KR102532594B1 - Portable hydrogen water generator with no membrane structure - Google Patents

Abstract

The present invention relates to a portable hydrogen water generator having a membrane-less structure. The portable hydrogen water generator having a membrane structure comprises: a case (100); an electrolytic module (200); a safety cover (300); and an operation unit (400). According to the present invention, the case is formed with a hollow in the center by combining a pair of case pieces, and an inner electrode plate and an outer electrode plate are installed to be spaced at a certain gap facing each other between inner and outer sides of one opposing surface for each case piece. When generating hydrogen water, a + electrode is applied to an inner electrode plate to generate oxygen inside and - electricity is applied to an outer electrode plate to generate hydrogen in the drinking water stored in a beverage container on the outside. If electricity is applied by submerging in the drinking water stored in the beverage container, the hydrogen water is generated through electrolysis and can be consumed. Oxygen is guided and discharged through an upper side of the hollow formed in the case and is prevented from penetrating into the drinking water so that drinkers can always drink only pure hydrogen water. When a negative electrode is applied to the outer electrode plate due to long-term use and scale, etc. are attached, and the hydrogen water generation efficiency is reduced, electrodes are changed to apply the - electrode to the inner electrode plate and apply the + electrode to the outer electrode plate. By removing the scale stuck on the outer electrode plate and discarding diluted oxygen, chlorine and scale in the drinking container, the electrode plate is always kept clean and hydrogen production ability can be increased again.

Description

Portable hydrogen water generator with no membrane structure

The present invention relates to a portable hydrogen water generator having a non-diaphragm structure. The inner electrode plate and the outer electrode plate are installed so that they are spaced apart from each other by a certain gap between the inner and outer faces, so that when hydrogen water is generated, + electrode is applied to the inner electrode plate so that oxygen can be generated inside, and beverages are applied to the outer side. -Electricity is applied to the outer electrode plate so that hydrogen can be generated in the drinking water stored in the container, and when electricity is applied by submerging it in the drinking water stored in the container, hydrogen water is generated by electrolysis so that it can be consumed, and oxygen is stored in the case It is induced and discharged to the upper side of the hollow formed in the hole to prevent penetration into the drinking water, so that the drinker can always drink only pure hydrogen water. Moreover, as the cathode electrode is applied to the outer electrode plate due to long-term use, scale, etc. are attached to the hydrogen water production efficiency When is lowered, convert the electrodes to apply -electrode to the inner electrode plate and +electrode to the outer electrode plate to remove the scale stuck on the outer electrode plate and discard diluted oxygen, chlorine and scale for drinking of the beverage container. It relates to a portable hydrogen water generator having a non-diaphragm structure to maintain a clean electrode plate and increase the hydrogen generating ability again.

In general, in modern society, as people's living standards improve, there is a demand for drinking water in which drinking water is electrolyzed to obtain alkaline ionized water, hydrogen water, and the like.

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In recent years, hydrogen water generators have been used to create hydrogen water by electrolysis by placing + electrode plates and - electrode plates vertically in a beverage container that can store drinking water so that users can easily generate hydrogen water. Hydrogen water generators and hydrogen water generators are known that generate hydrogen water by electrolysis by arranging + electrode plates and - electrode plates approximately horizontally inside a beverage container.

As described above, in the case of a hydrogen water generator that generates hydrogen water by arranging vertically, the + electrode plate and - electrode plate for electrolysis are configured in a state in which they are exposed to water as they are to generate hydrogen water. By diluting it in drinking water while generating bubbles at the same time, not only hydrogen water is produced, but also oxygen and chlorine, a poison gas, are simultaneously generated in drinking water in drinking water to neutralize the acidified body unnecessary for the drinker, thereby reducing the hydrogen concentration. There are problems with lowering it.

