KR20130031504A - Purifier to supply hydrogen water - Google Patents

Abstract

PURPOSE: A hydrogen water supplier is provided prevent the loss of activated water and to prevent the recombination of electrolyzed activated oxygen and activated hydrogen. CONSTITUTION: A hydrogen water supplier electrolyzes water to hydrogen and oxygen by supplying DC power to the electrode terminals of a negative electrode and positive electrode which are arranged around water. The hydrogen water supplier includes a reservoir(10), an oxygen discharge induction pipe(51), and an electrode terminal rod(40). The reservoir stores supplied water. The oxygen discharge induction pipe is installed in a longitudinal direction of the reservoir. The electrode terminal rod is the electrode terminal of a positive electrode which is installed by being inserted in the oxygen discharge guiding pipe.

Description

Purifier to supply hydrogen water

The present invention produces hydrogen water by adding purified water, electrolyzing the purified water into hydrogen and oxygen, and supplying hydrogen water to drink the produced hydrogen water drink. It is about.

In particular, the electrode terminal rod of the positive electrode that is allocated a restricted area separately through the oxygen discharge induction pipe inside the tank, and the electrode terminal plate of the other negative electrode is installed in the other region of the tank. Eventually, when the electrolysis using the electrode terminal plate and the electrode terminal rod, the electrolytic hydrogen in the water tank can be produced naturally as hydrogen water while preventing the water bond, and the hydrogen water decomposed in the water tank outside the The present invention relates to a hydrogen water supply for supplying hydrogen water so that it can be taken out and drinking.

In general, a hydrogen water purifier is used by electrolyzing water, decomposing hydrogen and oxygen, and collecting hydrogen generated at the negative electrode side and drinking the hydrogen water containing hydrogen gas.

When hydrogen water penetrates into the body, it has a known effective effect that the hydrogen atom, which is an antioxidant, removes the active oxygen present in the bad parts of the body, thereby making the body healthy. Therefore, in recent years, more and more households are using hydrogen water generators directly in water purifiers.

However, such a conventional hydrogen water generator (= hydrogen water purifier) has a number of problems.

That is, in the conventional conventional hydrogen water generator 10 as shown in Fig. 1, the purified water passed through the filter 1 of the water purifier is put in the water purification container 2, and the negative electrode (-) 3) and (+) positive electrode (4) to apply electricity to the electricity. Then, each of the electrodes is energized to form hydrogen and oxygen on the electrodes, respectively. The general chemical reaction is as follows.

(-) of the negative ^{_{electrode: 4H 2 O + 4e - →}} 2H 2 + 4OH -

(+) Positive _{electrode: 2H 2 O → O 2 +} 4H + + 4e -

Total _{reaction: 6H 2 O → 2H 2 +} O 2 + 4OH - + 4H +

→ 2H ₂ O → 2H ₂ + O ₂

Water is decomposed into hydrogen and oxygen at the negative and positive electrodes. At this time, in the decomposed state, the water inside the purified water container 2 is drained out by the tap 5, and this water is called, and this water is called hydrogen water. However, in fact strictly speaking, the electrolyzed water inside the purified water container is not hydrogen water.

When electricity is applied to the negative electrode and the positive electrode, hydrogen and oxygen are ejected in the same bath, respectively. As shown in the above formula, hydrogen and oxygen coexist in the same water tank (= water tank). Activated hydrogen and free radicals recombine with each other. Decomposed hydrogen and oxygen are reduced back to water (reduced water) to form reduced water. Although it was desired to obtain a large amount of hydrogen water through electrolysis, it is not clear how much hydrogen content of the hydrogen water is, and it is obvious that it is not contained because it is reduced in structure of the chemical reaction and changed back into water. Previously, prior art has recognized this water as an anti-oxidant pandemic hydrogen water.

Looking at the problem in the prior art in more detail as follows.

First, active hydrogen produced by decomposition also has many problems. This hydrogen water, which is receiving the best spotlight as a healthy water in each household, is produced through the hydrogen water purifier as shown in FIG. 1 to drink water. Although not shown, the water purifier of FIG. Risks exist in the way of producing hydrogen water by placing a diaphragm in the middle of the electrode and managing hydrogen gas separately from oxygen gas. This hydrogen water purifier is used like a stove in each home kitchen. In a hydrogen water purifier (= hydrogen water generator), the presence of hydrogen gas collected in a space and then enhanced activity by gas stove fire is quite dangerous. At some point, there is a possibility of being exploded by hydrogen gas, and therefore, there is a danger that a home installed with a conventional hydrogen water purifier will be displaced in an instant. The majority of hydrogen water purifiers currently implemented and sold are at high risk of hydrogen explosion.

