KR100798846B1 - Ceramic ball for clean water, method of manufacturing the same, bio pack having ceramic ball for clean water - Google Patents

Abstract

The present invention discloses a ceramic ball for water purification, a method of manufacturing the same, a biopack filled with purified ceramic ball, and a method for improving the properties of drinking water or food using the same, which have excellent antibacterial and deodorizing power and are rich in mineral-rich drinking water. For this purpose, water purification ceramic ball containing 15 to 25% by weight of tourmaline, 15 to 25% by weight of magnesite, 15 to 25% by weight of alumina, 15 to 25% by weight of macsumite, and germanium 15 to 25% by weight, a method of manufacturing the same, and a ceramic for water purification It provides a ball-packed biopack and a method of improving the properties of water or soup foods using the same. If the ceramic ball according to the present invention is prepared and filled with a biopack and drinking purified water using the same, the pollutant can be removed without boiling the water. In addition, the water molecules of drinking water or food broth are improved and changed to mineral-rich weak alkaline drinking water, which has the effect of eliminating more active oxygen than is necessary for the human body when drinking. As a result, by manufacturing the ceramic ball for water purification and drinking purified water in the daily life using it can be a great help for the health of the user.

Description

Ceramic ball for water purification, its manufacturing method, bio-pack filled with water purification ceramic ball, and a method for improving the food properties using the same {Ceramic ball for clean water, method of manufacturing the same, bio pack having ceramic ball for clean water}

1 is a flowchart illustrating a method of manufacturing a ceramic ball for water purification according to an embodiment of the present invention.

2 is a flowchart illustrating a method of manufacturing a biopack filled with a ceramic ball for water purification according to an embodiment of the present invention.

Figure 3 is a schematic diagram for explaining an embodiment of a biopack filled with a ceramic ball for water purification according to the present invention.

FIG. 4 is a schematic diagram of the biopack shown in FIG. 3 packed into a hygienic storage pack.

5 is a schematic view for explaining another embodiment of a biopack filled with a ceramic ball for water purification according to the present invention.

Figure 6 is a flow chart illustrating an embodiment of a method for improving the properties of food using a biopack filled with a ceramic ball for water purification according to the present invention.

Figure 7 is a flow chart illustrating another embodiment of the method for improving the properties of food using a biopack filled with a ceramic ball for water purification according to the present invention.

         Brief description of the main parts of the drawing

1: Biopack 10, 110: Tea Bag

20, 120: String 30, 130: Tab for handle

40: hygiene storage pack

The present invention relates to a ceramic ball for purified water, a method for manufacturing the same, a biopack filled with purified ceramic balls, and a method for improving food properties using the same. More specifically, water purification for changing water into excellent alkaline drinking water having excellent antibacterial and deodorizing power. The present invention relates to a ceramic ball, a method of manufacturing the same, a biopack filled with purified ceramic balls, and a method for improving the properties of soup food or drinking water using the same.

In modern times, due to the development of the industry, acid rain falls due to air pollution such as sulfurous acid gas in the atmosphere, and harmful chemicals such as sulfurous acid gas, carbon dioxide, carbon monoxide and chlorine gas are introduced into the water by injecting artificial chemicals such as quicklime and chlorine in the water purification process. When polymerized, the water molecule population grows. As a result, it changes into weak acidic water, and mineral deficiency occurs. When drinking this water in usual, the objection is large, the water absorption is low, the satiety is great, and the taste is not good.

Conventionally, when drinking water, a variety of bacteria or residual chlorine contained in water are removed by purifying water using a water purifier at home or office, or by boiling tap water. However, the water purifier should be used at home or indoor for drinking and cooking purposes, and it is inconvenient to carry the water purifier in a water bottle when going out. In addition, there is an unsanitary problem that can be contaminated with bacteria when carrying water purifier water in a water bottle. On the other hand, tap water is safe from bacteria due to residual chlorine, but may be harmful to health, so when boiling water in a method for evaporating and removing residual chlorine, the minerals contained in the water decrease. Because of this, lack of minerals can negatively affect the body's physiological activity, which can be harmful to health. This can confirm the damage caused by the lack of minerals by boiling the water at low temperature and dying in three weeks when giving to the flower.

In order to solve this problem, researches on the purification method of drinking water has recently been scientificized.

