JP4132874B2 - Mineral water generation and distribution system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
INDUSTRIAL APPLICABILITY The present invention is a mineral water generation and distribution system that generates and stores mineral water that has been modified so that tap water and well water are as delicious as Iwashimizu obtained by a natural purification system and contain many negative ions. About.
[0002]
[Prior art]
In recent years, many types of bottled mineral water have been put on the market due to increasing health consciousness and diversifying tastes, and are often used as drinking water and cooking water. However, bottled mineral water is expensive and considerably expensive compared to tap water, and is limited in terms of cost to be used for cooking water as well as tap water. In addition, bottled mineral water is bottled by purifying and reforming raw water, but deterioration progresses after a long time in the distribution process after the manufacturing process. It is not possible to obtain mineral water with negative ions that are as delicious and rich in negative ions as Iwashimizu springs from the market.
[0003]
On the other hand, as household water purifiers, there are activated carbon adsorption type with activated carbon filter, ceramic adsorption type, chemical fiber filter filtration type, reverse osmosis membrane filtration type, etc., and further, ultraviolet sterilization effect is added to those methods, There are also known water quality-modifying effects added to alkaline ionized water, acidic ionized water, and mineral water. However, while conventional water purifiers are expensive, they generally have only a single water purifying function, and each method has advantages and disadvantages, and the water purifier is completely purified by a home water purifier. It is difficult to get. In addition, by combining the reverse osmosis membrane filtration type and the activated carbon filter, relatively high clean water can be obtained, but since the water treated in this way does not contain minerals or negative ions, It is not possible to obtain negative ion natural water that is as delicious as natural Iwashimizu and contains a large amount of negative ions with a small water purifier or water conditioner installed in 1.
[0004]
[Problems to be solved by the invention]
The present invention was devised in view of the above circumstances, and reproduces the principle of Iwashimizu where rainwater flows out of the foot of the mountain through underground ore at stores, etc., and naturally purifies with underground ore free from contamination and impurities. The negative ion mineral water, which is delicious and contains a lot of negative ions, can be produced from tap water, etc., and is distributed to containers brought on the spot. It is an object of the present invention to provide a mineral water generation and distribution system that can provide a required amount of mineral water containing a large amount at a low cost.
[0005]
[Means for Solving the Problems]
The mineral water production and distribution system of the present invention that solves the above problems includes a first natural ore immersion treatment step in which the raw water cluster is made fine by passing through a tank in which natural ore is immersed, and a plurality of reverse osmosis membranes. A pure water generation process comprising a combination of water purification processes, a mineral content application process in which pure water generated in the pure water generation process is brought into contact with natural ore to provide a mineral content, and a mineral that stores the generated mineral water in a tank It comprises a water storage step and a mineral water sterilization and dispensing step of dispensing mineral water stored in a tank while sterilizing.
[0006]
By adopting tourmaline as the natural ore, negative ion mineral water containing negative ions can be obtained. In addition, for example, by adopting other natural ores such as Io-o stone, barley-stone, etc., it is possible to obtain a favorite mineral water in which minerals contained in those natural ores are eluted. In addition, as the pure water generation step, a first water purification step mainly removing chlorine and organic compounds, a second water purification step mainly removing lime and metals, and a step mainly removing mud, rust and scale. It is desirable to comprise a combination of three water purification steps, mainly a fourth water purification step for removing trihalomethanes, viruses, bacteria, and inorganic salts, but the combination is not necessarily limited thereto.
[0007]
Furthermore, the mineral content application step includes passing the running water through a tourmaline filter to elute the tourmaline-containing mineral content and generating negative ions by generating negative ions, and the tourmaline is immersed in the first step. By storing water in a secondary natural ore immersion tank, it is composed of a mineral component containing tourmaline and a negative ion water storage process that stores while adding negative ions, so there are always many negative ions regardless of the amount of distribution. The mineral water in the contained state can be dispensed. In addition, the mineral water sterilization and dispensing process is more completely completed by dispensing the negative ion water from the faucet to the post-purification process that removes a slight amount of bromine and the sterilization treatment process that sterilizes the negative ion water with ultraviolet light. Sterilized negative ion water can be dispensed. And it is desirable that the ionic water stored in the secondary natural ore immersion tank is always circulated between the secondary natural ore immersion tank and the ultraviolet germicidal lamp so that the sterilization treatment is always performed.