Hydrogen treatment method of more stable hydrogen water purifier should be structured so that it exists like water in a limited space without strict error and there is no space where only hydrogen gas exists separately. This is the only way to prevent the risk of hydrogen explosion.

Next, there are many problems of free radicals generated by decomposition. Active oxygen has strong oxidizing power, so when it comes into contact with iron, it oxidizes iron immediately, making iron oxide and rusting. The active oxygen, which is harmful to health, which is generated in the body, especially when a person exercises, or the unhealthy free radical, which is produced during metabolism of somatic cells in the human body, oxidizes the skin when it comes into contact with the human skin, thereby promoting aging. In particular, blood and blood vessels are oxidized to create blood clots (thrombosis), which prevents capillaries during blood circulation, causing various diseases due to impairment of blood circulation in each organ, causing problems. Therefore, drinking only active oxygen should be thoroughly blocked, the conventional hydrogen water purifier did not completely solve this problem.

In more detail, the problem of the conventional hydrogen water purifier is described with reference to Figure 1, the active hydrogen is ejected from the (-) negative electrode in the purified water tank (= electrolytic bath) and the active oxygen is ejected from the positive electrode It is delivered in the same bucket. This is due to the fact that the electrolyzed hydrogen and oxygen meet again in the purified water tank and change into reduced water. This is because the recycled hydrogen gas and oxygen gas meet again to recycle the water, the water in the water purification tank (2) is not strictly hydrogen water. We were drinking this water by turning the faucet (5).

In order to solve this problem, other products have been carried out in the past. This technology separates active hydrogen water and active oxygen water into a barrier to manage active hydrogen gas separately, and there are many problems with this technology. Hydrogen water purifier is because the active hydrogen gas stores only the active hydrogen as the bubble rises in the water, there is a risk of explosion because there is a separate storage space only active hydrogen gas.

As a result, the conventional hydrogen water purifiers did not solve all of these problems, and thus were expected to create more innovative technologies. The present invention is such an invention.

The present invention produces hydrogen water by adding purified water, electrolyzing the purified water into hydrogen and oxygen, and supplying hydrogen water to drink the produced hydrogen water drink. To provide.

In particular, the electrode terminal rod of the positive electrode that is allocated a restricted area separately through the oxygen discharge induction pipe inside the tank, and the electrode terminal plate of the other negative electrode is installed in the other region of the tank. Eventually, when the electrolysis using the electrode terminal plate and the electrode terminal rod, the electrolyzed hydrogen in the water tank prevents oxygen and underwater bonds, while safely reducing water is produced by combining hydrogen and oxygen element in the upper space of the water tank and naturally produced by hydrogen water. It is possible to provide, and to provide a hydrogen water supply for supplying the hydrogen water to be taken out by drinking the decomposed hydrogen water from the water tank to the outside faucet.

Hydrogen water supply for supplying hydrogen water in accordance with the present invention, in the hydrogen water supply for supplying power to the electrode terminals of the cathode and anode arranged with water interposed between, a water tank for storing the supplied water 10; Oxygen discharge induction pipe 51 is installed in the longitudinal direction inside the water tank (10); And an electrode terminal rod 40 which is an electrode terminal of a positive electrode inserted into and installed inside the oxygen discharge induction pipe 51. When the current flows through the power terminal of the negative electrode and the positive electrode, the water tank 10 is inside. Electrolysis occurs at, but the oxygen rises to the restricted area inside the oxygen discharge induction pipe 51 to block the decomposition of the decomposed oxygen and hydrogen in water: Oxygen in the upper "B" space of the water tank (10) , Making reduced water by hydrogen element bonding; the electrode terminal of the negative electrode is built in the tank 10, the electrode terminal plate 30 of the negative electrode is installed to have a wide contact area in the plate shape at the bottom of the tank (10) do.

In addition, according to the hydrogen water supply for supplying hydrogen water of the present invention, the electrode terminal plate 30 of the negative electrode and the electrode terminal rod 40 of the positive electrode, through the rectifier 31 for receiving AC current and rectifying it to DC output Received current: The oxygen discharge induction pipe 51 of the electrode terminal rod 40 of the positive electrode, to be detachably coupled to one side of the inner circumferential surface of the tank 10 through the detachable means (A): oxygen discharge induction The pipe 51 has the shape of a cylindrical and polygonal hollow shape.

