KR20110052404A - A hydrogen water dispenser and a hydrogen water purifying device - Google Patents

Abstract

PURPOSE: A hydrogen water dispenser and hydrogen water purifier are provided to produce hydrogen water as necessary amount according to the preset amount and concentration. CONSTITUTION: A hydrogen water dispenser comprises an electrolytic cell(40), a dissolver(60), and a cold water bucket(50). The electrolytic cell electrolyzes water to produce oxygen and hydrogen. The dissolver produces hydrogen water by dissolving the hydrogen which is generated from the electrolytic cell'. The cold water bucket is transmitted the hydrogen water from dissolver. The cold water bucket is connected with a hot water sterilization caulk and a flash heater and discharges hot hydrogen water.

Description

A hydrogen water dispenser and a hydrogen water purifying device

The present invention relates to a hydrogen water cold and hot water machine and a hydrogen water purifier. More specifically, the present invention is an electrolytic cell that electrolyzes water to generate oxygen and hydrogen, a dissolution tank capable of dissolving hydrogen generated from the electrolytic cell to generate hydrogen water, and cold water receiving the hydrogen water from the dissolution tank. It relates to a hydrogen water cold and hot water dispenser and a hydrogen water purifier capable of discharging hydrogen water sterilized in the form of cold water, hot water, ice, including a tub.

When exposed to ultraviolet rays, the body generates large amounts of free radicals (strong oxygen) that cause all diseases.

Not all free radicals are harmful to the human body. There are kinds of active oxygen such as superoxide, hydrogen peroxide, hydrokids and radicals. Active oxygen, which is weak in oxidizing power such as superoxide and hydrogen peroxide, is necessary for the human body to expand blood vessels, nerve transmission, sperm formation, cancer It plays a role in defense and boosting immunity.

Therefore, the removal of all the active oxygen adversely affects the human body, so the research on how to selectively remove only the active oxidative strong oxygen is a situation that continues, the study is hydrogen water.

This is because hydrogen can selectively reduce hydrokis and radicals called bad free radicals that attack cells or genes without reacting with free radicals that are weak for the human body.

On the other hand, in addition to free radicals, activated carbon is indispensable in the body due to respiratory stress, food additives, drinking, smoking, vigorous exercise, ultraviolet rays, etc., and when a large amount is accumulated, the oxidation is particularly strong, which may oxidize the body. May cause aging and disease.

Hydrogen water may remove this activated carbon. When hydrogen enters the body, it is decomposed into hydrogen by the action of carbon, and atomic hydrogen combines with the excess carbon to convert it into water, thereby releasing excess carbon out of the body.

On the other hand, look at the water purifier or cold and hot water of the prior art that can generate hydrogen water as follows.

Korean Patent Application No. 2002-0081824 discloses an apparatus for generating alkaline ionized water and acidic ionized water. However, according to the prior art, since the alkaline ionized water and the acidic ionized water cannot be generated at the same time, there is a problem that any one of the alkaline ionized water or the acidic ionized water must be discarded.

Korean Patent Application No. 2008-0030036 discloses a water purifier that sterilizes using electrolyzed oxygen and hydrogen, but has no consideration of hydrogen water.

Korean Patent Application No. 2003-0018834 discloses a water purifier that generates alkaline water and acidic water through electrolysis, but also has to be generated simultaneously, so either one of them must be discarded, and especially because of high pH, inadequate water is used as drinking water. Is generated.

Korean Patent Application No. 2001-0070717 discloses a water purifier that generates weak alkaline water using tourmaline, which has a problem in that the degree of generation is insufficient and its amount cannot be adjusted.

The conventional technologies have a problem that bacteria are easily inhabited in a hot water tank when hot water is generated in common, and even when hydrogen water is generated, it is difficult to control the degree of production or its concentration.

Thus, it is intended to provide a cold and hot water machine that can effectively generate hydrogen water according to a predetermined concentration.

In addition, to provide a cold and hot water machine capable of discharging the sterilized hydrogen water in the form of cold water, hot water and ice.

In addition, it is intended to provide a safe hot and cold water from bacteria even when producing hot water.

On the other hand, it is to provide a hydrogen water purifier capable of supplying purified hydrogen water, with a purified water part.

