CN214004135U - Electrolysis device for preparing hydrogen-rich water - Google Patents
Electrolysis device for preparing hydrogen-rich water Download PDFInfo
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- CN214004135U CN214004135U CN202022995425.4U CN202022995425U CN214004135U CN 214004135 U CN214004135 U CN 214004135U CN 202022995425 U CN202022995425 U CN 202022995425U CN 214004135 U CN214004135 U CN 214004135U
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Abstract
The utility model provides an electrolytic device for hydrogen-rich water production, include: an electrolytic bath upper cover, an electrolytic bath lower cover, a cathode plate, an electrolytic film and an anode plate; the upper cover of the electrolytic cell is hollow, a concave part is arranged on the lower cover of the electrolytic cell, and the upper cover of the electrolytic cell is covered with the lower cover of the electrolytic cell; the electrolytic cell is characterized in that a polar plate sealing piece is arranged between the upper cover of the electrolytic cell and the lower cover of the electrolytic cell, the polar plate sealing piece is hollow, the negative plate, the electrolytic film and the positive plate are sequentially stacked in the middle of the inside of the polar plate sealing piece, the polar plate sealing piece is arranged in the concave part, a sealing ring is further arranged between the upper cover of the electrolytic cell and the lower cover of the electrolytic cell, and the sealing ring and the polar plate sealing piece are sequentially stacked in the direction from the upper cover of the electrolytic cell to the lower cover of the electrolytic cell; the advantage lies in adding the polar plate sealing member, the effectual infiltration that prevents, just the electrolysis trough upper cover with it can become replaceable module at any time with electrolytic device to be provided with the polar plate sealing member between the electrolysis trough lower cover, can conveniently maintain hydrogen-rich water cup.
Description
Technical Field
The utility model relates to an electrolytic device technical field, in particular to hydrogen-rich water's electrolytic device.
Background
With the progress of society, the hydrogen-rich water electrolysis device is an important device for preparing hydrogen ion-rich electrolysis water and can be used for adjuvant therapy of certain diseases, wherein the hydrogen-rich water electrolysis device plays an important role in the operation quality and stability of a hydrogen-rich water cup. In the current practical use, the ion membrane used in the current hydrogen-rich water cup is a semipermeable membrane, and positive ions and negative ions can penetrate through each other, so that the water treated by the water ionizer is alkaline because more ions with positive charges, such as potassium, sodium, calcium, magnesium and the like, are accumulated in the water from the cathode; the water from the anode is acidic because more negatively charged acid radical ions are accumulated. Because the water-resisting property of the semipermeable membrane is poor, both alkalinity and acidity can discharge water together, so that the ion content in the electrolyzed water is complex, a large amount of heavy metal ions and other ions harmful to human bodies are easily discharged along with water bodies, and the product quality of the hydrogen-enriched water cup is seriously influenced.
In view of this, it is necessary to design an electrolysis apparatus for producing hydrogen-rich water, which is convenient for the accumulated liquid after electrolysis to be periodically cleaned and discharged during water electrolysis, so as to prolong the service life of the electrolysis apparatus.
SUMMERY OF THE UTILITY MODEL
The utility model provides an electrolytic device for hydrogen-rich water, which is added with a polar plate sealing element to effectively prevent water seepage, and the polar plate sealing element arranged between the upper cover of the electrolytic cell and the lower cover of the electrolytic cell can change the electrolytic device into a module which can be replaced at any time, thereby being convenient for maintaining a hydrogen-rich water cup; the water outlet is formed in the lower cover of the electrolytic cell, so that leaked electrolyte can be discharged when the electrolytic device electrolyzes water conveniently, accumulated liquid cannot be generated, and the service life of the electrolytic device is prolonged.
In order to achieve the above object, the present invention provides the following technical solutions: an electrolysis apparatus for producing hydrogen-rich water, comprising: an electrolytic bath upper cover, an electrolytic bath lower cover, a cathode plate, an electrolytic film and an anode plate; the upper cover of the electrolytic cell is hollow, a concave part is arranged on the lower cover of the electrolytic cell, and the upper cover of the electrolytic cell is covered with the lower cover of the electrolytic cell; the electrolytic cell comprises an electrolytic cell upper cover, an electrolytic cell lower cover, a polar plate sealing piece, a sealing ring and a sealing ring, wherein the polar plate sealing piece is arranged between the electrolytic cell upper cover and the electrolytic cell lower cover, the polar plate sealing piece is hollow, the negative plate, the electrolytic film and the positive plate are sequentially stacked in the middle of the inside of the polar plate sealing piece, the polar plate sealing piece is arranged in the concave part, the sealing ring is further arranged between the electrode cell upper cover and the electrolytic cell lower cover, and the electrolytic cell upper cover is sequentially stacked in the direction of the electrolytic cell lower cover and is arranged on the sealing ring and the polar plate sealing piece.