In addition, according to the hydrogen water supply for supplying the hydrogen water of the present invention, the lower end of the oxygen discharge induction pipe 51 forms a funnel 52 in the form of upper and lower light: the funnel of the oxygen discharge induction pipe 51 The portion of the water tank 10 facing the center portion of the water tank 10 integrally forms an inner concave blocking film 53 to prevent the hydrogen gas and the oxygen gas from contacting each other: inside the water tank 10. The inner wall 21 is formed by dividing a predetermined space, the upper surface of which has an open portion 22, the upper end of which is installed at a lower position than the highest water level, and the lower part of the inner wall 21 has a water supply port 23 It further includes an internal hydrogen cylinder 20 is formed is provided with an underwater compartment, where the hydrogen gas is further collected.

In addition, according to the hydrogen water supply for supplying hydrogen water of the present invention, the electrode terminal rod 40 of the positive electrode is installed at a higher, lower position than the electrode terminal plate 30 of the negative electrode, the decomposed hydrogen gas is decomposed oxygen gas Do not combine with the water: to the water tank (10), by connecting the water purifier filter (60) communicated through the inlet pipe (61), so as to inject the purified tap water: in communication with the water tank (10) At the end of the inlet pipe 61, a buzzer 62 interlocking in the up and down direction is provided, and when the buzzer 62 reaches a certain level, the inlet pipe 61 is blocked to control the supply of water.

In addition, according to the hydrogen water supply for supplying hydrogen water of the present invention, the upper end of the water tank 10 is coupled to the cover plate 70 to be rotated through the hinge 71, the other end of the hinge 71 The fastening part 72 is formed so that the cover plate 70 can be easily attached and detached. The through-hole 35 penetrating in the vertical direction is formed in the electrode terminal plate 30 of the cathode in which hydrogen is produced, thereby producing hydrogen. Enhancement: The electrode terminal plate 30 of the negative electrode where hydrogen is produced forms an uneven electrode terminal plate 30-1, which is bent to form a concave-convex cross section, thereby improving the area interviewed with water compared to the size. .

According to the present invention, water is electrolyzed in the tank, but in the case of oxygen, oxygen raised through the oxygen discharge induction pipe and hydrogen in the tank are raised without raising contact with the upper part of the tank so that there is a risk of explosion or underwater bonding. It has the advantage of being removed.

In addition, according to the present invention, the active hydrogen (H ₂ ) emitted from the electronic terminal of the cathode and the active oxygen (O) discharged to the upper portion of the oxygen discharge induction pipe are combined again with water (H ₂ O) in the space portion of the upper portion. It is a useful invention that blocks the outflow of free radicals through the process of natural reduction, and the recombination of active oxygen and free radicals in the water is blocked.

In addition, according to the present invention, while obtaining a rich structure of active hydrogen water by the circulating principle in a safe structure, there is no place where active hydrogen gas is collected in the empty space can block the risk of hydrogen explosion, which is advantageous for safety and health There is this.

1 is a view showing a conventional general hydrolysis device,
Figure 2 is a perspective view showing the overall hydrogen water supply according to the present invention,
3 is a cross-sectional view showing the hydrogen water supply section according to the present invention;
4 is a cross-sectional view showing the hydrogen water supply (= water purifier) of another embodiment according to the present invention;
5 is a view showing an oxygen discharge induction pipe according to the present invention,
6 is a view showing a negative electrode terminal plate of the hydrogen water supply according to the present invention,
7 is a view showing another embodiment of the negative electrode terminal plate of the hydrogen water supply according to the present invention.

The present invention relates to a hydrogen water supply for generating hydrogen water by adding purified water.

Therefore, the configuration and operation of the present invention will be described in detail with reference to FIGS. 2 to 7. As shown in the figure, there is a water tank (10) for storing the supplied water, and is built in the water tank (10), there is an electrode terminal plate 30 of the negative electrode installed in the bottom of the water tank (10), the water tank Inside the 10, there is an oxygen discharge induction pipe 51 installed in the longitudinal direction and an electrode terminal rod 40 of a positive electrode inserted therein. Therefore, when these are combined and electric current flows through the cathode and the anode, when electrolysis occurs inside the water tank 10, hydrogen is generated by the electrode terminal plate 30 of the cathode, and the electrode terminal rod 40 of the anode is formed. In the oxygen is generated so that the drinking water through the tap (26) communicated with the water tank (10).

The structural feature of the present invention is that two electrodes are installed inside the water tank 10, one side of the electrode terminal plate 30 of the cathode and the other side of the electrode terminal rod 40 of the anode. The inner side of the water tank 10 is plate-shaped electrodes are laid on the lower portion, the negative electrode terminal plate 30 of the negative electrode having a (-) pole. In order to generate a large amount of hydrogen through the electrolysis in the electrode terminal plate 30 of the negative electrode in the present invention, the form of the terminal in the form of a plate or panel. Consideration is given to having more contact surfaces with water so that the electrolysis can be facilitated.