As an embodiment for solving the above problems, the present invention is an electrolytic cell for generating oxygen and hydrogen by electrolysis of water; A dissolution tank capable of dissolving hydrogen generated from the electrolytic cell to generate hydrogen water; And a cold water tank for receiving the hydrogen water from the dissolution tank, wherein the cold water tank is connected to the cold water tank to discharge sterilized hydrogen water cold water, the instantaneous heater and The sterilization coke for hot water is connected to discharge the heated and sterilized hydrogen water hot water, and the sterilization coke for ice and ice making unit is connected to the cold water can, characterized in that to discharge the sterilized hydrogen water ice, water Provide a hydrophobic chiller.

The cold water tank may supply water to the dissolution tank, and the dissolution tank may dissolve a small number generated from the electrolytic cell in the supplied water to generate hydrogen water and resupply the cold water tank.

In addition, when the concentration in the cold water tank is less than a predetermined concentration, it is preferable that the hydrogen water from the dissolution tank is delivered to the cold water tank.

In addition, the ice container is connected to the ice making unit, the ice generated in the ice making unit can be discharged to the outside after being stored in the ice container, sterilizing water ultrasonic humidifier and compressor in the ice making unit and the ice container It is preferable to connect the ice making unit and the ice container to a sterilizing and cooling atmosphere.

In addition, the hydrogen water cold and hot water group, preferably further comprises an air dressing filter (air dressing filter) connected to the dissolution tank.

In addition, the hydrogen water cold and hot water machine further comprises a reservoir, the reservoir is preferably connected to the raw water supply can supply water to the electrolytic cell and the cold water reservoir.

In addition, the cold water sterilization coke and the hot water sterilization coke each preferably comprises a UV sterilization lamp.

In addition, the hydrogen water cold and hot water group preferably further comprises a decalcification filter, wherein the decalcification filter, the first filter material which is heat treated by mixing the ganban stone, tourmaline; A second filter material heat-treated by mixing elvan, tourmaline and zeolite; A third filter material which is heat-treated by mixing elvan, tourmaline, zeolite and precious stone; A fourth filter material heat-treated by mixing elvanite, alumina and magnetite; And a fifth filter material which is heat-treated by mixing zeolite and gemstone.

As another embodiment for solving the above problems, the present invention is an electrolytic cell for generating oxygen and hydrogen by electrolysis of water; A dissolution tank capable of dissolving hydrogen generated from the electrolytic cell to generate hydrogen water; And a purified water part receiving the hydrogen water from the dissolution tank, wherein the purified water part comprises a water storage tank receiving the hydrogen water, a purified water filter for purifying the hydrogen water, and purified water from the purified water filter. It includes a cold water tank receiving hydrogen water, the cold water sterilization coke is connected to the cold water tank can discharge the sterilized hydrogen water cold water, the instantaneous heater and hot water sterilization coke is connected to the cold water tank is heated and sterilized The present invention provides a hydrogen water purifier, which can discharge hot water of hydrogen water, and can discharge sterilized hydrogen water ice by connecting an ice sterilization coke and an ice making unit to the cold water tank.

In addition, the water purification part, a mobile storage tank which can supply raw water to the hydrogen water purifier and can be installed in a push button type in the reservoir tank; And a stage breaker for generating a pump control signal for controlling the operation of the pressure pump based on the flow rate flowing from the mobile storage tank.

By the hydrogen water cold and hot water machine according to the present invention as described above, it is possible to effectively produce hydrogen water according to a predetermined concentration, in particular can be generated in a predetermined concentration by the required amount of hydrogen water without waste water.

In addition, hydrogen water may be sterilized and discharged in the form of cold water, hot water and ice.

Hereinafter, the present invention will be described in detail with reference to the drawings.

As described above, both a cold and hot water machine using hydrogen water and a water purifier using hydrogen water are possible. 1 is a conceptual diagram of the hydrogen water cold and hot water machine according to the present invention, Figures 2 to 4 is a conceptual diagram of the hydrogen water purifier according to the present invention. 5 is a conceptual diagram of a sterilization coke that can be used in both hydrogen water cold and hot water and hydrogen water purifier.

Description of hydrogen water cold and hot water machine

With reference to Figure 1 will be described first hydrogen water cold and hot water machine according to the present invention.

Raw water is supplied from the raw water supply unit 10 to the reservoir 20. The raw water supply unit 10 may be in the form of a generally sold water bottle, or may be connected to a separate faucet and supplied. Note that it is not limited to the form in which the raw water is supplied.