And, in the case of the hydrogen water generator that is arranged approximately horizontally to generate hydrogen water, the + electrode plate and the - electrode plate are placed approximately horizontally from the bottom in the beverage container, so that the bubbles of hydrogen gas rise and are combined with drinking water to increase the hydrogen concentration. Although the degradation of can be delayed, the + electrode plate and -electrode plate are directly fixed to the beverage container and controlled from outside the beverage container to generate hydrogen water. Only specially limited beverage containers can be used, There is a problem in that the entire beverage container must be carried in order to be carried and used anywhere.

Since all hydrogen water generators in the above case do not have a cleaning device, if scale is caught on the -electrode that generates hydrogen during long-term use, the entire hydrogen water generator must be disassembled to remove the scale and then reassembled and used, which is cumbersome for users. It was bound to remain a problem.

Therefore, hydrogen water essential to the human body can be provided to the drinking water stored in the beverage container, and unnecessary oxygen and chlorine can be easily discharged into the atmosphere, while the polarity of the electrode plate is changed every time it is used to remove the scale attached to the electrode. There is a need for research and development of a portable hydrogen water generator having a non-diaphragm structure to increase convenience in use by enabling simple and easy periodic cleaning.

Republic of Korea Patent Registration No. 10-1446193 (registered on September 24, 2014) Republic of Korea Patent Publication No. 10-2018-0090403 (2018.08.13. Publication)

In order to solve the above problems, the present invention combines a pair of case pieces to form a case in a state in which a hollow is formed in the center, but between facing each other to the inside and outside of any one surface opposite to each case piece The inner electrode plate and the outer electrode plate are installed at a certain distance from each other, and when hydrogen water is generated, + electrode is applied to the inner electrode plate so that oxygen can be generated inside, and hydrogen is generated in the drinking water stored in the beverage container on the outside. -Electricity is applied to the outer electrode plate so that it can be immersed in drinking water stored in a beverage container, and when electricity is applied, hydrogen water is generated by electrolysis so that it can be drunk, and oxygen is induced and discharged to the upper side of the hollow formed in the case. It is an object of the present invention to provide a portable hydrogen water generator having a non-diaphragm structure so that drinkers can always drink only pure hydrogen water by preventing penetration into drinking water.

Another object of the technology according to the present invention is to form a case in a state in which a hollow is formed in the center by combining a pair of case pieces, but a constant between the inside and outside of any one surface facing each other with respect to each case piece The inner electrode plate and the outer electrode plate are installed so that they are spaced apart from each other, and the negative electrode is applied to the outer electrode plate due to long-term use. When the outer electrode plate needs cleaning due to scale, etc., the hydrogen water generation efficiency is reduced , The electrode is changed to apply - electrode to the inner electrode plate and + electrode to the outer electrode plate to remove the scale stuck on the outer electrode plate, and discard diluted oxygen, chlorine and scale for drinking of the beverage container, always clean electrode plate It is to be able to maintain and at the same time to increase the reduced hydrogen generating ability due to scale generation again.

The present invention for achieving the above object is as follows. That is, the portable hydrogen water generator having a non-diaphragm structure according to the present invention generates and mixes hydrogen with drinking water in a beverage container to drink hydrogen water, or generates oxygen and chlorine in the drinking water in a beverage container to reduce the scale of the electrode plate As for removing, it is made by combining the open sides of a pair of case pieces having a “c”-shaped cross section when viewed in plan, and an installation portion is formed by penetrating a certain area in the lower part of the case piece sealing side, and a pair of A case in which a space portion with an open top is formed inside the case piece, and a discharge port is formed for discharging oxygen, chlorine, or hydrogen of the space portion upward to the outside at a certain distance downward from the top portion; It is provided in the form of a plate and is fixedly installed in an installation part formed by penetrating a certain area in the lower part of the sealing side of the case piece of the case. An electrolysis module composed of an inner electrode plate and an outer electrode plate installed apart from each other by a predetermined gap; It is provided in a plate shape and fixes the outer electrode plate disposed outside the installation part of the case piece of the electrolytic module so that it does not escape to the outside, and a plurality of through holes are drilled in the central area of the plate so that drinking water can flow to the outer electrode plate. safety cover; And an upper part of the case is assembled and fixed at the lower end, and a hydrogen water generation button and a cleaning button are fixedly installed on one side to supply power to the inner electrode plate and the outer electrode plate of the electrolytic module to perform electrolysis. It consists of a composition including ;