[0008]
DETAILED DESCRIPTION OF THE INVENTION
The mineral water generation and distribution system of the present embodiment reproduces the principle of Iwashimizu where rainwater passes through underground ore and springs from the foot of the mountain, and is similar to Iwashimizu obtained by a natural purification system that is free from contamination and impurities. Delicious natural water containing a large amount of negative ions is produced and stored from tap water, etc. so that it can be dispensed from time to time. It is a suitable negative ion natural water production apparatus for producing negative ion natural water for drinking water and cooking water in the market, etc., and distributing and selling it in containers brought to the store.
[0009]
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
FIG. 1 shows a mineral water production and distribution system according to an embodiment of the present invention. The mineral water generation and distribution system of the present embodiment includes a first natural ore immersion treatment process (1) for making water clusters fine, a first water purification process (2) for mainly removing chlorine and organic compounds, and mainly a lime content. 2nd water purification process to remove metal and metals (3), 3rd water purification process to remove mainly mud, rust and scale (4), 4th water purification process to remove mainly trihalomethane, virus, bacteria and inorganic salts ▲ 5), negative ion water production process (6) for producing negative ion water, negative ion water storage process (7) for storing the produced negative ion water by immersing it in natural ore, and removing the remaining slight bromine. It comprises a post-purification process (8) and a sterilization treatment process (9) for sterilizing negative ion water with ultraviolet rays.
[0010]
In the figure, reference numeral 1 denotes a primary natural ore immersion tank in which natural tourmaline is inserted, which is connected to a water tap through a solenoid valve or the like so that a certain amount of tap water is always stored, By dipping tourmaline into contact with it, the water cluster is made finer by the action of tourmaline. In this way, the tap water cluster is first made finer, and then the tap water is brought into a substantially pure water state through the following four stages of water purification processes mainly including a reverse osmosis membrane. In the water purification treatment, first, a carbon filter 2 is connected to the primary natural ore immersion tank 1 and water from the primary natural ore immersion tank is allowed to pass through, so that harmful ions such as chlorine ions and organic compounds are absorbed by the activated carbon. Adsorb and remove material. Next, by passing a softener 3 having an ion exchange resin inside, the lime and metal components contained therein are adsorbed to reform the tap water into soft water.
[0011]
Further, the sediment filter 4 is passed. The sediment filter is a chemical fiber filtration filter of about 5 μm and has a function of removing mud, red rust, scales and the like. Then, by finally passed through a reverse osmosis membrane filter 5 _{1 or} 5 _2, trihalomethane by reverse osmosis membrane active virus, to remove bacteria, the particulate hazardous substances, such as inorganic salts. After running through the above water purification process, tap water passes through the ore as in the case of the natural purification system, and then the clusters are made finer. Then, the filter with the respective functions is used to filter chlorine / organic compounds, lime / metal, mud. -Since rust / scale, trihalomethane, viruses, bacteria, and inorganic salts are removed, the water is efficiently purified to a pure water state. The pure water obtained in this way is further combined with natural tourmaline and other ores, which are natural ores, as follows, so that clean natural water containing a lot of negative ions and minerals comparable to Iwashimizu can be obtained. can get.
[0012]
In the embodiment shown in the figure, first, the running water gives a stimulus to the tourmaline contained in the tourmaline filter by continuously passing through a plurality (three in this embodiment) of tourmaline filters 6 connected in series. Thus, negative ions are effectively generated and water is reformed into negative ion water. Tourmaline generates negative ions by a weak current when used in water, but generates only a few negative ions in a stationary state. However, since many negative ions can be generated by stimulating tourmaline with running water as described above, negative ions can be efficiently generated and added to clean water in this embodiment. The ionic water to which negative ions are added in this way is stored in the secondary natural ore immersion tank 7 and prepared for supply. In the secondary natural ore immersion tank 7, natural tourmaline ore is stored inside, and negative ion water to which purification and negative ions are added in the previous process is further submerged and stored in tourmaline. It is refined into mellow water with no irritation, and is stored while maintaining a negative ion state by the action of tourmaline.