For example, Korean Unexamined Patent Publication No. 10-1991-0009604 (published June 28, 1991) discloses a "water-purifying ceramic body". In addition, Korean Unexamined Patent Publication No. 10-1998-0009194 (published on April 30, 1998) discloses "a ceramic body having a sterilizing water purification function and a manufacturing method thereof". And the Republic of Korea Patent Publication No. 10-2001-0020066 (published March 15, 2001) discloses a "method for producing a drink water purification action". In addition, Korean Utility Model Publication No. 20-0265773 (registered February 08, 2002) discloses an "outdoor water purifier".

Each of the inventions described above has the effect of purifying drinking water using a ceramic material or a water purifier. However, the above-mentioned method cannot be changed into weak alkaline drinking water lacking antibacterial and deodorizing power and rich in minerals. In addition, there is a limitation in the function of removing more than the free radicals necessary for the human body when drinking. In addition, it is necessary to use a separate device or process, such as a water purifier, regardless of time and place, there is a problem that you can not drink and drink drinking water or soup foods on the fly.

Accordingly, a first object of the present invention is to provide a ceramic ball which is excellent in antibacterial and deodorizing power and is converted into weak alkaline drinking water rich in minerals.

And the second object of the present invention is to change to weak alkaline drinking water having excellent antibacterial and deodorizing power and mineral-rich drinking water by using the ceramic ball for water purification, to provide a method for producing a ceramic ball for water purification to remove more active oxygen than necessary for human drinking. It is.

In addition, a third object of the present invention is to provide a method for improving the properties of foods such as drinking water and soup foods easily and anytime, anywhere by eliminating off-flavor using a biopack filled with purified ceramic balls.

According to one embodiment of the present invention in order to achieve the first object of the present invention described above, 15 to 25% by weight of tourmaline, 15 to 25% by weight of magnesite, 15 to 25% by weight of alumina, 15 to 25% by weight of macsumite, and germanium It provides a ceramic ball for water purification comprising 15 to 25% by weight.

And according to the embodiment of the present invention in order to achieve the above-described second object of the present invention, the step of obtaining a natural ore powder by grinding natural ore; Spraying water on the obtained natural ore powder to form a sphere to form a natural ore ball; Calcining the natural ore ball to form a ceramic ball; And it provides a method for producing a ceramic ball for water purification comprising the step of boiling the ceramic ball after boiling water. The ceramic ball is used alone or magnesite, composition comprising 15 to 25% by weight of tourmaline, 15 to 25% by weight of magnesite, 15 to 25% by weight of alumina, 15 to 25% by weight of gansumite, and 15 to 25% by weight of germanium. Can be used.

In addition, according to an embodiment of the present invention to achieve a third object of the present invention, preparing food; Injecting the water purification biopack filled with ceramic balls in the food; It provides a method of improving the food properties using the biopack containing the step of improving the food by shaking the injected biopack for purified water in the food for 3 to 5 seconds.

In addition, according to another embodiment of the present invention to achieve the above-mentioned third object of the present invention comprising the steps of preparing a food material comprising a broth; Injecting the water purification biopack filled with ceramic balls in the food material; It provides a method of improving the food properties using the biopack comprising the step of preparing a food with improved properties by cooking the food material in which the water purification biopack is added.

According to the present invention, the pollutant can be removed without boiling the water. In addition, by improving the water molecules of drinking water and changing to mineral-rich weak alkaline drinking water has the effect of eliminating more than the free radicals required by the human body when drinking. Eventually, by preparing the ceramic ball for drinking water and drinking purified water or broth using the same, it can greatly help the user's anti-aging and health promotion.

Hereinafter, a ceramic ball for water purification according to preferred embodiments of the present invention and a manufacturing method thereof will be described in detail.

First, it provides a ceramic ball including natural ore having a suitable performance for water purification according to an embodiment of the present invention. The natural mineral material according to the present embodiment includes 15 to 25% by weight of tourmaline, 15 to 25% by weight of magnesite, 15 to 25% by weight of alumina 15 to 25% by weight of macsumite, and 15 to 25% by weight of germanium.

The tourmaline (Tourmaline) has a crystal structure of cyclosilicate containing boron, and generates electromagnetic current of about 0.06 mA, which is beneficial to the human body when receiving electromagnetic waves from solar energy. It releases beneficial anions to the body to promote the metabolism of the human body and activate the blood circulation.