At this time, the installation part of the case is formed by penetrating a certain area in the lower part of the sealing side of the case piece, and the outer end is formed on the inner side as the side toward the inside of the case piece from the inner surface penetrating a certain area in the lower part of the case piece sealing side, so that the inner electrode An inner hanging end that hangs and supports the circumference of the plate for a certain length, and a spaced protrusion is interposed toward the outside as a side toward the outside of the case piece from the inner hanging end, and is formed opposite to the inner hanging end by the spaced protrusion, and the outer electrode plate It includes an external hanging end for hanging and supporting the circumference of a certain length, and a fixing end formed with an outward end from the external hanging end, while the safety cover is fixed to the circumferential end through a fixing means in a state of being seated on the fixing end it is desirable to be

Moreover, the safety cover protrudes from one surface away from the circumferential end at a certain distance inward toward the outer hanging end of the installation part, and a pressing protrusion is formed at the protruding end to press and support the circumferential portion of the outer electrode plate. On the inside, it is preferable that a flow space spaced apart by a certain distance is formed between one surface of the circumferential end of the safety cover and the outer electrode plate.

In addition, hydrogen is generated and mixed with the drinking water of the beverage container to drink hydrogen water, or oxygen and chlorine are generated in the drinking water of the beverage container to remove the scale of the outer electrode plate disposed on the outside of the case piece. So that it can be operated to remove, The hydrogen water generation button of the control unit is operated so that a + electrode is applied to the inner electrode plate disposed inside the case piece and a - electrode is applied to the outer electrode plate disposed outside the case piece to generate hydrogen water. The cleaning button of the control unit applies a - electrode to the inner electrode plate disposed inside the case piece and a + electrode to the outer electrode plate disposed outside the case piece to remove scale on the outer electrode plate disposed outside the case piece. It is desirable to operate as much as possible.

In addition, in the case, an inlet and outlet hole for intake of drinking water stored in a beverage container or discharge of drinking water flowing into the space is further formed through the center of the bottom surface of the space formed inside the case by combining the pair of open sides of the case. , It is preferable that the input/output hole is selectively sealed by a stopper.

In addition, the case is formed by combining the open sides of the pair of case pieces with each other, and the pair of open sides of the case pieces are preferably combined through an interference fit in a groove and protrusion structure or through welding.

And while further comprising a protective case assembled to surround the outside of the case from the bottom of the case, the protective case is preferably provided with a knob protruding for gripping for separation on one side of the upper end.

Furthermore, it is preferable that the electrolytic module and the safety cover are installed in a mutually symmetrical structure on the sealing side of the pair of case pieces constituting the case.

The effect of the portable hydrogen water generator having a non-diaphragm structure according to the present invention is described as follows.

First, a case is formed in a state in which a hollow is formed in the center by combining a pair of case pieces, and the inner electrode plate and By installing an outer electrode plate, + electrode is applied to the inner electrode plate so that oxygen can be generated inside when hydrogen water is generated, and -electricity is applied to the outer electrode plate so that hydrogen can be generated in the drinking water stored in the beverage container. When submerged in drinking water stored in a beverage container and electricity is applied, hydrogen water is generated by electrolysis so that it can be drunk, and oxygen is induced and discharged to the upper side of the hollow formed in the case to prevent penetration into the drinking water so that the drinker is always pure. You can drink only hydrogen water.