As a further improvement of the above technique, the electrolytic cell lower cover is provided with a first recess and a second recess, the first recess and the second recess are stacked in this order in the electrolytic cell lower cover, and the first recess accommodates the plate seal.
As a further improvement of the above technology, the second concave portion corresponds to the middle of the bottom of the pole plate sealing member, and a water outlet hole is formed in the bottom of the second concave portion.
As a further improvement of the above technique, the first recess portion has a larger area than the second recess portion.
As a further improvement of the above technology, a second connection terminal is arranged on the anode plate, a first connection terminal is arranged on the cathode plate, a second connection terminal hole and a first connection terminal hole are arranged on the pole plate sealing member, the second connection terminal passes through the second connection terminal hole, and the first connection terminal passes through the first connection terminal hole.
As a further improvement of the above technology, the lower cover of the electrolytic cell is provided with a third connection terminal hole and a fourth connection terminal hole, the second connection terminal passes through the second connection terminal hole and is inserted into the fourth connection terminal hole, and the first connection terminal passes through the first connection terminal hole and is inserted into the third connection terminal hole.
As a further improvement of the technology, the upper cover of the electrolytic cell is also provided with threads which are matched with a hydrogen-enriched water cup.
As a further improvement of the above technique, the electrolytic membrane is a proton exchange membrane.
Through implementing above technical scheme, have following technological effect: a polar plate sealing element is added to effectively prevent water seepage, and the polar plate sealing element arranged between the upper cover of the electrolytic cell and the lower cover of the electrolytic cell can change the electrolytic device into a module which can be replaced at any time, so that the hydrogen-enriched water cup can be conveniently maintained; the water outlet is formed in the lower cover of the electrolytic cell, so that leaked electrolyte can be discharged when the electrolytic device electrolyzes water conveniently, accumulated liquid cannot be generated, and the service life of the electrolytic device is prolonged.
Drawings
FIG. 1 is an exploded view of an electrolytic apparatus for producing hydrogen-rich water according to the present invention;
FIG. 2 is a schematic view of an electrolytic device for producing hydrogen-rich water according to the present invention;
FIG. 3 is another schematic diagram of the electrolytic device for producing hydrogen-rich water of the present invention;
10. an upper cover of the electrolytic cell; 101. a seal ring; 20. a pole plate seal; 201. a cathode plate; 2021. a first connection terminal; 202. an electrolytic film; 203. an anode plate; 2031. a second connection terminal; 30. a lower cover of the electrolytic cell; 301. a water outlet hole; 302. a first recess; 303. a second recess; 3031. and a third terminal hole.
Detailed Description
For better understanding of the technical solutions of the present invention, the following detailed description of the embodiments provided in the present invention is provided with reference to the accompanying drawings.
As shown in fig. 1, 2, and 3, an electrolysis apparatus for producing hydrogen-rich water according to an embodiment of the present application includes: an electrolytic bath upper cover 10, an electrolytic bath lower cover 30, a cathode plate 201, an electrolytic film 202 and an anode plate 203; the electrolytic cell upper cover 10 is hollow, a concave part is arranged on the electrolytic cell lower cover 30, and the electrolytic cell upper cover 10 is covered with the electrolytic cell lower cover 30; the utility model discloses an electrolytic cell, including the electrolysis trough upper cover 10, the electrolysis trough lower cover 30 is provided with polar plate sealing member 20 between, polar plate sealing member 20 is the cavity form, the inside middle range upon range of setting gradually of polar plate sealing member 20 negative plate 201 the electrolytic film 202 with anode plate 203, polar plate sealing member 20 set up in the concave part, electrode trough upper cover 10 with still be provided with sealing washer 101 between the electrolysis trough lower cover 30, electrolysis trough upper cover 10 extremely range upon range of setting gradually in the direction of electrolysis trough lower cover 30 sealing washer 101 polar plate sealing member 20.
The electrolytic cell lower cover 30 is provided with a first recess 301 and a second recess 302, the first recess 301 and the second recess 302 are provided in the electrolytic cell lower cover 30 in this order, and the first recess 301 accommodates the plate seal 20.
The second concave portion 302 corresponds to the middle of the bottom of the pole plate sealing member 20, and a water outlet hole 301 is formed in the bottom of the second concave portion 302.
The first recess 301 is larger in area than the second recess 302.
The anode plate 203 is provided with a second wiring terminal 2031, the cathode plate 201 is provided with a first wiring terminal 2021, the pole plate sealing member 20 is provided with a second wiring terminal hole and a first wiring terminal hole, the second wiring terminal passes through the second wiring terminal hole, and the first wiring terminal passes through the first wiring terminal hole.