[0013]
The negative ion water stored in the secondary natural ore immersion tank 7 passes through the post carbon filter 8 connected to the lower part of the tank to completely remove the remaining odor, Then, after passing through the ultraviolet germicidal lamp 9 which is the final process, it is finally sterilized and supplied to the container or the like from the tap 10. When water is not supplied, the negative ion water stored in the secondary natural ore immersion tank 7 is used for the post carbon filter 8, the ultraviolet germicidal lamp 9, and the secondary natural ore immersion as shown by the broken line in the figure. It circulates between the tanks 7 at all times, is always sterilized, and maintains a sterilized washing state. In the figure, reference numerals 10, 11 and 12 denote pressure pumps, respectively, which heat the water sent to the carbon filter 2, the sediment filter 4 and the post carbon filter 8 to increase the filtration efficiency.
[0014]
The above embodiment is a case where the reverse osmosis membrane obtains sterile negative ion natural water by a combination of the main purification system and natural tourmaline ore. In the above embodiment, the primary natural ore immersion tank 1, By changing the natural ore of the tourmaline filter 6 and the secondary natural ore immersion tank 7 to, for example, other ores or mineral-added components, mineral water containing many favorite components can also be obtained.
[0015]
【The invention's effect】
As described above, according to the present invention, it is possible to obtain the natural purification system using underground ore free from contamination and impurities by reproducing the principle of Iwashimizu in which rainwater flows through underground ore and springs from the foot of the mountain at stores and the like. As with Iwashimizu, mineral water that is delicious and contains a lot of negative ions and minerals and that has a positive effect on health can be manufactured at low cost from tap water, etc. By dispensing, it is possible to provide consumers with a necessary amount of mineral water containing a large amount of negative ions immediately after production at a low cost.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an embodiment of a mineral water production and distribution system of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Primary natural ore immersion tank 2 Carbon filter 3 Softener 4 Sediment filter 5 Reverse osmosis membrane filter 6 Tourmaline filter 7 Secondary natural ore immersion tank 8 Post carbon filter 9 UV sterilization lamp 10-12 Pressure pump

Claims (5)

The first natural ore dipping process that makes the raw water cluster finer, the pure water generation process that consists of a combination of multiple water purification processes mainly consisting of reverse osmosis membranes, and the pure water generated in the pure water generation process is brought into contact with the natural ore And a mineral water application process for storing mineral water in the tank, and a mineral water sterilizing and dispensing process for sterilizing the mineral water stored in the tank while disinfecting the mineral water. A mineral water generation and distribution system characterized by The mineral water generation and distribution system according to claim 1, wherein the natural ore is tourmaline, and the generated mineral water is negative ion water containing negative ions. The pure water generating step is a first water purification step that mainly removes chlorine and organic compounds, a second water purification step that mainly removes lime and metals, and a third water purification step that mainly removes mud, rust, and scale. The mineral water production and distribution system according to claim 1 or 2, comprising a combination of a fourth water purification step mainly removing trihalomethane, virus, bacteria and inorganic salts. The mineral content applying step includes passing the running water through a tourmaline filter to elute tourmaline-containing mineral content and generating negative ions to generate negative ion water, and the secondary in which tourmaline is immersed. The mineral water production and distribution system according to any one of claims 1 to 3, further comprising a negative ion water storage step of storing while adding minerals containing tourmaline and negative ions by storing water in a natural ore immersion tank. The mineral water sterilization and dispensing step is configured to dispense negative ion water from a faucet through a post-purification process for removing bromine and a sterilization treatment step for sterilizing mineral water with ultraviolet light. Mineral water generation and distribution system as described in.

Images