The tourmaline is preferably about 15 to 25% by weight. When the tourmaline is used at less than about 15% by weight, the radiation amount of far infrared rays and anions is considerably lowered, and it is difficult to sufficiently expect the effect of purifying water by the generation of electromagnetic energy, and when it exceeds 25% by weight, it is required as a ceramic ball for water purification. There is a problem of this deterioration.

Since magnesite has a high melting point, about 79% of the production is used for the manufacture of refractory bricks used as furnace furnace materials, and the rest is used for various applications. For example, additives such as animal feed and fertilizers are used for agriculture, papermaking, chemical samples, pharmaceuticals, general industries such as cement, refractory boards, etc., and water and wastewater treatment. Its excellent decontamination function is suitable for flue gas removal and water quality control. It is used as an absorbent and catalyst in the carbonate leaching circuit for recovering uranium oxide from uranium mines.

The magnesite is preferably about 15 to 25% by weight. The magnesite may be used in an amount of about 15% by weight or more and about 25% by weight or less to activate drinking water and remove free radicals that are harmful to the human body.

The alumina is an amphoteric compound having a rough crystal structure and absorbing water well, and therefore easily soluble in acid and base. In addition, the amorphous porous material has a very large surface area, so the adsorption force is strong, and when melting at high temperature, the heat resistance is significantly increased. Activated alumina having a high adsorption capacity is used for a dehydrating agent, a decoloring agent, a chromatography adsorbent, and the like.

The alumina has an excellent adsorption capacity for adsorbing harmful substances when used in an amount of about 15 to 25% by weight. Moreover, since alumina is expensive, it is not economically desirable to use more than about 25% by weight.

The macsumite acts as an antibacterial, anti-worm, adsorbs and decomposes heavy metals and various contaminants, and promotes the growth of plants, cell activation of living organisms, water / air purification, and purification. In addition, it contains a lot of minerals beneficial to the human body, and far-infrared emissivity is higher than other minerals. In order to benefit the human body, the central wavelength should emit far infrared rays around 10 μm, and Macsumite emits about 90% or more of far infrared rays of about 8 to 11 μm. Therefore, the metabolic promoting effect of the human body can be seen the effects of blood circulation, pain relief.

Preferably, the gansumite is about 15 to 25% by weight. If the Macsumite is used in less than about 15% by weight, the mineral content and far-infrared emissivity are inadequate for the human body, and the metabolic promoting action lowers the effects of blood circulation, pain relief, etc., and exceeds about 25% by weight. Since Macsumite is expensive, it is not economically desirable.

The germanium (Germanium) acts to increase the vitality when the germanium ions (outer electrons) enter the body when in contact with the skin due to the semiconductor properties. In addition, the body is discharged out of the body in about 20 to 30 hours with various harmful substances, so there is no poisoning or side effects. When inorganic germanium particles come into contact with human skin, semiconductor properties enter the skin tissue through osmotic activity of the outer electrons. Germanium penetrates the capillaries in the subcutaneous tissues and moves the electrons in the blood vessels through the walls of blood vessels, and it is effective in relieving pain by normalizing blood by discharging blood and discharging excess electron flow.

The germanium is preferably about 15 to 25% by weight. If the germanium is used in less than about 15% by weight, it is not possible to sufficiently obtain the effect of discharging various harmful substances in the body out of the body, and when used in excess of about 25% by weight, the physical properties of the ceramic ball deteriorate, and germanium is expensive. This is not economically desirable.

Using such natural mineral materials to manufacture a ceramic ball for water purification can greatly help the health of the user.

The present invention provides a method for producing the ceramic ball for water purification. Hereinafter, a method of manufacturing a ceramic ball according to a preferred embodiment of the present invention with reference to the drawings. 1 is a flowchart illustrating a method of manufacturing a ceramic ball for water purification according to an embodiment of the present invention.

Referring to Figure 1, the manufacturing method of the ceramic ball for water purification according to the present embodiment 15 to 25% by weight of tourmaline, 15 to 25% by weight of magnesite, 15 to 25% by weight of alumina, 15 to 25% by weight of maculite, and germanium 15 to After grinding the natural ore containing 25% by weight to obtain a natural ore powder (step S110), and then spun water to the obtained natural ore powder to form a sphere to form a natural ore ball (step S120 )do. And after firing the natural mineral ball to form a ceramic ball (step S130), the ceramic ball is boiled in boiling water (step S140) and then boiled.

The detailed description of each step is as follows. However, repetitive descriptions of the contents overlapping with those described above in the ceramic ball for water purification using the natural mineral material will be omitted.