The positive electrode terminal rod 40 corresponding thereto is mounted on another portion of the water tank 10. Although it is spaced apart from the electrode terminal plate 30 of the negative electrode is to be installed inside the tank 10 so that the current can be energized.

If a current is applied from an external power source and current flows through the electrode terminal plate 30 of the cathode and the electrode terminal rod 40 of the anode, the current flows due to the flow of current between the anodes and the tank Water inside the tub 10 is electrolyzed to separate hydrogen and oxygen. The more accurate chemistry of the electrolysis is the state described in the above-described prior art, so the details are avoided, but hydrogen is ejected to the electrode terminal plate 30 of the cathode, and the electrode terminal rod 40 of the anode is Oxygen is ejected.

A large amount of hydrogen water is present in the electrode terminal plate 30 from which hydrogen is ejected and its surroundings. It is this hydrogen that we drink. The water tank 10 couples the faucet 26 to the outside to allow the hydrogen water to be discharged immediately, as shown in FIGS. Thus, hydrogen water is produced through electrolysis, and the generated hydrogen water can be drunk immediately.

In addition, the electrode terminal rod 40 of the positive electrode in the present invention is coupled to the inner circumferential surface of the tank 10, the oxygen discharge induction pipe 51 surrounding the outside of the electrode terminal rod 40 is formed, the oxygen discharge The up and down direction of the oxygen discharge induction pipe 51 for the open and the top of the tube to be always exposed to the air layer "B" space beyond the highest water level. This is very important in the present invention. The present invention is to block the gasified active oxygen and the gasified active hydrogen in an independent state as described above, to block the explosiveness and the underwater binding. In addition, the active oxygen and active hydrogen in the water tank (10) to directly contact the blocking phenomenon of reducing to water and oxygen and hydrogen in the "B" space above the surface of the water to combine to reduce the reducing water. Oxygen exhaust induction pipe 51 according to the present invention is a configuration that can block such a problem fundamentally.

When active hydrogenated gas is produced in the electrode terminal plate 30 of the cathode, active oxygen is generated in the electrode terminal rod 40 of the anode. The free radicals thus produced are transported to achieve a chemical balance, which is lighter than water, so it floats in water. Hydrogen generated in the electrode terminal plate 30 of the cathode corresponding thereto is also lighter than water, and moves to the upper portion of the water tank. In this process, if hydrogen and oxygen ejected from the electrode terminal plate 30 and the electrode terminal rod 40 meet in the water, the result is a reduction to water. Electrode oxygen discharge induction pipe 51 of the present invention has a physical structure that can fundamentally block the problem of such reduced water in water.

Oxygen molecules decomposed through electricity around the electrode terminal rod 40 of the anode surrounded by the electrode oxygen discharge induction pipe 51 are lighter than water and thus only rise to the upper portion of the electrode oxygen discharge induction pipe 51. According to this rise, only oxygen rises to the upper part of the water tank 10 of this invention. In the electrode terminal plate 30 or the internal hydrogen cylinder 20 which will be described later, active hydrogens generated and discharged by rising hydrogen gas meet in the upper “B” space of the water tank 10 to be reduced to water, and remaining hydrogen or oxygen molecules. Are naturally combined in the upper "B" space and returned to the source water. This operation will be described later, but the above-described oxygen discharge induction pipe 51 surrounds the electrode terminal rod 40 of the anode in an outer state and penetrates up and down to generate active oxygen generated in the upper portion “B” of the water tank 10. It plays an important role in releasing space. In order to perform this operation more accurately and surely, the upper end of the oxygen discharge induction pipe 51 is always formed higher than the water level compared to the water level filled in the water tank 10, and the water is always It should be built with the water level adjusted.

Next, according to the present invention, the electrode terminal plate 30 of the negative electrode and the electrode terminal rod 40 of the positive electrode are supplied with current through the rectifying unit 31 which receives AC current and rectifies and outputs it to DC. That is, the current directly entering the hydrogen water supply of the present invention is a direct current. But the current coming into our home is alternating current. In order to make this conversion, the hydrogen water supply of the present invention is equipped with a separate rectifier. The built-in rectifier converts the alternating current into direct current, but supplies constant voltage by adjusting the current and voltage so that even current can be applied.

Further embodiments of the present invention will be described with reference to the drawings.

2 to 5, the oxygen discharge induction pipe 51 of the electrode terminal rod 40 of the positive electrode, to be detachably coupled via a detachable means (A) on one side of the inner peripheral surface of the tank (10). It is preferable.