The reservoir 20 temporarily stores the water supplied from the raw water supply unit 10.

Some of the water stored in the reservoir 20 flows toward the electrolytic cell 40.

Water from the reservoir 20 toward the electrolytic cell 40 is filtered through the composite filter 30. The purified water discharge valve 21 may be positioned and discharged separately to the outside.

The electrolyzer 40 electrolyzes water to produce oxygen and hydrogen. Oxygen may be discharged to the outside through the oxygen earth outlet 42, the hydrogen is supplied to the water flowing in a separate line through the hydrogen discharge port 43 to produce hydrogen water.

On the upstream side of the electrolytic cell 40, a check valve 41 may be positioned to prevent backflow.

On the other hand, a part of the water stored in the reservoir 20 is supplied to the cold water tank (50).

Hydrogen water is stored in the cold water tank 50. As the water (not the hydrogen water) is supplied from the reservoir 20 to the cold water tank 50 in which the hydrogen water is stored, the concentration of the hydrogen water is lowered, and hydrogen water must be added to adjust it to a preset concentration.

The cold water tank 50 flows water into the dissolution tank 60. Hydrogen generated from the electrolyzer 40 is supplied during the flow. The supplied hydrogen is dissolved in water in the dissolution tank 60 to produce hydrogen water, and the hydrogen water thus generated is supplied to the cold water tank 50 again. In this manner, the concentration of hydrogen water in the cold water tank 50 can be adjusted to a predetermined concentration.

The predetermined concentration of the hydrogen water in the cold water tank 50 may be input by the manufacturer by setting a desired concentration, or may be set by the user through a separate input unit (not shown). The concentration thus set is recorded and stored in the controller (not shown).

A concentration sensor (not shown) may be located in the cold water tank 50 to measure the hydrogen water concentration. When the measured concentration in the cold water tank 50 is less than a predetermined concentration, water is supplied to the dissolution tank 60 and the dissolution tank is discharged. Hydrogen water can be supplied from 60.

In this manner, the hydrogen water concentration in the cold water tank 50 can be adjusted to a predetermined concentration. The predetermined concentration may be suitable for drinking hydrogen water and may be advantageous for the human body, and the standard may be different for each person who drinks it or for each situation. Therefore, the specification will be omitted.

On the other hand, the pressure pump 61 may be positioned for smooth flow between the cold water tank 50 and the dissolution tank 60.

In addition, an air dressing filter (not shown) and an air dressing valve (not shown) may be connected to the dissolution tank 60. Dissolution of hydrogen in the dissolution tank 60 may be facilitated by the air dressing filter.

Hydrogen water in the cold water tank 50 is discharged in the form of cold water, hot water, ice.

Cold water is discharged to the outside through the cold water discharge pipe (70). A cold water sterilization coke 75 is positioned at the end of the cold water discharge tube 70 to discharge sterilized hydrogen water cold water. By placing the sterilizing cock at the discharging tube end, it is possible to protect the cold water from the bacteria during the discharging. Description of specific sterilization coke will be described later.

Hot water is discharged to the outside through the hot water discharge tube (80). The hot water discharge tube 80 is equipped with an instantaneous heater 81 to generate cold water by heating cold water only when necessary. This is because when the hot water tank is separately set, bacteria and viruses may be generated in the hot water tank by warm temperature and humidity. At the end of the hot water discharge tube 80, a sterilizing coke 85 for hot water is positioned to discharge sterilized hydrogen water hot water.

Cold water is supplied to the ice making unit 92 through the ice making tube 90, and ice is formed in the ice making unit 92. Before being supplied to the ice making unit 92, the ice sterilizing coke 95 is passed through, so that the sterilized hydrogen water cold water is formed into ice.

The sterilized hydrogen water cold water is sprayed by the nozzle 91 in the ice making unit 92 and is formed of ice in the ice making unit 92 in which a cooling atmosphere is formed by the compressor 94. The ice formation method in the ice-making part 92 is also possible by other conventional methods.

Meanwhile, the ice making unit 92 may be set to a sterilizing atmosphere by the sterilizing water ultrasonic humidifying unit 93. The sterilizing water ultrasonic humidifier 93 may set the inside of the ice making unit 92 to a sterilizing atmosphere by spraying the sterilizing water into the ice making unit 92 based on the ultrasonic humidifying principle.