A third terminal hole 3031 and a fourth terminal hole are arranged on the lower cover 30 of the electrolytic cell, the second terminal 2031 penetrates through the second terminal hole and is inserted into the fourth terminal hole, and the first terminal 2021 penetrates through the first terminal hole and is inserted into the third terminal hole 3031.
The electrolytic cell upper cover 10 is further provided with threads and is arranged inside the hydrogen-enriched water cup in a threaded connection mode.
The electrolyte membrane 202 is a proton exchange membrane. It is also possible that the electrolyte membrane 202 is a cation exchange membrane, and we have designed a structure to exclude the accumulated liquid.
The electrolytic membrane (PEM) water electrolysis technology is a clean and environment-friendly hydrogen production technology and has the characteristics of high efficiency, high hydrogen purity, no pollution and the like.
The above is to the electrolytic device for hydrogen-rich water provided by the embodiment of the present invention described in detail, and to the general technical personnel in the field, according to the idea of the embodiment of the present invention, there is a change part on the specific implementation and the application range, to sum up, the content of the present specification should not be understood as the limitation of the present invention.
Claims (8)
1. An electrolysis apparatus for producing hydrogen-rich water, comprising: an electrolytic bath upper cover, an electrolytic bath lower cover, a cathode plate, an electrolytic film and an anode plate; the upper cover of the electrolytic cell is hollow, a concave part is arranged on the lower cover of the electrolytic cell, and the upper cover of the electrolytic cell is covered with the lower cover of the electrolytic cell; the electrolytic cell is characterized in that a polar plate sealing piece is arranged between the upper cover and the lower cover of the electrolytic cell, the polar plate sealing piece is hollow, the middle of the inside of the polar plate sealing piece is sequentially stacked with the cathode plate, the electrolytic film and the anode plate, the polar plate sealing piece is arranged in the concave part, a sealing ring is further arranged between the upper cover and the lower cover of the electrolytic cell, and the upper cover of the electrolytic cell is sequentially stacked with the polar plate sealing piece in the direction of the lower cover of the electrolytic cell.
2. The apparatus for electrolyzing a hydrogen-rich water according to claim 1, wherein the electrolytic cell lower cover is provided with a first recess and a second recess, the first recess and the second recess being stacked in this order on the electrolytic cell lower cover, and the first recess accommodates the plate seal.
3. The device for electrolyzing hydrogen-rich water according to claim 2, wherein the second recess corresponds to the bottom of the pole plate sealing member, and a water outlet hole is formed in the bottom of the second recess.
4. The hydrogen-rich water electrolysis device according to claim 2, wherein the first recess has a larger area than the second recess.
5. The hydrogen-rich water electrolysis device according to any one of claims 1 to 4, wherein a second connection terminal is provided on the anode plate, a first connection terminal is provided on the cathode plate, a second connection terminal hole and a first connection terminal hole are provided on the plate seal member, the second connection terminal passes through the second connection terminal hole, and the first connection terminal passes through the first connection terminal hole.
6. The hydrogen-rich water electrolysis device according to claim 5, wherein the lower cover of the electrolysis cell is provided with a third terminal hole and a fourth terminal hole, the second terminal is inserted into the fourth terminal hole through the second terminal hole, and the first terminal is inserted into the third terminal hole through the first terminal hole.
7. The device for electrolyzing device of claim 6, wherein said electrolytic cell cover is further provided with threads adapted to a hydrogen-rich water cup.
8. The apparatus for electrolyzing device for producing hydrogen-rich water according to claim 1, wherein the electrolytic membrane is a proton exchange membrane.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202022995425.4U CN214004135U (en) | 2020-12-14 | 2020-12-14 | Electrolysis device for preparing hydrogen-rich water |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202022995425.4U CN214004135U (en) | 2020-12-14 | 2020-12-14 | Electrolysis device for preparing hydrogen-rich water |
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| Publication Number | Publication Date |
|---|---|
| CN214004135U true CN214004135U (en) | 2021-08-20 |
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| Application Number | Title | Priority Date | Filing Date |
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| CN202022995425.4U Active CN214004135U (en) | 2020-12-14 | 2020-12-14 | Electrolysis device for preparing hydrogen-rich water |
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN115323415A (en) * | 2022-05-17 | 2022-11-11 | 广东卡沃罗氢科技有限公司 | PEM (proton exchange membrane) electrolytic cell |
-
2020
- 2020-12-14 CN CN202022995425.4U patent/CN214004135U/en active Active
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN115323415A (en) * | 2022-05-17 | 2022-11-11 | 广东卡沃罗氢科技有限公司 | PEM (proton exchange membrane) electrolytic cell |
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