3 and 4 illustrate a state in which the oxygen discharge induction pipe 51 and the water tank 10 are coupled through the cross-sectional view. Oxygen exhaust induction pipe 51 has a narrow diameter compared to the tank 10, and sometimes there is a possibility that foreign matter is caught in the inner peripheral surface. If the oxygen discharge induction pipe 51 is firmly fastened to the inner circumferential surface of the water tank 10, it is difficult to clean the inner circumferential surface of the oxygen discharge induction pipe 51. If the oxygen discharge induction pipe 51 can be detachably and conveniently detached, the oxygen discharge induction pipe 51 can be separated from the water tank 10 and cleaned. Therefore, the present invention is provided with a separate fastening means (A) that can couple the oxygen discharge induction pipe 51 to the inner peripheral surface of the tank (10). This fastening means (A) is not a complicated configuration but a very simple structure. Although not shown in the drawing, protrusions protruding from the outer circumferential surface of the oxygen discharge induction pipe 51 may be formed, and grooves corresponding to the inner circumferential surface of the water tank 10 may be formed and fitted to each other. In order to bond more firmly may be formed a locking step in the projection end of the oxygen discharge induction pipe 51, a corresponding step may be formed in the groove in the tank 10 corresponding to this. In addition, the groove may be formed long in the longitudinal direction to be fitted in the form of a rail to combine. All of them may use a simple known method.

Such oxygen discharge induction pipe 51 is preferably in the shape of a cylindrical and polygonal hollow shape. Since the electrode terminal rod 40 is to be inserted into the oxygen discharge induction pipe 51, it must exist as an empty space. When water is decomposed and free radicals are released, light oxygen must be released into the upper "B" space compared to water through the empty space inside. In order to perform this function, the oxygen exhaust induction pipe 51 of the present invention may have any shape in the cross section of the outer portion. After all, it may be a cylindrical shape or a variety of polygons such as triangles, squares, and pentagons.

In addition, the lower end of the oxygen discharge induction pipe 51 is preferably formed with a funnel 52 in the form of the upper and lower light. As described above, the oxygen discharge induction pipe 51 receives oxygen when the electrode terminal rod 40 of the anode is received inside to electrolyze water. Oxygen is lighter than water, and ascends on the inner circumferential surface of the oxygen discharge induction pipe 51. At this time, the lower part of the oxygen discharge induction pipe 51 is produced in the form of the bottom of the oxygen discharge induction pipe 51 in order to prevent the phenomenon of coming into contact with the hydrolyzed active hydrogen on the other side and combined with water. will be.

The funnel 52 is in the form of upper and lower light, as shown in FIGS. 4 and 5, and accommodates the electrode terminal rod 40 therein, and has a wider receiving space toward the lower portion. It is intended to prevent the phenomenon that the active oxygen which is electrolyzed at the electrode terminal rod 40 flows downward and leaks to the outside. In addition, it is for preventing the active hydrogen electrolyzed from the electrode terminal plate 30 of the negative electrode provided on the outside of the oxygen discharge induction pipe 51 to penetrate into the oxygen discharge induction pipe 51.

4 and 5 (b) show an oxygen discharge induction pipe 51 provided with a separate blocking film for the same purpose. Part of the funnel 52 of the oxygen discharge induction pipe 51 toward the central portion of the water tank 10 is formed by integrally forming a barrier film 53 concave inward, so that hydrogen gas and oxygen gas are combined in water. To prevent. That is, a separate blocking film 53 is integrally formed at the lower end of the funnel 52. By using the same material as the material of the oxygen discharge induction pipe 51 is integrally manufactured. When the oxygen discharge induction pipe 51 is injected, it is also possible to simultaneously injection molding with the water tank 10 and may be manufactured separately and combined with each other.

It is integrally coupled at the bottom of the funnel 52, to prevent the phenomenon that the active oxygen generated inside the oxygen discharge induction pipe 51 leaks to the outside, the active hydrogen generated in the electrode terminal plate 30 of the cathode It is basically blocking the access to the inner side of the oxygen discharge induction pipe (51). As a result, it is a structure to block the phenomenon in which the active oxygen and the active hydrogen bond underwater.

On the other hand, the present invention proposes another physical structure for preventing the phenomenon that the active oxygen and the active hydrogen is combined in water, resulting in the loss of active hydrogen to be obtained. As shown in FIG. 4, the inner wall 21 is formed by partitioning a predetermined space inside the water tank 10, and has an opening 22 having an upper surface opened, and the upper end thereof is installed at a lower position than the highest water level. The lower portion of the inner wall 21 further includes an inner hydrogen cylinder 20 in which a water supply port 23 is formed, and is provided with an underwater compartment in which a lot of hydrogen is collected.