In addition, the ice maker 92 may be connected to the ice container 96, so that the ice produced by the ice maker 92 is primarily stored in the ice container 96, and the user is stored in the ice container 96. Ice can be discharged to the outside.

Similar to the ice making unit 92, the ice container 96 may be set to a cooling and sterilizing atmosphere by the compressor 94 and the sterilizing water ultrasonic humidifying unit 93.

On the other hand, a descaling filter (not shown) may be employed to remove the descaling from the supplied raw water. The descaling filter may be installed on the conduit connecting the dissolution tank 60 and the cold water tank 50, but the installation location is not limited.

The descaling filter may use natural minerals as five filter materials to maximize the descaling effect. The filter materials are as follows.

1st filter material which heat-treated by mixing elvan and tourmaline

Second filter material heat-treated by mixing elvan, tourmaline and zeolite

3rd filter material which heat-treated by mixing elvan, tourmaline, zeolite, and gemstone

4th filter material which heat-treated by mixing elvanite, alumina, and magnetite

5th filter material which heat-processed by mixing zeolite and precious stone

By using the above natural ore as five filter materials separately, ions capable of removing calcification from each filter material can be extracted to supply the user with the decalcified hydrogen water.

Description of Hydrogen Water Purifier

2 is a conceptual diagram of a hydrogen water purifier according to the present invention.

The water purifier according to the embodiment of the present invention shown in FIG. 2 includes a separate water purification part 50 'at the location of the cold water tank 50 of the cold / hot water machine shown in FIG. The composite filter 30, the electrolytic cell 40, the oxygen discharge port 42, the hydrogen discharge port 43, and the like are the same as those shown in FIG.

The purified water part 50 ′ includes a mobile storage tank 210, a water storage tank 220, a water circuit breaker 230, and a cold water tank 260.

The mobile storage tank 210 is a bucket for storing raw water to be supplied, and is a tank of a synthetic resin series that a user can carry. In one preferred embodiment, the dosage is from 2 to 10 liters. As used herein, the term "raw water" should be understood as a broad concept that refers to water that is available for human drinking through water purification processes such as bottled water, mineral water, and tap water.

In the case of a mobile water purifier using the mobile storage tank 210, the separate raw water supply unit 10, the reservoir 20 is not required. However, when the separate raw water supply unit 10 and the reservoir 20 are not used, it is a matter of course that the raw water to be delivered in the electrolytic cell 40 through a separate pipe in the purified water part 50 '.

The reservoir tank 220 includes a reservoir filter 235 (see FIG. 3). The reservoir filter 235 may purify the raw water flowing into the reservoir tank 220. In one embodiment may include red mudstone, green mudstone, anion ceramic ball, zeolite, activated carbon, tourmaline ball, antibacterial ball, long fiber, etc., a nonwoven fabric may be formed between each filter layer.

On the other hand, in the dissolution tank 60 is dissolved in water to produce hydrogen water, the hydrogen water generated in this way is supplied to the storage tank 220 again. In this way, the concentration of hydrogen water in the storage tank 220 can be adjusted to a predetermined concentration, and the details thereof are the same as in the above-mentioned cold and hot water machine.

The stage breaker 230 generates a pump control signal 231 which determines whether the pressurized pump 61 is operated based on the flow rate flowing into the water storage tank 220.

The purified water filter 250 purifies the raw water obtained from the internal supply pipe 242 and supplies purified water for human drinking. In one embodiment, the water filter 235 may comprise the descaling filter described above.

3 illustrates a combined portion of the mobile storage tank and the storage tank.

In FIG. 3, the outlet 212 of the mobile storage tank 210 may be connected to the inlet 224 of the reservoir tank 220 in a push button manner. When the mobile storage tank 210 is seated on the upper portion of the water storage tank 220, it is opened by the push button 222 of the outlet 212, the raw water flowing out through the open outlet 212 is the storage tank 220 It is introduced into the reservoir 225 in the reservoir tank 220 through the inlet 224 of the.

The stage breaker 230 generates a pump control signal 231 that determines the operation of the pressure pump 240 based on the flow rate of the raw water introduced into the inlet 224 to determine whether the pressure pump 240 is operating or not. The flow rate introduced into the filter 250 is adjusted.