First, the natural ore is pulverized to obtain a natural ore powder (step S110). The natural ore material is used by mixing 15 to 25% by weight of tourmaline, 15 to 25% by weight of magnesite, 15 to 25% by weight of alumina, 15 to 25% by weight of macsumite, and 15 to 25% by weight of germanium. At this time, each natural ore is preferably pulverized so that the average particle size is 1500 to 3000 mesh so that it can be easily formed into a sphere by spraying water in a subsequent step.

Subsequently, water is sprayed onto the natural mineral powder to form a sphere to form a natural mineral ball (step S120). In the present invention, water is sprayed on the natural mineral powder by using an injector so that the natural mineral powder agglomerates and is formed into a spherical ball shape.

Then, the natural ore ball is fired to form a ceramic ball (step S130). The firing is heat-treated at about 800 to 1200 ℃ to produce a ceramic ball for water purification of about 0.5 to 5 mm. When the size of the ceramic ball is about 0.5 to 5 mm, the amount of far-infrared radiation is maximized, the activation of water is actively promoted, and the effect of improving water molecules is excellent. If more than 5 mm, there is a problem that the voids between the ceramic balls become large, so that it is difficult to achieve a sufficient effect.

And then boiled after putting the ceramic ball in boiled water (step S140). Boiling ceramic balls eliminates the bad smells specific to minerals.

In addition, the present invention described above provides a water purification biopack including a tea bag filled with a ceramic ball made of natural ore. 2 is a flowchart illustrating a method of manufacturing a biopack filled with a ceramic ball for water purification according to an embodiment of the present invention. Referring to FIG. 2, in the BAO PACK including a tea bag filled with a ceramic ball for purifying water according to the present embodiment, the ceramic ball is filled with a paper material or a metal bag with the ceramic ball after the ceramic ball is prepared (step S250) to prepare.

3 is a schematic view for explaining an embodiment of a biopack filled with a ceramic ball for water purification according to the present invention, Figure 4 is a schematic diagram of the biopack shown in Figure 3 packed in a sanitary storage pack. In addition, Figure 5 is a schematic diagram for explaining another embodiment of a biopack filled with a ceramic ball for water purification according to the present invention.

3 and 4, the biopack 1 includes a ceramic ball and a tea bag 10 filled with the ceramic ball. The ceramic ball filled in the biopack includes 15-25 wt% of tourmaline, 15-25 wt% of magnesite, 15-25 wt% of alumina, 15-25 wt% of macsumite, and 15-25 wt% of germanium as described above. The composition may be used, or magnesite may be used alone. As the material of the biopack tea bag 10, a sanitary fluid permeable paper may be used. In addition, the biopack 1 may further include a sanitary storage pack 40 for packing the tea bag 10. In addition, in order to easily put the tea bag 10 in a water cup containing a drinking water or a container containing broth food, the connection tab 20 connected to the tea bag 10 and the handle tab 30 connected to the end of the connection string It may further include.

Since the tea bag and the sanitary storage pack 40 for packing the tea bag can always carry the water purifying ceramic ball in a pocket or purse, etc. Therefore, when you want to drink water, put the functional biopack in a water cup If you pour water, anyone can drink it easily and hygienically at low cost. In addition to drinking water, if the biopack (1) is added to a variety of cooked broth foods and shaken or until a predetermined time has elapsed, there is also an economical efficiency that can be used more than once in the same place without throwing it away once. .

On the other hand, Figure 5 is a schematic diagram for explaining another embodiment of a biopack filled with a ceramic ball for water purification according to the present invention.

Referring to FIG. 5, a tea bag 110 of a sanitized metal mesh and a ceramic ball filled in the tea bag 110 are used instead of the paper material used in FIGS. 3 and 4. In addition, it may further include a connection tab 120 connected to the tea bag 110 and a handle tab 130 connected to the tea bag 110 by the connection strap 120. In order to improve the food properties by adding to drinking water or cooked foods, paper tea bags may be used.However, when the biopack is put into a cooking process such as soup and boiled for a long time, it is made of durable metal. It is preferable to include a tea bag and a tab for the handle. As the metal, for example, stainless steel may be used without limitation as long as it is added to foods such as stainless steel and has a harmful effect on the human body.

