JP2009072723A - Mineral water making method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a mineral water making method which enables the elution of well-balanced mineral components by immersing natural ores such as compounded granite porphyry, tourmaline, Tenjuishi, etc. <P>SOLUTION: Mineral water can be made by immersing natural ores such as granular-lumpy granite porphyry 2, Tenjuishi 3, tourmaline 4, etc. in water for several hours to elute mineral components such as calcium or magnesium much contained in granite porphyry 2, and sodium, potassium, etc. much contained in Tenjuishi 3 or the like. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a method for producing mineral water. Specifically, it relates to a method for producing mineral water by immersing a natural ore such as barleystone, tourmaline stone, or natural stone in a water tank to elute mineral components.

  Due to changes in dietary habits and changes in the environment of modern people, the lack of nutritional components that must be ingested, such as minerals, has become a problem. In addition, many people have become aware of their health and their awareness of water has increased in their daily lives. The water used every day should be mineral-rich water, but in tap water, chlorine odor is drifted by chemicals such as sodium hypochlorite used for sterilization and disinfection. is the current situation.

  In recent years, several types of water purifiers have been developed. Many of these water purifiers are attached to tap water faucets, and the purpose is to remove or reduce impurities, residual chlorine, etc. by using the running water and passing water through various filters or filter media such as activated carbon. What to do. Or, minerals such as barley stone, tourmaline stone, or natural ore such as barley stone, tourmaline stone, etc. are pulverized and water is passed through ceramic balls to make water contain far infrared rays, mineral components, etc. There is a thing which is going to elute (for example, refer patent document 1).

JP 2001-87776 A

However, the necessary minimum mineral components cannot be eluted simply by passing water through natural ores such as barleystone and tourmaline for a short time.
On the other hand, all mineral water sold in containers such as plastic bottles is used domestic or overseas groundwater and spring water. These natural waters are precipitated, filtered, heat sterilized, and set for a shelf life. Sold.

If the facility for producing this mineral water is in the back of the mountains or in the forest, there is a problem that the capital is required for capital investment or road equipment for transportation and the manufacturing cost is increased.
Also, groundwater and spring water are not infinite and mineral components change and become unstable if used in large quantities, and are susceptible to natural influences such as seasonal heavy rains and droughts, mineral components are not stable, or natural subsidence such as land subsidence due to depletion There are problems that cause destruction.

  The present invention was devised in view of the above points, and a balanced mineral component is eluted by immersing a natural ore such as blended barley stone, tourmaline stone, or natural stone in a water tank. An object of the present invention is to provide a method for producing mineral water.

  In order to achieve the above object, the method for producing mineral water according to the present invention comprises a mineral component by immersing one or more natural ores selected from barley stone, natural stone or tourmaline in water. Is eluted.

  Here, by immersing natural ore such as barley stone, natural stone, tourmaline stone, etc. in water for several hours, calcium, magnesium, and sodium, potassium, etc. It becomes possible to produce mineral water by eluting the mineral components.

  Further, by mixing one or more kinds selected from vanadium ceramic balls or far-infrared ceramic balls with natural ores such as barleystone, natural stone, tourmaline stone, etc., water is produced by negative ions and far-infrared effect. It becomes possible to produce delicious mineral water by finely clustering the molecules and promoting the activation and purification of water.

  By using tap water as the water to be used, it can be widely put into practical use, such as household water servers, water storage tanks for buildings such as condominiums, large-scale plant facilities (water treatment plant scale), and chlorine contained in tap water. Therefore, when the bacteria are consumed in several days, sterilization is not necessary.

According to the method for producing mineral water of the present invention, it is possible to adjust the elution amount of the mineral component by making the elution of the mineral component that could not be performed by a conventional water purifier or the like into a water storage type.
Moreover, the component according to health can be freely adjusted by immersing the special ceramic ball | bowl with which several types of natural ores and several types of natural ore powder were mix | blended in water.

  Furthermore, depending on the purpose, water storage can be put into practical use in a wide range of applications such as household water servers, water storage tanks for buildings such as condominiums, large plant facilities (water purification plant scale), and the water used is based on tap water. It becomes possible to realize low cost by using.

  Moreover, since containers such as PET bottles and bottles are not required as means for storing and transporting mineral water, the natural environment can be protected and low-cost mineral water can be realized.