In one embodiment, when the flow rate lower than 550ml / min is sensed to block the flow rate flowing into the water filter 250 by blocking the operation of the pressure pump 240, flow rate of 550ml / min or more If detected, the pressure pump 240 is operated. This can prevent unnecessary power consumption.

4 illustrates the internal structure of the cold water tank 260.

The cold water tank 260 includes an upper room temperature water tank 266 and a lower cold water tank 268. The room temperature water tank 266 and the cold water tank 268 are separated by the separating plate 269, and the separating plate 269 is spaced apart from the outer wall of the cold water tank 260 by a predetermined distance D. The raw water purified by the water filter 250 may be introduced through the cold water inlet pipe 252 and stored in the cold water tank 260, and may be moved and stored in the cold water tank 268 through the spaced portions.

The ball tower 267 may be installed in the cold water tank 260, and the floating control unit 265 may generate the floating control signal 261 to control the operation of the pressure pump 60.

A compressor 263 may be installed in the cold water tank 268 to cool the purified water stored in the cold water tank so that the cooled water may be discharged through the cold water discharge tube 70 and the ice making tube 90. Water before cooling may be discharged through the hot water discharge pipe (80).

The antibacterial ball 280 is located in the cold water tank 260 to suppress the bacteria.

The material of the descaling filter, the air dressing filter, the ice making unit, the flow of feedback hydrogen water, etc. are applicable to the hydrogen water purifier as in the hydrogen water cold and hot water bar, and thus a detailed description thereof will be omitted.

Sterilization coke of hydrogen water cold / hot water and hydrogen water purifier

5 shows a sterilizing coke of the present invention. Although the sterilization coke 75 for cold water is illustrated, the same may be applied to the sterilization coke 85 for hot water.

Cold water sterilization coke 75 is characterized in that the UV sterilization lamp 610 is formed in the water intake pipe (620). Through this, ultraviolet sterilization can be achieved, which can remove harmful germs that are not purified, and the aesthetics of the UV sterilizing lamp 610 may be added to the beverage by adding aesthetics.

Preferably, the UV sterilization lamp 610 is positioned at the portion where the intake pipe 620 is bent from the horizontal path 623 to the vertical path 624. This is because it is easy to maintain and manage and does not allow ultraviolet rays to directly contact the eyes of the user.

On the other hand, the silicon packing (601, 602) is preferably located around to prevent the cold water flows into the UV sterilization lamp (610).

The sterilizing coke 75 for cold water includes an upper housing 630. The upper housing 630 protects internal circuits such as the power supply line 603 of the UV germicidal lamp 610 and prevents ultraviolet rays from directly touching the eyes of the user.

In addition, the intake pipe 620 is preferably formed of a stainless material, not a synthetic resin-based material of the general intake pipe. It can enhance sterilization effect and reflect light to enhance aesthetics.

Although described above with reference to a preferred embodiment of the present invention, those of ordinary skill in the art various modifications and variations of the present invention within the scope and spirit of the present invention described in the claims below It will be appreciated that it can be changed.

1 is a schematic diagram showing the fluid flow of the hydrogen water cold and hot water heater according to an embodiment of the present invention.

Figure 2 is a schematic diagram showing the fluid flow of the hydrogen water purifier according to an embodiment of the present invention.

FIG. 3 illustrates a coupling portion of the mobile storage tank and the storage tank of FIG. 2, and FIG. 4 illustrates the internal structure of the cold water tank of FIG. 2.

5 shows a sterile coke.

Claims (17)