The inner hydrogen cylinder 20 is preferably produced integrally in a variety of shapes without a special shape inside the tank (10). This internal hydrogen cylinder 20 has an open portion 22, the upper portion of which is open as shown in Figure 4, the lower end is provided with a water supply port 23 through which water can enter and exit. If the water tank 10 is filled with water, the internal hydrogen cylinder 20 is filled with water to the upper surface 22 of the upper end through the water supply port (23). That is, the water level of the water filled in the tank 10 is higher than the upper surface opening 22 of the inner hydrogen cylinder (20). As such, this embodiment has a double structure in which the internal hydrogen cylinder 20 is provided separately inside the water tank 10. At this time, a plate-shaped electrode is located in the lower portion of the inner hydrogen communication 20, it is preferable that the electrode terminal plate 30 of the negative electrode having a (-) pole.

In view of the foregoing description, the water tank of the present invention is divided into two embodiments. As shown in Figures 2 and 3 is a first embodiment that does not have a separate compartment inside the tank 10 and a second embodiment having a separate internal hydrogen cylinder 20 as shown in FIG. They all have a means to block hydrogen and oxygen from bonding in water.

In the first embodiment, the oxygen tank is not provided with a separate compartment in the water tank 10, but the oxygen discharge induction pipe 51 surrounding the electrode terminal rod 40 of the positive electrode has a phenomenon in which oxygen is combined with hydrogen in water. In this blocked state, it is possible to climb to the upper "B" space of the water tank.

In addition, the second embodiment forms a separate internal hydrogen cylinder 20 inside the water tank 10, and accommodates the electrode terminal plate 30 of the cathode inside the internal hydrogen cylinder 20, thereby introducing hydrogen. It also blocks the outflow of the hydrogen cylinder 20. In this way, the present invention attempts to bond in the upper "B" space atmosphere by blocking the physical contact of hydrogen and oxygen in water and raising it to the top.

Eventually, in the case of the present invention, a natural recycling method of taking oxygen as well as oxygen is combined with oxygen in the upper “B” space of the water tank 10 to reduce water.

This is what follows. In the present invention, as described above, in the case of the first embodiment, since the state is completely open, there is no restriction on hydrogen rising. However, the internal hydrogen cylinder 20 used in the second embodiment should also be configured to discharge hydrogen, the component of which is the opening 22. Since the side is blocked through the inner wall, there is no hydrogen leaking to the side. Only upwards through the opening 22 shown in FIG. 4. That is, the opening part 22 of the internal hydrogen cylinder 20 rises upward without increasing the internal pressure of the internal hydrogen cylinder 20 because it can communicate in the vertical direction. Hydrogen drops rise to the upper opening 22 of the internal hydrogen cylinder 20 to discharge hydrogen.

The internal hydrogen cylinder 20 is electrolyzed around the electrode terminal plate 30 of the cathode and is filled with hydrogen. In the case of hydrogen, its activity is excellent. When discharged to a gas state, the internal pressure increases if the internal hydrogen cylinder 20 is closed. This increase in internal pressure is likely to lead to hydrogen explosion. Therefore, in the present invention, the opening 22 is formed to completely open the upper surface of the internal hydrogen cylinder 20.

As described above, the hydrogen raised through the opening 22 of the water tank 10 or the internal hydrogen cylinder 20 of the first embodiment and the oxygen rising to the upper portion of the oxygen discharge induction pipe 51 meet in an active state, In the upper "B" space of the water tank 10, the chemical elements are combined and reduced to water. The water is filled in the tank 10 and is contacted in the "B" space portion present in the upper level of water is reduced to water. Hydrogen or oxygen molecules remaining through the chemical element bonding may be discharged into the air by detaching the cover 70 fastened to the upper portion of the tank 10.

In addition, in the present invention, the electrode terminal rod 40 of the positive electrode is installed at a position higher and lower than the electrode terminal plate 30 of the negative electrode, so that the decomposed hydrogen gas does not bond with the decomposed oxygen gas in water. This form is common to the water tank 10 of the proposed first embodiment or the water tank 10 of the second embodiment. Oxygen and hydrogen are lighter than water molecules. As a result, it moves from the disassembly position to the top and moves to the top of the water tank. At this time, when the hydrogen is decomposed in the water and ascends to the upper portion, in order to prevent the phenomenon of hydrogen and oxygen that meet the leakage and rise to the upper portion in advance, the level difference between the electrode terminal rod 40 and the electrode terminal plate 30 It is put. Oxygen discharged by installing the electrode terminal rods 40 of the anode in the upper and lower positions compared to the hydrogen decomposition position in water is discharged only to the upper side by riding the inner circumferential surface of the oxygen discharge induction pipe 51 to be generated from the electrode terminal plate 30 This is to prevent hydrogen bond with water as much as possible. This process basically blocks the reduced water of the underwater bonds that are bound in the water.

