CN218635758U - Small-size hydrogen generator module and hydrogen-rich water cup - Google Patents

Abstract

The utility model discloses a small-sized hydrogen generator module and a hydrogen-rich water cup, wherein the small-sized hydrogen generator module comprises an upper module cover and a lower module cover which are connected with each other, an electrolyte inlet is arranged on the upper module cover, a first electrode plate, an electrolyte membrane and a second electrode plate are clamped between the upper module cover and the lower module cover from top to bottom, and through holes are arranged on the first electrode plate and the second electrode plate; a third electrode plate is arranged between the electrolytic film and the first electrode plate, and a fourth electrode plate is arranged between the electrolytic film and the second electrode. The hydrogen-rich water cup comprises a small hydrogen generator module, and further comprises a cup cover, a cup body and a cup seat which are sequentially connected from top to bottom, wherein the small hydrogen generator module is arranged in the cup seat, the lower end of the cup body is provided with an electrolyte outlet, and the electrolyte outlet is in threaded connection with an electrolyte inlet. The utility model can improve the electrolysis efficiency and ensure the safety.

Description

Small-size hydrogen generator module and hydrogen-rich water cup

Technical Field

The utility model belongs to the technical field of the pure water electrolysis, concretely relates to small-size hydrogen generator module and rich hydrogen drinking cup.

Background

The existing hydrogen generator modules on the market are not very good in conductivity, so that the electrolysis efficiency is low, and the use requirements of people cannot be well met.

The hydrogen generator module serving as the pure water electrolysis device is generally used in a hydrogen-rich water cup, but a large amount of gas is generated inside the existing hydrogen-rich water cup in the electrolysis process, so that the internal pressure is gradually increased, certain potential safety hazards are caused, and the technical problem which cannot be solved well at present is solved.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a small-size hydrogen generator module and rich hydrogen drinking cup for solve at least one above-mentioned problem that exists among the prior art.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

on one hand, the embodiment provides a small-sized hydrogen generator module, which comprises an upper module cover and a lower module cover which are connected with each other, wherein the upper module cover is provided with an electrolyte inlet, a first electrode plate, an electrolytic film and a second electrode plate are clamped between the upper module cover and the lower module cover from top to bottom, and the first electrode plate and the second electrode plate are provided with through holes; a third electrode plate is arranged between the electrolytic film and the first electrode plate, and a fourth electrode plate is arranged between the electrolytic film and the second electrode plate.

As an in the utility model discloses in an preferred technical scheme, be provided with first annular sealing silica gel between module upper cover and the first plate electrode.

As an optimized technical scheme in the utility model, be provided with second annular sealing silica gel between first plate electrode and the electrolytic film, second annular sealing silica gel sets up outside the third plate electrode.

As an optimized technical scheme in the utility model, be provided with third annular sealing silica gel between electrolytic film and the second plate electrode, third annular sealing silica gel sets up outside the fourth plate electrode.

As an in the utility model discloses in an preferred technical scheme, be provided with fourth annular sealing silica gel between second plate electrode and the module lower cover.

As an optimal technical proposal in the utility model, the module upper cover and the module lower cover are made of food-grade PC plastic.

On the other hand, this the utility model also provides a hydrogen-rich drinking cup, including above-mentioned arbitrary small-size hydrogen generator module, still include bowl cover, cup and the cup that from the top down connected gradually, small-size hydrogen generator module sets up in the cup, and the lower extreme of cup is provided with the electrolyte export, electrolyte export and electrolyte entry threaded connection.

As a preferred technical proposal in the utility model, a lower connecting block is clamped in the cup cover and is in threaded connection with the cup body, a groove is arranged at the upper end of the lower connecting block, a limit cover is connected in the groove in a sliding way, and a pressure relief cavity is formed between the limit cover and the inner bottom surface of the groove; the lower connecting block is provided with a pressure relief hole which is communicated with the inner cavity of the cup body and the pressure relief cavity, the pressure relief hole comprises a first through hole and a second through hole which are communicated with each other, the first through hole is communicated with the inner cavity of the cup body, the inner diameter of the first through hole is smaller than that of the second through hole, and the inner diameter of the second through hole is gradually increased from one end, close to the first through hole, to the other end; a silica gel plug for plugging the first through hole is arranged in the second through hole; one end of the silica gel plug, which is far away from the first through hole, is provided with a T-shaped limiting column, and a spring is arranged between the T-shaped limiting column and the limiting cover.