An electrolytic cell that electrolyzes water to produce oxygen and hydrogen; A dissolution tank capable of dissolving hydrogen generated from the electrolytic cell to generate hydrogen water; And Including a cold water tank receiving the hydrogen water from the dissolution tank, As hydrogen water cold and hot water machine, Cold water sterilization coke is connected to the cold water container can discharge the sterilized hydrogen water cold water, instantaneous heater and hot water sterilization coke is connected to the cold water container can discharge the heated and sterilized hydrogen water hot water, and Ice making unit is connected to the cold water container, characterized in that to discharge the sterilized hydrogen water ice, Hydrogen water chiller. The method of claim 1, The cold water can supply water to the dissolution tank, The dissolution tank may dissolve a small number generated from the electrolytic cell in the supplied water to generate hydrogen water and resupply to the cold water tank, Hydrogen water chiller. The method of claim 2, When the concentration in the cold water tank is less than a predetermined concentration, characterized in that the hydrogen water from the dissolution tank is delivered to the cold water tank, Hydrogen water chiller. 4. The method according to any one of claims 1 to 3, An ice container is connected to the ice making unit, and the ice generated in the ice making unit may be discharged to the outside after being stored in the ice container. Sterilizing water ultrasonic humidifier and compressor is connected to the ice making unit and the ice container, characterized in that the ice making unit and the ice container can be set to the sterilization and cooling atmosphere, Hydrogen water chiller. 4. The method according to any one of claims 1 to 3, The hydrogen water cold and hot water machine, characterized in that further comprises an air dressing filter (air dressing filter) connected to the dissolution tank, Hydrogen water chiller. 4. The method according to any one of claims 1 to 3, The hydrogen water cold and hot water group further includes a water tank, The reservoir is connected to the raw water supply, characterized in that for supplying water to the electrolytic cell and the cold water reservoir, Hydrogen water chiller. 4. The method according to any one of claims 1 to 3, The cold water sterilization coke and the hot water sterilization coke each characterized in that it comprises a UV sterilization lamp, Hydrogen water chiller. 4. The method according to any one of claims 1 to 3, The hydrogen water cold and hot water machine, characterized in that further comprising a decalcification filter, Hydrogen water chiller. The method of claim 8, The descaling filter, A first filter material heat-treated by mixing elvan and tourmaline; A second filter material heat-treated by mixing elvan, tourmaline and zeolite; A third filter material which is heat-treated by mixing elvan, tourmaline, zeolite and precious stone; A fourth filter material heat-treated by mixing elvanite, alumina and magnetite; And 5th filter material which heat-processed by mixing zeolite and precious stone Characterized in that it comprises a, Hydrogen water chiller. An electrolytic cell that electrolyzes water to produce oxygen and hydrogen; A dissolution tank capable of dissolving hydrogen generated from the electrolytic cell to generate hydrogen water; And Including the purified part receiving the hydrogen water from the dissolution tank, As hydrogen water purifier, The water purification part includes a reservoir tank for receiving the hydrogen water, a water filter for purifying the hydrogen water, and a cold water tank for receiving the hydrogen water purified from the water filter. Cold water sterilization coke is connected to the cold water tank can discharge the sterilized hydrogen water cold water, instantaneous heater and hot water sterilization coke is connected to the cold water tank can discharge the heated and sterilized hydrogen water hot water, and Ice making unit is connected to the cold water tank, characterized in that to discharge the sterilized hydrogen water ice, Hydrogen Water Purifier. 11. The method of claim 10, The reservoir tank may supply water to the dissolution tank, The dissolution tank is characterized in that to dissolve a small number generated from the electrolytic cell in the supplied water to produce hydrogen water and resupply to the reservoir tank, Hydrogen Water Purifier. The method of claim 11, When the concentration in the reservoir tank is less than a predetermined concentration, the hydrogen water from the dissolution tank is characterized in that the transfer to the reservoir tank, Hydrogen Water Purifier. The method according to any one of claims 10 to 12, The hydrogen water purifier, characterized in that it further comprises an air dressing filter (air dressing filter) connected to the dissolution tank, Hydrogen Water Purifier. The method according to any one of claims 10 to 12, The cold water sterilization coke and the hot water sterilization coke each characterized in that it comprises a UV sterilization lamp, Hydrogen Water Purifier. The method according to any one of claims 10 to 12, The integer part, A mobile storage tank 210 capable of supplying raw water to the hydrogen water purifier and installed in a push button type in the reservoir tank; And The stage breaker 230 for generating a pump control signal for controlling the operation of the pressure pump based on the flow rate flowing from the mobile storage tank Characterized in that it comprises a, Hydrogen Water Purifier. The method according to any one of claims 10 to 12, The hydrogen water purifier is characterized in that it further comprises a descaling filter, Hydrogen Water Purifier. The method of claim 16, The descaling filter, A first filter material heat-treated by mixing elvan and tourmaline; A second filter material heat-treated by mixing elvan, tourmaline and zeolite; A third filter material which is heat-treated by mixing elvan, tourmaline, zeolite and precious stone; A fourth filter material heat-treated by mixing elvanite, alumina and magnetite; And 5th filter material which heat-processed by mixing zeolite and precious stone Characterized in that it comprises a, Hydrogen Water Purifier.

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