Second, a case is formed in a state in which a hollow is formed in the center by combining a pair of case pieces, but the inner electrode plate and By installing an outer electrode plate, when the negative electrode is applied to the outer electrode plate due to long-term use, scale, etc. are attached to the hydrogen water generation efficiency and the outer electrode plate needs cleaning, in case cleaning is required, the inner electrode plate -electrode is applied and the electrode is converted to apply + electrode to the outer electrode plate to remove the scale stuck on the outer electrode plate, so that oxygen, chlorine and scale diluted in the drinking container can be discarded to maintain a clean electrode plate at all times. As a result, the reduced hydrogen generating ability due to scale generation can be increased again.

1 is a separated perspective view showing a portable hydrogen water generator having a non-diaphragm structure according to the present invention.
Figure 2 is an assembled perspective view showing a portable hydrogen water generator having a non-diaphragm structure according to the present invention.
Figure 3 is a cross-sectional view showing a portable hydrogen water generator having a non-diaphragm structure according to the present invention.
Figure 4 is a cross-sectional example showing the main part of the electrolytic module installation part, which is the main part of the portable hydrogen water generator having a non-diaphragm structure according to the present invention.
Figure 5 is a cross-sectional view showing a state of use of a portable hydrogen water generator having a non-diaphragm structure according to the present invention.

Hereinafter, a preferred embodiment of a portable hydrogen water generator having a non-diaphragm structure according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a separated perspective view showing a portable hydrogen water generator having a non-diaphragm structure according to the present invention, Figure 2 is an assembled perspective view showing a portable hydrogen water generator having a non-diaphragm structure according to the present invention.

Figure 3 is a cross-sectional view showing a portable hydrogen water generator having a non-diaphragm structure according to the present invention, Figure 4 is a cross-sectional view showing the main part of the electrolysis module installation part of the portable hydrogen water generator having a non-diaphragm structure according to the present invention It is an example..

5 is a cross-sectional view showing a state of use of a portable hydrogen water generator having a non-diaphragm structure according to the present invention.

As shown in FIGS. 1 to 5, the portable hydrogen water generator having a non-diaphragm structure according to a preferred embodiment of the present invention generates and mixes hydrogen with drinking water in a beverage container (C) to drink hydrogen water, or a beverage container ( A portable hydrogen water generator that removes the scale of the electrode plate by generating oxygen and chlorine in the drinking water of C), including a case 100, an electrolysis module 200, a safety cover 300, and a control unit 400 It is done.

Specifically, the case 100 is formed by combining open sides of case pieces 110 and 120 provided as a pair having a “c”-shaped cross section when viewed from a plan view.

In other words, the case 100 is formed by combining the open sides of the case pieces 110 and 120 provided as a pair, so that the case 100 is provided as a hollow rectangular tube with an open top and a sealed bottom.

In particular, in the case 100, an installation portion 111 is formed by penetrating a certain area in the lower part of the sealing side of the case piece 110.

At this time, it is preferable that the installation part 111 penetrates through a certain area of the lower part of the sealing side of the case piece 110 and is formed in a rectangular shape.

In addition, the closed side of the case piece 110 means the closed side opposite to the open side in the "c"-shaped cross section when viewed in plan.

In addition, the case 100 has a space portion 150 with an open top formed inside the pair of case pieces 110 and 120 .

Moreover, the case 100 as described above has a discharge port 101 for discharging oxygen (O ₂ ), chlorine (cl ₂ ) or hydrogen (H ₂ ) of the space 150 at a certain distance downward from the top to the outside. do.

At this time, it is preferable that the outlet 101 is formed in a mutually hemispherical shape at the side end of the pair of case pieces 110 and 120 that are joined to each other so as to form a circular through hole when they are combined.

In addition, in the case 100, the open sides of the pair of case pieces 110 and 120 are merged with each other so that the drinking water stored in the beverage container C is suctioned or spaced at the center of the bottom surface of the space 150 formed therein. An entrance/exit hole 105 for discharging the drinking water introduced into the unit 150 is further formed through.

At this time, it is more preferable that the input/output hole 105 is selectively sealed by a stopper 105'.

Furthermore, the pair of case pieces 110 and 120 forming the case 100 by combining the open sides together as described above may be combined through an interference fit into a groove and protrusion structure on the open side.