And it provides an embodiment of the method of improving the properties of drinking water or soup food using a biopack filled with a ceramic ball for purified water according to an embodiment of the present invention described above. Figure 6 is a flow chart illustrating an embodiment of a method for improving the properties of food using a biopack filled with a ceramic ball for water purification according to the present invention.

Referring to Figure 6, the method of improving the food properties according to the present embodiment is to prepare foods, such as drinking water or soup food (step S310) and put the bio-pack for water purification filled with ceramic balls in the food (step S320) Then, shaking the injected bio-pack for purified water for 3 to 5 seconds in food (step S330).

The detailed description of each step is as follows.

First, prepare food in a cup or bowl (step S310). The food has a broad meaning, and water or various soup foods to drink. Then, the food ball is filled with a ceramic ball filled with a ceramic ball (step S320). In case of drinking water or already cooked broth food, it is possible to ingest it after inputting the biopack for a short time, so that a biopack including a tea bag made of paper material can be used without using ceramic balls stacked in a metal net. Thereafter, the injected bio-pack for purified water is shaken for about 3 to 5 seconds in the food (step S330).

In step S330, when the biopack filled with ceramic balls is placed in a container containing broth food or drinking water, electromagnetic energy of far infrared rays of about 4 to 14 microns is emitted. In general, water has a chain structure of about 30 to 40 large water molecules. This chain structure is broken to evaporate and absorb sulfur dioxide, carbon dioxide, carbon monoxide, residual chlorine, and the like polymerized in water. Then, water is water molecules of about 5 to 6 tail structures, so the crystal of water is small, so it has a large specific gravity on the human body, and clean water, safe water without bacteria, cool water, good rejection, good absorption, and good for diuretic effect. Is made of water. In addition, when the bio-pack ingested in a variety of broth food can remove the smell or taste of fishy fishy and meat.

And shaking the biopack in the food for about 3 to 5 seconds and then left in the food for about 20 to 40 seconds (step S340). Leaving the biopack in the food for about 20 to 40 seconds can maximize the efficacy of each natural mineral constituting the ceramic ball.

Figure 7 is a flow chart illustrating another embodiment of the method for improving the properties of food using a biopack filled with a ceramic ball for water purification according to the present invention.

Referring to FIG. 7, first, a food material including a broth is prepared (step S410), and a water purification biopack filled with ceramic balls is added to the food material (step S420). Thereafter, the food ingredients into which the water purification biopack is added are cooked by boiling, for example, to prepare foods having improved properties (step S430). Unlike the embodiment described with reference to FIG. 6, the present embodiment is a method of improving food properties by injecting and cooking a biopack before cooking. Therefore, it is preferable to use a biopack including a tea bag of a metal mesh having excellent durability than a tea bag of paper material when a long boiling process is involved.

Conventionally, there was a way to enjoy tea simply by filling various types of tea, such as green tea or red tea, into a tea bag, but these are not methods of purifying the material or improving properties. Therefore, the efficacy of the active ingredients such as green tea or black tea may be halved due to unpurified water. Moreover, there is a problem that the existing purified water has to be ingested in a fixed place such as an office or a home, but when carrying the biopack according to the present invention, there is an advantage that the purified water or food having improved properties can be taken anytime and anywhere.

The present invention will be described in more detail with reference to the following examples. However, the examples are not intended to limit the present invention to illustrate the invention.

 Example 1

After preparing tourmaline 100g, magnesite 100g, alumina 100g, macsumite 100g, germanium 100g, the tourmaline, magnesite, alumina, macsumite, germanium was ground to an average particle size of 2000 mesh to obtain a natural mineral powder. Thereafter, these mixtures were sprayed with water to form a ball. Thereafter, the obtained natural mineral ball in the form of a ball was calcined at 1000 ° C. to produce a ceramic ball.

Experimental Example 1-Measurement of Anion Release Effect of Anion Ceramic Powder for Water Purifier

In order to measure the negative ion release effect of the ceramic ball prepared in Example 1 was performed as follows. This experiment was conducted at the Korea Institute of Construction Materials' Far-Infrared Application Evaluation Center. Anion release was measured by the test method of KICM-FIR-1042. The results are shown in Table 1 below.

TABLE 1

Test Items Test result Test Methods Anion (ION / cc) Blank 73 KICM-FIR-1042 Sample 33556

Korea Building Materials Testing Institute

As a result of the experiment it was confirmed that the anion of 33556 / cc in the anion ceramic ball for the water purifier.

