effect. The rich minerals of bamboo charcoal cleanse the water quality and make the water particles small so that the tap water is converted into weak water.

On the other hand, there is a mulberry root as another element in addition to the bamboo component contained in the present invention. The mulberry roots have been dried and used as a medicinal herb called 'Sanbaekpi'.Sanbaekpi has the effect of lowering waste heat, stopping coughing, relieving breathing symptoms, and urinating well. It is prescribed to patients with sputum, swelling and hypertension.

In addition, the epidermis is effective in lowering blood sugar, cholesterol, and blood pressure, which is prescribed for diabetic patients, because mulberry contains a large amount of deoxynojirimycin (Deoxynojirimy cin).

In addition to the bamboo component and mulberry root contained in the present invention is another element is sea pine leaves. The pine needles give off the smell of pine needles, and these pine needles have the effect of brightening a person's head.

In the following, a preferred embodiment of the method for producing a far infrared ray radiation ceramic ball according to the present invention will be described in detail.

1 is a flow chart showing the manufacturing procedure of the far infrared radiation ceramic ball according to an embodiment of the present invention.

As shown in Figure 1, the far-infrared radiation ceramic ball is prepared by grinding ore, ceramic, bamboo, mulberry roots, seaweed leaves in powder form, and then sintered at a high temperature in a kiln after mixing with diluent and clay of herbal extracts. .

Looking at the manufacturing method of the far-infrared radiation ceramic ball in more detail, in the first step (S1) to crush the ore and ceramic to make a fine powder. Then, the second step (S2) is made of fine powder by grinding the bamboo, mulberry root, seaweed leaves. Here, the powder of ore, ceramic, bamboo, mulberry root, and pine needles is most suitable when it is about 325 mesh. The reason for this is to make it easy to stir when the mixture is mixed and stirred later by adding the diluent and clay of the herbal extract. If it exceeds 325 mesh, it will not be uniformly agitated and the hole is large after sintering, and it is easy to be destroyed. If it is less than 325 mesh, the ore, ceramic, bamboo, mulberry root, and pine needles are repeatedly crushed several times. Because it has to be economical.

Here, the herb extract is haesong leaf, cedar (Cryptomeria Japonica), Choe Hwang (EPHEDRAE HERBA), Sambaekcho (三 白草), Golden (黄 芩, SCUTELLARIAE RADIX), earth red ginseng, thyme (百里香, THYMIHERBA) is dried in the shade and water is added to this, the dilution of the herbal extract is a diluent obtained by mixing water in such a herbal extract in a volume ratio of one to one.

In the third step S3, the ore and the ceramic are mixed in a weight ratio of 1 to 1 to form a first mixture. Then, 1 liter of dilution of herbal extract per 20 kg of the first mixture is mixed and stirred.

The fourth step (S4) is a mixture of bamboo, mulberry roots, and pine needles by weight ratio, one to one to one to make a second mixture, and 1 liter of diluent of herbal extract per kg of the second mixture is mixed and stirred.

In a fifth step S5, the first mixture and the second mixture are mixed in a weight ratio of 10 to 1, and clay is added thereto to form a third mixture. At this time, the weight ratio of the mixture of the first mixture and the second mixture to the weight ratio of clay is one to one, and to form the third mixture, the first mixture, the second mixture and the clay are put in a spinning wheel and blended for at least 30 minutes. do.

As a sixth step (S6), the third mixture blended in this way is wrapped in vinyl and fermented for 24 hours in a blocked state.

In the seventh step S7, the fermented third mixture is put into a ball-shaped spherical model plate and molded.

Finally, in the eighth step S8, the spherical third mixture is dried in the shade for about 3 days, and then put in a kiln and fired at 1200-1300 ° C. for sintering.

As an embodiment of the present invention described above, in the fourth step (S4), but said to mix bamboo, mulberry roots, and pine leaves in a weight ratio of 1 to 1, the present invention is not limited thereto. That is, in the fifth step (S5) bamboo, mulberry roots, and pine leaves constituting the second mixture within the range of mixing the first mixture and the second mixture in a weight ratio of 10 to 1, the weight ratio according to the user's intention I can regulate it. However, the ratio of the first mixture and the second mixture mixed in the weight ratio of 10 to 1 in the fifth step is the same.

The reason is that if the weight ratio of the second mixture is large and the weight ratio of the first mixture is relatively low, the hardness of the spin ceramic balls produced after sintering is weak and easily broken, on the contrary, the weight ratio of the second mixture is low and the weight ratio of the first mixture is small. If the weight ratio is large, the difference between the purpose and the effect of the conventional ceramic ball. Therefore, the mixing weight ratio of the first mixture and the second mixture in the fifth step is limited to 10 to 1.

As described in detail above, the far-infrared radiation ceramic ball produced by the method of manufacturing the far-infrared radiation ceramic ball of the present invention, as well as far-infrared radiation emitted from ores and ceramics, beneficial components are generated from bamboo, mulberry roots, and pine needles to produce far-infrared radiation. It is effective for people who have ceramic balls.

Although the technical idea of the method for manufacturing the far-infrared radiation ceramic ball of the present invention has been described with the accompanying drawings, this is by way of example and not by way of limitation. In addition, it is obvious that any person skilled in the art can make various modifications and imitations without departing from the scope of the technical idea of the present invention.

Claims (4)

In the manufacturing method of the far infrared radiation ceramic ball, Grinding and mixing the ore and ceramic to form a first mixture, Pulverizing and mixing bamboo, mulberry root, and pine needles to form a second mixture, Mixing the first mixture and the second mixture with each diluent of herbal extract and mixing the first mixture and the second mixture in a kneaded state, and adding clay thereto to form a third mixture; Fermenting and drying the third mixture to form a sphere; Method for producing a far-infrared radiation ceramic ball comprising the step of sintering the molded product in a kiln. The method of claim 1, The first mixture is a method for producing a far-infrared radiation ceramic ball, characterized in that the ore and the ceramic is mixed in a weight ratio of 1 to 1. The method of claim 1, The second mixture is the method of producing a far-infrared radiation ceramic ball, characterized in that the bamboo, the mulberry root and the pine needles are mixed in a weight ratio of 1: 1. The method according to any one of claims 1 to 3, The third mixture is a method of producing a far-infrared radiation ceramic ball, characterized in that the clay of the same weight is mixed with respect to the mixed weight of the first mixture and the second mixture.