Of course, the open sides of the pair of case pieces 110 and 120 may be combined through interference fitting with a groove and protrusion structure and simultaneously through welding, and also through welding in a state of being in close contact without a groove and protrusion structure. may be combined.

On the other hand, the electrolytic module 200 is provided in the form of a plate and is fixedly installed in the installation part 111 formed by penetrating a certain area in the lower part of the sealing side of the case piece 110 of the case 100, the installation part 111 The inner electrode plate 210 and the outer electrode plate 230 are installed spaced apart from each other by a predetermined gap to the inner side as the side facing the inside of the case piece 110 and the outer side as the side facing the outside of the case piece 110 of the installation part 111. ) is composed of

At this time, the inner electrode plate 210 and the outer electrode plate 230 may be applied in a simple plate shape, and in particular, it is preferable to apply a perforated plate type as in an electrolysis module applied to a general hydrogen generating device.

Of course, it is preferable that the inner electrode plate 210 and the outer electrode plate 230 are provided in a plate shape, and provided in a rectangular plate shape corresponding to the penetrating shape of the installation part 111 .

In addition, the safety cover 300 is provided in a plate shape and fixes the outer electrode plate 230 disposed outside the installation part 111 of the case piece 110 of the electrolysis module 200 so that it does not escape to the outside, , It is composed of a configuration in which a plurality of through holes 310 are perforated in the central region of the plate so that drinking water can flow to the outer electrode plate 230.

It is preferable that the safety cover 300 is also provided in a rectangular plate shape corresponding to the inner electrode plate 210 and the outer electrode plate 230.

On the other hand, the upper part of the case 100 is assembled and fixed at the lower end of the control unit 400, and power is supplied to the inner electrode plate 210 and the outer electrode plate 230 of the electrolytic module 200 on one side. The hydrogen water generation button 410 and the cleaning button 420 operated to perform electrolysis are fixedly installed.

The operation unit 400 has a printed circuit board (not shown) installed inside, and when the hydrogen water generating button 410 is pressed, the case piece ( While the outer electrode plate 230 disposed outside the installation part 111 of 110) is applied with a - electrode, the inner electrode plate 210 disposed inside the installation part 111 of the case piece 110 has a + electrode. It is operated and controlled so that it is authorized.

In addition, when the cleaning button 420 is pressed, the control unit 400 is an outer electrode disposed outside the installation portion 111 of the case piece 110 among the inner and outer electrode plates 210 and 230 of the electrolysis module 200 The plate 230 is operated and controlled so that the + electrode is applied, and the inner electrode plate 210 disposed inside the installation part 111 of the case piece 110 is applied with the - electrode.

That is, as shown in FIG. 5, the operation unit 400, when using the portable hydrogen water generator of the present invention, in a state in which it is gripped so as to be submerged in the beverage container (C) over a certain length upward from the bottom of the case 100, By pressing the hydrogen water generation button 410, hydrogen is generated in the drinking water inside the beverage container (C) through the electrolysis module 200 to be mixed and diluted to generate hydrogen water.

When operating by pressing the hydrogen water generation button 410 of the operation unit 400, the electrolysis module 200 is disposed outside the installation part 111 of the case piece 110 among the inner and outer electrode plates 210 and 230 The outer electrode plate 230 is applied with a - electrode, while the inner electrode plate 210 disposed inside the installation part 111 of the case piece 110 is applied with a + electrode.

Of course, when the cleaning button 420 of the operation unit 400 is pressed and operated, the outer side disposed outside the installation part 111 of the case piece 110 among the inner and outer electrode plates 210 and 230 of the electrolysis module 200 The electrode plate 230 generates hydrogen and mixes and dilutes it with the drinking water while contacting drinking water while the + electrode is applied, and the inner electrode plate 210 disposed inside the installation part 111 of the case piece 110 has a - electrode. While being applied, it is transported upward through the space 150 of the case 100, and oxygen and chlorine are discharged to the outside through the outlet 101.