Hereinafter, embodiments of the present invention will be described with reference to the drawings to provide an understanding of the present invention.
In the present invention, a ceramic ball in which natural ore such as barley stone, natural stone, tourmaline or the like is mixed with agglomerated or ora powder vanadium, or a ceramic ball in which far-infrared rays and an ore powder that generates negative ions are mixed. By disposing it in a water tank and immersing the tap water in the water tank for several hours, mineral components are eluted from the various ores to mineralize the tap water.

Here, the component and effect of each ore will be described in detail.
The official mineral name of barley stone is “granite porphyry”, a type of granite that has been sleeping on the seabed for hundreds of millions of years and has absorbed plenty of seawater. This barley stone contains a lot of trace elements, and by their catalytic action, it promotes chemical reactions and decomposes organic substances, and elutes minerals (iron, calcium, magnesium, silicic acid, etc.) into water. Barleystone is a porous ore, and countless small holes on the surface of the stone adsorb impurities and harmful substances such as residual chlorine, ammonia, and bacteria in the water.

  Tenju stone is a natural stone produced from soil known as Yongho, which has Mt. This natural stone contains minerals (silicon, titanium, sodium, calcium, potassium, aluminum, iron, magnesium, manganese, germanium, selenium) and has a high far-infrared emissivity. There is a feature that it is so excellent.

  Tourmaline ores are also called tourmaline, which produces electrolysis of water to make clusters smaller and generate negative ions that are said to have a positive effect on the body, and emit far-infrared rays with slight friction and temperature. This permanent effect such as negative ions has effects such as deodorizing, sterilizing, antibacterial, and maintaining freshness.

  Vanadium is said to be effective in summer, heat stroke, diabetes, diet, cerebral infarction, hypertension, beautiful skin, aging prevention, gout, heartburn, hyperacidity, constipation, etc. Therefore, it is said that it is effective in improving diabetes, blood sugar level, and cholesterol level. The basalt produced at Mt. Fuji is famous for this vanadium-rich ore. Uniform vanadium can be eluted by granulating this vanadium-rich basalt into a ceramic ball.

On the other hand, since tap water is a large cluster due to the combination of impurities, blood and cell water molecules become large clusters when taken into the body, and blood purification is not performed sufficiently, causing disease. It is also an easy cause.
Therefore, far-infrared rays cause resonance resonance action by radiative transfer, and water molecules are made into small clusters so that they can be easily taken into the details of the body. Uniform far-infrared rays can be emitted by granulating various minerals emitting far-infrared rays having an antioxidation effect by far-infrared rays into a ceramic ball shape.

Here, the specific example of the manufacturing method of mineral water is shown, respectively.
FIG. 1 shows an example of a method for producing mineral water by a large plant facility.
Tap water is stored in a water tank 1 of a water purification plant scale. And on this water tank 1, the crane A which can be conveyed to any place in the water tank 1 is provided.

  Then, the boiled barley stone 2, natural stone 3 and tourmaline 4 were mixed with vanadium ceramic balls 5 containing vanadium in the form of agglomerates or ore powder, ore powder generating far infrared rays and negative ions. The far-infrared ceramic balls 6 are respectively stored in storage containers 7, and these storage containers 7 are conveyed and arranged on the bottom surface of the water storage tank 1 by the crane A.

  Here, the various ores stored in the storage container 7 are stored in the storage container 7 after being boiled after being washed, and immersed in the water stored in the water storage tank 1 for several hours. During this time, various mineral components are eluted from the barley stone 2, natural stone 3, tourmaline 4, tourmaline 4 and vanadium ceramic balls 5 and far-infrared ceramic balls 6, which are in contact with tap water, and the water molecules are clustered by far-infrared rays. do.

  Since the mineral water treated in the water tank 1 in this way is often stored for a long period of time, water is introduced from the water tank 1 and is sterilized by ozone treatment or hypochlorite soda in another facility. Sterilization is performed, and as a final step, chlorine can be removed by heat sterilization treatment or filtration treatment, and safe and mineral-rich water can be commercialized as a plastic bottle or a household bottle.

  In large plant facilities, tap water is basically used, but groundwater, spring water, rainwater, etc. can be used depending on the installation conditions and purpose. In this case, the use of natural ore and ceramic balls is adjusted according to the water quality, and safe mineral water is produced by purification treatment and sterilization treatment.