[Experimental Example 2]-Far-infrared emissivity effect measurement of water purifier bio ceramic ball

In order to measure the far-infrared emission amount of the ceramic ball manufactured by Example 1 of the present invention, the experiment was performed as follows. This experiment was conducted at the Korea Institute of Construction Materials' Far-Infrared Application Evaluation Center. Far-infrared emission was measured by the test method of KICM-FIR-1005. The results are shown in Table 2 below.

TABLE 2

Test Items Test result Test Methods Far infrared ray emission amount (40 ℃) Emissivity (5 ~ 20㎛) 0.926 KICM-FIR-1005 Radiation energy (W / ㎡) 3.73X102

Korea Building Materials Testing Institute

As a result of the experiment, it was confirmed that the infrared ray of 0.962 was emitted from the anion ceramic ball for water purifier.

Experimental Example 3-Water Purifier Performance Test for Ceramic Ball Purifier

In order to measure the water purification performance of the ceramic ball produced by Example 1 of the present invention, the experiment was performed as follows. This experiment was carried out at Korea Environmental Water Research Institute. 1.2 kg of the ceramic balls were deposited at 20 ° C. in test water prepared at pH 8 using distilled water and then eluted for 1 hour. The eluted water was repeated one more time and filtered again with GF / C filter paper. The filtrate was analyzed by ICP / AES. The results are shown in Table 3 below.

TABLE 3

Test Items unit result Remarks Pb mg / L Not detected - CD mg / L Not detected - As mg / L Not detected - Se mg / L Not detected - Fe mg / L Not detected - Mn mg / L 0.038 - Cr + 6 mg / L Not detected - Zn mg / L Not detected - Cu mg / L Not detected - Al mg / L 0.049 - Mg mg / L 0.072 - Na mg / L 3.33 - K mg / L 1.40 - Ca mg / L 6.48 -

As a result, it was confirmed that Pb, Cd, As, Se, Fe, Cr ⁺⁶ , Zn, and Cu were not detected in the water purification test using the ceramic ball for the water purifier.

According to the present invention, the pollutant can be removed without boiling the water. In addition, the water molecules of drinking water is improved and the mineral-rich weak alkaline drinking water has the effect of eliminating more than the free radicals required by the human body when drinking. As a result, by preparing the ceramic ball for drinking water and drinking purified water using the same, it can greatly help the user's anti-aging, various diseases healing and prevention, and health promotion.

Although described above with reference to a preferred embodiment of the present invention, those skilled in the art various modifications and changes to the present invention without departing from the spirit and scope of the invention described in the claims below I can understand that you can.

Claims (16)

Tourmaline 15-25 wt%; 15-25 wt% magnesite; 15 to 25% by weight of alumina; 15-25% by weight of gansumite; And Ceramic ball for water purification comprising 15 to 25% by weight of germanium. A natural ore powder is obtained by pulverizing a natural ore including 15 to 25% by weight of tourmaline, 15 to 25% by weight of magnesite, 15 to 25% by weight of alumina, 15 to 25% by weight of macsumite, and 15 to 25% by weight of germanium. Doing; Spraying water on the obtained natural ore powder to form a sphere to form a natural ore ball; Firing the natural ore ball to form a ceramic ball of 0.5 to 5 mm; And The method of manufacturing a ceramic ball for water purification comprising the step of boiling the ceramic ball in boiled water. The method of claim 2, wherein the firing is performed by heat treatment at 800 to 1200 ℃. delete 15 to 25 weight percent tourmaline, 15 to 25 weight percent magnesite, 15 to 25 weight percent alumina, 15 to 25 weight percent gansumite, and 15 to 25 weight percent germanium; And Sanitary treated metal net filled with the ceramic ball, or a sanitary biopack including a tea bag (tea bag) is a sanitary fluid permeable paper. delete delete 15 to 25 weight percent tourmaline, 15 to 25 weight percent magnesite, 15 to 25 weight percent alumina, 15 to 25 weight percent gansumite, and 15 to 25 weight percent germanium; And The bio-pack is filled with a ceramic ball for water purification, including a tea bag is a sanitary fluid permeable paper filled with the ceramic ball. delete [Claim 6] The biopack filled with ceramic balls for water purification according to claim 5, further comprising a handle tab attached to the tea bag. According to claim 5, The bio-pack is filled with a ceramic ball for water purification, characterized in that it further comprises a hygiene storage pack for packaging the tea bag. delete delete delete delete delete

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