In other words, the portable hydrogen water generator having a non-diaphragm structure according to the present invention having the configuration as described above generates and mixes hydrogen with the drinking water of the beverage container (C) to drink hydrogen water, or It is important that oxygen and chlorine are generated in the drinking water so that the electrode plate 230 disposed outside the case piece 110 can be manipulated to remove scale.

Accordingly, the hydrogen water generating button 410 of the control unit 400 generates hydrogen water, while + electrode is applied to the electrode plate 210 disposed inside the case piece 110, and the case piece 110 The -electrode is applied to the electrode plate 230 disposed outside.

In addition, the cleaning button 420 of the control unit 400 is used to remove scale on the electrode plate 230 disposed outside the case piece 110, the electrode plate 210 disposed inside the case piece 110 While the - electrode is applied, the + electrode is applied to the electrode plate 230 disposed outside the case piece 110 .

On the other hand, in the portable hydrogen water generator having a non-diaphragm structure according to the present invention having the configuration as described above, as shown in the drawing, the installation part 111 of the case 100 has a cross-sectional thickness of the case piece 110 ) In a state where a certain length is formed thicker than the thickness of the upper and lower portions of the installation part 111, it is formed through a certain area.

The installation part 111 is formed by penetrating a certain area in the lower part of the sealing side of the case piece 110, and has an internal locking end 111a, an external locking end 111c, It is formed as a fixed end (111d).

At this time, the inner hanging end 111a is formed with an outward end on the inner side as a side toward the inside of the case piece 110 from the inner surface penetrating a certain area in the lower part of the sealing side of the case piece 110, so that the inner electrode plate 210 It is to hang and support the circumference of a certain length.

Although the internal electrode plate 210 seated on the inner hanging end 111a as described above is not specifically shown in the drawing, it is fixed while being seated on the inner hanging end 111a through a separate fixing means (not shown). desirable.

At this time, it is more preferable that a separate fixing means (not shown) is provided as a bolt such as a countersunk head bolt to fix the circumferential portion of the internal electrode plate 210 to the spaced protrusion 111b.

On the other hand, the external locking end 111c is interposed with a spaced protrusion 111b toward the outside as a side toward the outside of the case piece 110 from the inner locking end 111a, and is interposed by the spaced protrusion 111b. 111a) is formed to have a step, and the circumference of the outer electrode plate 230 is hung and supported for a predetermined length.

In addition, the fixing end 111d is formed so that the outer end 111c faces outward.

In addition, the safety cover 300 is preferably fixed to the circumferential end through the fixing means (B) in a state of being seated on the fixing end (111d) of the installation part (111).

At this time, the fixing means (B) is more preferably provided as a countersunk head type bolt, and may be provided as a bolt having a normal hexagonal head.

Moreover, the safety cover 300 is protruded from one surface away from the circumferential end at a certain distance inward toward the external locking end 111c of the installation part 111, so that the protruding end covers the circumference of the outer electrode plate 230. Pressing protrusions 320 for pressurizing support are formed.

At this time, a flow space 320 ′ spaced apart by a predetermined distance is formed between one surface of the circumferential end of the safety cover 300 and the outer electrode plate 230 inside the pressure protrusion 320 .

In other words, the flow space 320 'can be formed through the pressing protrusion 320 of the safety cover 300 when the case piece 110 of the safety cover 300 is fixedly installed. With respect to the circumferential end of 300, in a state where it is seated on the fixed end through the fixing means (B), drinking water flows in and is discharged toward the outer electrode plate 230 side through a plurality of through-holes 310 formed through the central region of the plate. It is a space that is guided to come into contact with the outer electrode plate 230 by flowing.