Next, FIG. 2 shows an example of a water storage tank installed in a building such as an apartment.
A water storage tank 10 installed in a condominium or the like is formed of a synthetic resin material having excellent durability such as FRP, and a water conduit for storing tap water in the water storage tank 10 above the sealed water storage tank 10. 8 is connected, and a water supply pipe 9 is connected to the lower part of the water storage tank 10 to supply the living water of each room such as an apartment.

  Therefore, boiled barley stone 2, natural stone 3 and tourmaline 4 are combined with vanadium ceramic balls 5 containing vanadium in the form of agglomerates or ore powder, ore powder generating far infrared rays and negative ions. The far-infrared ceramic balls 6 are placed on the bottom surface of the water storage tank 10 in a state of being housed in a mesh-like storage container 7A.

  By soaking various ores and ceramic balls in the tap water stored in the water storage tank 10 in this manner for several hours, barley stone 2, natural stone 3, tourmaline 4 and vanadium ceramic balls 5 that come into contact with the tap water. Various mineral components are eluted from the far-infrared ceramic balls 6 and the water molecules are clustered by the far-infrared rays.

  In the water storage tank 10, tap water is supplied from the water conduit 8 each time tap water that has been made into mineral water after soaking various ores and ceramic balls for several hours is used. Since the growth of miscellaneous bacteria can be suppressed by the contained chlorine, there is no need to sterilize like the large plant.

  Here, the desktop tank 11 shown in FIG. 3 has an opening at the top, and a lid 12 is attached to the opening end. A faucet 13 is provided at the bottom of the desktop tank 11.

  Therefore, in the desktop tank 11, vanadium-based ceramic balls 5, in which the boiled barley stone 2, the natural stone 3 and the tourmaline 4 are mixed with agglomerated or ore powder vanadium, far infrared rays and negative ions are contained. The far-infrared ceramic balls 6 containing the generated ore powder are stored in a state where they are stacked in the storage container 7B.

  Then, by putting tap water in the tabletop tank 11 and immersing it for several hours, various kinds of materials such as barley stone 2, natural stone 3, tourmaline 4 and vanadium ceramic balls 5 and far-infrared ceramic balls 6 that come into contact with tap water are used. Mineral components are eluted and water molecules are clustered by far infrared rays.

  Since the tap water converted into mineral water in the desktop tank 11 is consumed for several days in beverages and dishes, it is possible to suppress the growth of various bacteria by chlorine contained in the tap water. There is no need to perform sterilization treatment.

  FIG. 4 shows another example of the table tank shown in FIG. 3. The table tank 11 includes a natural ore storage base 18 having an opening at the top where the faucet 13 is provided, and the natural ore storage base. A transparent detachable water storage case 19 having a lower end which can be connected to 18 is opened.

  The detachable water storage case 19 is a mechanism that is detachable in a sealed manner by a plurality of connecting members 20 on the outer periphery of the upper end of the natural ore storage base 18. A lid 12 is provided.

  Therefore, in the natural ore storage base 18, vanadium-based ceramic balls 5 in which boiled barley stone 2, natural stone 3 and tourmaline 4 are mixed with agglomerated or ora powder vanadium, far infrared rays and minus A far-infrared ceramic ball 6 containing an ore powder that generates ions is contained.

  Then, by putting tap water in the detachable water storage case 19 and immersing it for several hours, the barley stone 2, the natural stone 3, the tourmaline stone 4, the vanadium ceramic ball 5 and the far infrared ceramic ball 6 that come into contact with the tap water are used. Various mineral components are eluted and water molecules are clustered by far infrared rays.

  Next, FIG. 5 shows an example of a water supply server. The water supply server 14 includes a water storage case 15 having a transparent upper portion and a device main body 16 having a cooling device, a thermal device, a motor pump, and the like at the lower portion. The apparatus main body 16 is provided with faucets 13A and 13B for cold water and hot water.

  Therefore, at the bottom of the water storage case 15, vanadium-based ceramic balls 5 in which boiled barley stone 2, natural stone 3 and tourmaline 4 are mixed with vanadium in the form of agglomerates or ore powder, far infrared rays and negative ions The far-infrared ceramic balls 6 containing ore powder that generates water are disposed in a state of being stored in the water storage case 15.

  Then, by putting tap water in the water storage case 15 and immersing it for several hours, various kinds of materials such as barley stone 2, natural stone 3, tourmaline stone 4, vanadium ceramic ball 5 and far-infrared ceramic ball 6 that come into contact with tap water are used. Mineral components are eluted and water molecules are clustered by far infrared rays.