In addition, the hydrogen water supply device of the present invention is to supply purified water to generate hydrogen water. To this end, the water tank (10), by connecting the water purifier filter 60 communicated through the inlet pipe 61, it is possible to inject purified water.

The water tank 10 and a well-known water purifier or water purifier filter 60 communicate with each other to supply purified water from the supply of water. The present invention can be practiced through a simple method of connecting the water filter (60) and the water tank (10) to the inlet pipe (61).

Next, at the end of the inflow pipe 61 communicated with the external water tank 10, a buzzer 62 interlocking in the up and down direction is installed, and when the buzzer 62 reaches a certain level, the inflow pipe 61 is opened. To control the water supply. As described above, in the present invention, the water tank 10 is filled with purified water. But there must be a certain level. This is because the upper "B" space of the water tank 10 always requires a space for hydrogen and oxygen to be discharged to be reduced as water. And when the hydrogen water is generated in the internal hydrogen tank 20 of the second embodiment, it is drunk by drinking it, the drinking water level of reduced purified water should be filled automatically. To this end, in the present invention, water must be supplied through the inlet pipe 61.

In order to automatically adjust this, in the present invention, when the water tank (10) and the inlet pipe (61) communicates, the buzzer (62) is coupled to the end of the inlet pipe (61). The buzzer 62 is always floating in the water level by buoyancy. When the water level of the water is reduced by drinking water, the buzzer 62 is lowered to open the inlet pipe 61. The purified water delivered from the filter 60 is supplied through the open inlet pipe 61, and moves to the inside of the water tank 10. The water level rises again, and the buzzer 62 also rises. When the buzzer 62 rises to an appropriate water level, the inlet pipe 61 is closed to block further inflow of water. By this action, the water tank 10 of the present invention always maintains a constant water level. This constant water level is such that the upper end of the water tank 10 always has a constant space, thereby providing a "B" space for the chemical reaction in which gaseous hydrogen and oxygen can be reduced to water.

And, as described above, the upper end of the water tank 10, the cover plate 70 is coupled to rotate through the hinge 71, the other end of the hinge 71 to form a fastening portion 72 to cover The plate 70 to be easily removable.

If there is hydrogen and oxygen in the gaseous state remaining after being reduced to water in the space portion of the upper "B" space of the above-mentioned water level, it is important to naturally remove it. To this end, in the present invention, as shown in the figure, the cover plate 70 is fastened to the upper end of the water tank (10). One side is rotatably fastened through the hinge 71, the other side has a coupling structure that can be completely sealed through the fastening portion (72). If necessary for discharging the gas or for cleaning or maintaining the internal hydrogen cylinder 20 and the water tank 10, the fastening portion 72 is dismantled, and the cover plate 70 is rotated through the hinge 71. If so, the upper portion of the water tank 10 is maintained in an open state. The cover plate 70 has been implemented for this very purpose.

Incidentally, in the water tank 10 of the first embodiment and the second embodiment shown in FIGS. 3 and 4, the taps 26 connected to each other are fastened, and in the case of the first embodiment, the water tank 10 communicates with the water tank 10 in the second embodiment. An embodiment is in communication with internal hydrogen communication 20. If the internal hydrogen cylinder 20 is partially in common with the inner circumferential surface of the tank 10 can easily communicate with the tap (26).

6 and 7 illustrate an electrode terminal plate 30 of a cathode which leads to decomposition of hydrogen. In the present invention, the through-hole 35 penetrating in the vertical direction in the electrode terminal plate 30 of the cathode in which the hydrogen is produced to improve the production rate of hydrogen.

As illustrated in FIG. 6, when a plurality of through holes 35 penetrating the upper and lower portions of the electrode terminal plate 30 are formed, hydrogen generated at the lower end of the electrode terminal plate 30 may also be formed through the through holes 35. Ascending to the top to allow faster confluence of hydrogen water. The hydrogen water generated at the position where the faucet 26 is fastened is collected more quickly and the drinking water can be consumed.

For the same or similar function, in the present invention, the electrode terminal plate 30 of the cathode in which hydrogen is produced is formed by forming the uneven electrode terminal plate 30-1 so that the cross section is in the form of unevenness. Improve the area of the interview.

That is, in order to improve the area of the electrode terminal plate 30 in contact with water for the reaction of electrolysis, the terminal plate is bent in the form of irregularities. FIG. 5 shows such an embodiment, in which the electrode terminal plate 30 has the same area in the interior of the internal hydrogen cylinder 20 but the electrode terminal plate 30 is contacted with water to maximize the area. It was bent back and forth. Hydrogen that is electrolyzed through the uneven electrode terminal plate 30-1 of the bent cathode can be drunk more quickly because of its quantity.