In addition, the portable hydrogen water generator having a non-diaphragm structure according to the present invention configured as described above may further include a protective case 500 assembled to surround the outside of the case 100 from the lower part of the case 100. can

This protective case 500 can be assembled to wrap the portable hydrogen water generator having a non-diaphragm structure according to the present invention to protect the outside of the case 100 when not in use, especially for gripping on one side of the top for separation. It is preferable that the knob 510 is provided with a protrusion.

Moreover, the portable hydrogen water generator having a non-diaphragm structure according to the present invention configured as described above, in particular, with respect to the electrolysis module 200 and the safety cover 300, a pair of case pieces constituting the case 100 It is preferable to install in a mutually symmetrical structure on the sealing side for (110, 120).

In other words, the electrolysis module 200 and the safety cover 300 are the installation part 111 of one case piece 110 constituting the case 100 and the installation part 121 of the other case piece 120. ) is preferably installed in each.

According to the portable hydrogen water generator having a non-diaphragm structure according to the present invention having the configuration as described above, a case is formed in a state in which a hollow is formed in the center by combining a pair of case pieces, but opposite to each case piece The inner electrode plate and the outer electrode plate are installed spaced apart from each other by a certain gap between the inner and outer sides of any one surface, so that when hydrogen water is generated, + electrode is applied to the inner electrode plate so that oxygen can be generated inside. -Electricity is applied to the outer electrode plate so that hydrogen can be generated in the drinking water stored in the beverage container, and when electricity is applied by submerging it in the drinking water stored in the beverage container, hydrogen water is generated by electrolysis so that it can be consumed. Oxygen is induced and discharged to the upper side of the hollow formed in the case to prevent penetration into the drinking water so that the drinker can always drink only pure hydrogen water.

Furthermore, a case is formed in a state in which a hollow is formed in the center by combining a pair of case pieces, but the inner electrode plate and By installing an outer electrode plate, when the negative electrode is applied to the outer electrode plate due to long-term use, scale, etc. are attached to the hydrogen water generation efficiency and the outer electrode plate needs cleaning, in case cleaning is required, the inner electrode plate -electrode is applied and the electrode is converted to apply + electrode to the outer electrode plate to remove the scale stuck on the outer electrode plate, so that oxygen, chlorine and scale diluted in the drinking container can be discarded to maintain a clean electrode plate at all times. As a result, the reduced hydrogen generating ability due to scale generation can be increased again.

Although specific embodiments of the present invention have been described in detail above, the present invention is not limited thereto, and various modifications can be made to the present invention by those skilled in the art, and these modifications is included in the scope of the present invention.

100: case 101: outlet
105: entry and exit hole 105': stopper
110, 120: case piece 111, 121: installation part
111a: internal locking end 111b: spaced protrusion
111c: external hanging end 111d: fixed end
150: space unit 200: electrolysis module
210: inner electrode plate 230: outer electrode plate
300: safety cover 310: through hole
320: pressure protrusion 320 ': flow space
400: control panel 410: hydrogen generation button
420: cleaning button 500: protective case
510: knob
B: Fixing means
C: beverage container

Claims (8)