  The tap water that has been converted into mineral water in this way has a mechanism that can be poured from the faucet 13A or the faucet 13B as cold water or hot water by the cooling device in the apparatus main body 16 or a heating device.

  In addition, since the tap water mineralized by the water supply server 14 is consumed for several days in beverages and dishes, it is possible to suppress the growth of bacteria by the chlorine contained in the tap water. There is no need to perform sterilization treatment.

  Also, FIG. 6 shows a pot 17, a vanadium ceramic ball 5 in which boiled barley stone 2, natural stone 3 and tourmaline 4 are mixed with agglomerated or ore powder vanadium, far infrared rays. The far-infrared ceramic balls 6 containing ore powders that generate negative ions are directly put in or stored in a mesh-like storage bag (not shown).

  By soaking various ores and ceramic balls in the tap water stored in the pot 17 in this way for several hours, barley stone 2, natural stone 3, tourmaline 4 and vanadium ceramic balls 5 that are in contact with tap water, Various mineral components are eluted from the far-infrared ceramic balls 6 and water molecules are clustered by far-infrared rays.

  In addition, since the tap water mineralized by the said pot 17 is consumed in a short time, since the proliferation of miscellaneous bacteria can be suppressed with the chlorine contained in tap water, it is not necessary to perform a sterilization process.

  In the present embodiment, it is not always necessary to store various natural ores in the storage container 7, and various natural ores are directly stored in the water storage tank 1, the water storage tank 10, the table tank 11, or the water storage case 15. If you want to.

  Therefore, for 12 liters of tap water, 3 kg of water is drained every day for 5 days with a total weight of 8 kg including barley stone, natural stone, tourmaline stone, pearl stone and pearl plus far-infrared ceramic balls and vanadium ceramic balls. Table 1 below shows the results of water quality tests after immersion while repeating water injection.

財団法人 食品環境検査協会 福岡事業所
試験方法 ＊１ 平成１５年厚生労働省告示第２６１号による。

Food Environment Inspection Association Fukuoka Office Test Method * 1 Based on the Ministry of Health, Labor and Welfare Notification No. 261 in 2003.

  From the above water quality test results, it was confirmed that mineral components such as calcium, magnesium, and sodium, potassium, and vanadium contained in vanadium ceramic balls, which are abundant in barley stone, are eluted in tap water. .

  Thus, according to the present invention, various minerals possessed by natural ores and special ceramics are obtained by immersing barley stone, natural stone, tourmaline stone, far-infrared ceramic balls and vanadium ceramic balls in tap water for several hours. It is possible to elute components and special components (vanadium), and it is possible to produce delicious mineral water by accelerating the activation and purification of water by finely clustering water molecules by negative ions and far infrared effect. It becomes.

It is explanatory drawing which shows an example of the manufacturing method of the mineral water by the large plant facility by the manufacturing method of the mineral water which concerns on this invention. It is explanatory drawing which shows an example of the water storage tank installed in buildings, such as a condominium, by the manufacturing method of the mineral water which concerns on this invention. It is explanatory drawing which shows an example of the desktop tank by the manufacturing method of the mineral water which concerns on this invention. It is explanatory drawing which shows the other example of the desktop tank in FIG. It is explanatory drawing which shows an example of the water supply server by the manufacturing method of the mineral water which concerns on this invention. It is explanatory drawing which shows an example of the pot by the manufacturing method of the mineral water which concerns on this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Water tank 2 Barley stone 3 Tenju stone 4 Tourmaline stone 5 Vanadium type ceramic ball 6 Far-infrared type ceramic ball 7 Storage container 8 Water guide pipe 9 Water supply pipe 10 Water storage tank 11 Table tank 12 Lid 13 Faucet 14 Water supply server 15 Water storage case 16 Apparatus Main body 17 Pot 18 Natural ore storage base 19 Removable water storage case 20 Connecting member

Claims (4)

One or more kinds of natural ores selected from barley stone, natural stone or tourmaline stone,
A method for producing mineral water, wherein the mineral component is eluted by dipping in water. The method for producing mineral water according to claim 1, wherein one or more kinds selected from vanadium ceramic balls or far-infrared ceramic balls are blended. The method for producing mineral water according to claim 1 or 2, wherein one or more natural ores selected from pearls, boulders, or Mt. Fuji lava are blended. The method for producing mineral water according to claim 1, 2 or 3, wherein the water to be used is tap water.

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