A; Fastening means B; Space
10; Water tank 20; Internal hydrogen communication
21; Inner wall 22; Opening
23; Water inlet 25; Hydrogen exhaust
30; An electrode terminal plate 31 of the cathode; rectifier
40; An electrode terminal rod 51 of the positive electrode; Oxygen emission induction pipe
60; Filter 61; Inlet pipe

Claims (14)

In the hydrogen water supply device for supplying DC power to the electrode terminals of the cathode and anode arranged with water interposed between the electrolysis of water into hydrogen and oxygen,
A water tank (10) for storing the supplied water;
Oxygen discharge induction pipe 51 is installed in the longitudinal direction inside the water tank (10); And
An electrode terminal rod 40, which is an electrode terminal of a positive electrode inserted and installed inside the oxygen discharge induction pipe 51; is coupled to the water tank when DC current is supplied to the negative electrode terminal plate 30 and the power terminal of the positive electrode. Supplying hydrogen water, characterized in that the electrolysis takes place inside the cylinder 10, but the oxygen rises to the restricted region inside the oxygen discharge induction pipe 51 to block the decomposition of the decomposed oxygen and hydrogen in the water. Hydrogen water supply. The method of claim 1,
The electrode terminal of the cathode,
Hydrogen water supply for embedding in the water tank (10), the electrode terminal plate 30 of the negative electrode is installed to have a wide contact area in the plate shape at the bottom of the water tank (10). The method of claim 1,
The electrode terminal plate 30 of the cathode and the electrode terminal rod 40 of the anode,
Hydrogen water supply for supplying hydrogen water, characterized in that the current is supplied through the rectifier 31 for receiving AC current and converting it to DC. The method of claim 1,
Oxygen discharge induction pipe 51 of the electrode terminal rod 40 of the positive electrode, supplying hydrogen water, characterized in that it can be detachably coupled via a detachable means (A) to one side of the inner peripheral surface of the tank (10) Hydrogen water supply. 5. The method of claim 4,
Oxygen discharge induction pipe 51 is a hydrogen water supply for supplying hydrogen water, characterized in that the shape of the hollow cylindrical and polygonal shape. The method of claim 5,
The lower end of the oxygen discharge induction pipe (51) is a hydrogen water supply for supplying hydrogen water, characterized in that formed a funnel 52 in the form of light down light. The method according to claim 6,
In the funnel 52 of the oxygen discharge induction pipe 51, the portion facing the central portion of the water tank 10 is integrally formed with a blocking film 53 which is concave inward, thereby preventing hydrogen gas and oxygen gas from bonding. Hydrogen water supply for supplying hydrogen water, characterized in that. The method of claim 1,
The inner wall 21 is formed by dividing a predetermined space inside the water tank 10, and has an open portion 22 having an upper surface, the upper end of which is installed at a lower position than the highest water level, and the inner wall 21. The lower portion of the hydrogen water supply for supplying hydrogen water, characterized in that it further comprises an inner hydrogen cylinder 20, the water supply port 23 is formed to accommodate the electrode terminal plate 30 of the negative electrode. The method of claim 1,
In the water tank 10,
Hydrogen water supply for supplying hydrogen water, characterized in that by connecting the water purifier filter (60) communicated through the inlet pipe (61) to inject purified water. 10. The method of claim 9,
At the end of the inflow pipe 61 communicated with the water tank 10, a buzzer 62 interlocking in the up and down direction is provided, and when the buzzer 62 reaches a constant level, the inflow pipe 61 is blocked to supply water. Hydrogen water supply for supplying hydrogen water, characterized in that to control the. The method of claim 1,
The upper end of the water tank 10,
Oxygen gas exhausted from the oxygen discharge induction pipe 51 surrounding the electrode terminal rod 10 of the positive electrode and hydrogen gas raised from the electrode terminal plate 30 of the negative electrode combine in the upper "B" space to form reducing water. "Hydrogen water supply for supplying hydrogen water, characterized in that it has a space. The method of claim 1,
Hydrogen water supply for supplying hydrogen water, characterized in that to form a through-hole 35 penetrating in the vertical direction in the electrode terminal plate 30 of the negative electrode to produce hydrogen to improve the production rate of hydrogen. The method of claim 1 or 12,
Electrode terminal plate 30 of the negative electrode to produce hydrogen,
A hydrogen water supply for supplying hydrogen water, characterized by forming an uneven electrode terminal plate (30-1) which is bent to form a concave-convex cross section, thereby improving the area interviewed with water compared to the size. The method of claim 1,
Oxygen discharge induction pipe 51 of the electrode terminal rod 40 of the positive electrode, the hydrogen water supply for supplying hydrogen water, characterized in that to be integrated on one side of the inner peripheral surface of the water tank (10).

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