Hydrogen is generated and mixed with the drinking water of the beverage container (C) to drink hydrogen water, or oxygen and chlorine are generated in the drinking water of the beverage container to remove the scale of the electrode plate. It is made by combining the open side of the case pieces 110 and 120 provided as a pair having a cross section, and the installation portion 111 is formed by penetrating a certain area in the lower part of the sealing side of the case piece 110. A space portion 150 with an open top is formed inside the pieces 110 and 120, and a discharge port 105 is formed to discharge oxygen, chlorine, or hydrogen of the space portion 150 upward to the outside at a certain distance downward from the top. Case 100 to be; It is provided in a plate shape and is fixedly installed in the installation part 111 formed by penetrating a certain area in the lower part of the sealing side of the case piece 110 of the case 100, and facing the inside of the case piece 110 of the installation part 111. An electrolytic module 200 composed of an inner electrode plate 210 and an outer electrode plate 230 installed spaced apart from each other by a predetermined gap to the inside as a side and the outer side as a side facing the outside of the case piece 110 of the installation part 111 ; It is provided in a plate shape and fixes the outer electrode plate 230 disposed outside the installation part 111 of the case piece 110 of the electrolytic module 200 so that it does not escape to the outside, and is attached to the outer electrode plate 230. a safety cover 300 in which a plurality of through-holes 310 are perforated in the central region of the plate to allow drinking water to flow; And the upper part of the case 100 is assembled and fixed at the lower end, and power is supplied to the inner electrode plate 210 and the outer electrode plate 230 of the electrolytic module 200 on one side to perform electrolysis. A manipulation unit 400 in which a hydrogen water generating button 410 and a cleaning button 420 are fixedly installed;
The installation part 111 of the case 100 is formed through a certain area in the lower part of the sealing side of the case piece 110,
From the inner surface penetrating a certain area in the lower part of the sealing side of the case piece 110, an outward end is formed on the inner side toward the inside of the case piece 110, and the circumference of the inner electrode plate 210 is held for a certain length. Stage 111a,
The spaced protrusion 111b is interposed from the inner end 111a toward the outside as the side facing the outside of the case piece 110, and is opposed to the inner end 111a by the spaced protrusion 111b. , an external hanging end 111c for hanging and supporting the circumference of the outer electrode plate 230 by a predetermined length;
On the other hand, including a fixed end (111d) formed so that the outward end is supported from the outer hanging end (111c),
The safety cover 300 is fixedly installed through the fixing means (B) in a state of being seated on the fixing end (111d) with respect to the circumferential end,
The safety cover 300 is formed to protrude toward the outer hanging end 111c of the installation part 111 from one surface at a certain distance inward from the circumferential end, and the protruding end presses and supports the circumference of the outer electrode plate 230. A pressing protrusion 320 is formed,
Inside the pressure protrusion 320, a portable device having a non-diaphragm structure, characterized in that a flow space 320' spaced apart by a certain distance is formed between one surface of the circumferential end of the safety cover 300 and the outer electrode plate 230. hydrogen water generator.
delete delete According to claim 1,
Hydrogen is generated and mixed with the drinking water in the beverage container (C) to drink hydrogen water, or oxygen and chlorine are generated in the drinking water in the beverage container (C) to remove the scale of the outer electrode plate placed on the outside of the case piece. to be,
The hydrogen water generation button 410 of the control unit 400 generates hydrogen water, while the + electrode is applied to the inner electrode plate 210 disposed inside the case piece 110, and the outer side of the case piece 110 On the other hand, the -electrode is applied to the outer electrode plate 230 disposed on the
The cleaning button 420 of the control unit 400 is the inner electrode plate 210 disposed inside the case piece 110 to remove scale on the outer electrode plate 230 disposed outside the case piece 110. A portable hydrogen water generator having a non-diaphragm structure, characterized in that while the - electrode is applied, the + electrode is applied to the outer electrode plate 230 disposed outside the case piece 110.
According to claim 1,
The case 100 is a suction or space portion ( 150), while the inlet and outlet holes 105 for discharging drinking water are further penetrated,
The input/output hole 105 is a portable hydrogen water generator having a non-diaphragm structure, characterized in that it is selectively sealed by a stopper 105 '.
According to claim 1,
The case 100 is formed by combining the open sides of the pair of case pieces 110 and 120 with each other,
A pair of case pieces (110, 120) open side is a portable hydrogen water generator having a non-diaphragm structure, characterized in that combined through interference fit in a groove and protrusion structure, or combined through welding.
According to claim 1,
Further comprising a protective case 500 assembled to surround the outside of the case 100 from the lower portion of the case 100,
The protective case 500 is a portable hydrogen water generator having a non-diaphragm structure, characterized in that the knob 510 for gripping for separation is protruding on one side of the top.
According to claim 1,
The electrolytic module 200 and the safety cover 300 are installed in a mutually symmetrical structure on the sealing side of the pair of case pieces 110 and 120 constituting the case 100. hydrogen water generator.

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