As a preferred technical scheme in the utility model, at least two fixture blocks are arranged on the outer wall of the lower connecting block, and the lower connecting block is clamped in the cup cover through the fixture blocks; the outer wall of the lower connecting block is also provided with a guide bulge, and a guide sliding groove matched with the guide bulge is arranged in the cup cover.

As a preferred technical scheme in the utility model, be provided with the pressure release breach on the cell wall of recess, be provided with the pressure release clearance between direction spout and the direction arch.

Has the beneficial effects that:

the utility model provides a small-size hydrogen generator module, guarantee first plate electrode, the stability of electrolytic film and second plate electrode through the connection of module upper cover and module lower cover, then first plate electrode and second plate electrode are electrically conductive, combine the electrolytic film, increase third plate electrode and fourth plate electrode from top to bottom at the electrolytic film simultaneously, increase the electric conductivity of electrolytic film, increase electrolysis efficiency, this improves more high-efficient and energy-conservation, guarantee the bearing capacity of module simultaneously, guarantee that the module is difficult to leak under the long-time pressure condition.

The utility model also provides a hydrogen-rich drinking cup, small-size hydrogen generator module set up in the cup, and the lower extreme of cup is provided with the electrolyte export, and electrolyte export and electrolyte entry threaded connection are used for the use of hydrogen-rich drinking cup with small-size hydrogen generator module to carry out high-efficient electrolysis to the pure water, in order to satisfy the user demand, improve and experience the sense, this hydrogen-rich drinking cup can realize the pressure release, improves the security.

Drawings

Fig. 1 is a cross-sectional view of a small hydrogen generator module of the present invention;

FIG. 2 is a schematic view of the hydrogen-rich water cup of the present invention;

FIG. 3 is a cross-sectional view of the lid of the hydrogen-rich water cup of the present invention;

FIG. 4 is a schematic view of the connection between the middle and lower connecting blocks and the limiting cover;

fig. 5 is a schematic structural view of the middle and lower connecting block of the present invention.

In the figure: 1-module upper cover; 101-an electrolyte inlet; 2-module lower cover; 3-a first electrode plate; 4-an electrolytic membrane; 5-a second electrode plate; 6-a third electrode plate; 7-first annular sealing silica gel; 8-second annular sealing silica gel; 9-third annular sealing silica gel; 10-fourth ring-shaped sealing silica gel; 11-a cup cover; 12-a cup body; 13-cup holder; 14-lower connecting block; 15-a limit cover; 16-a pressure relief cavity; 17-silica gel plug; 18-T type spacing post; 19-a fixture block; 20-a guide projection; 21-a guide chute; 22-a spring; 23-pressure relief vent; and 24-a fourth electrode plate.

Detailed Description

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the present invention will be briefly described below with reference to the accompanying drawings and the description of the embodiments or the prior art, and it is obvious that the following description of the structure of the accompanying drawings is only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without any inventive work. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto.

The first embodiment is as follows:

as shown in fig. 1, in one aspect, the present embodiment provides a small-sized hydrogen generator module, which includes an upper module cover 1 and a lower module cover 2 that are connected to each other, and may be, but is not limited to, simply bolted, and without specific limitation, an electrolyte inlet 101 is provided on the upper module cover 1, and as a small-sized hydrogen generator module, an electrolyte enters between the upper module cover 1 and the lower module cover 2 from the electrolyte inlet 101, and is electrolyzed therebetween, a first electrode plate 3, an electrolyte membrane 4, and a second electrode plate 5 are clamped from top to bottom between the upper module cover 1 and the lower module cover 2, through holes are provided on the first electrode plate 3 and the second electrode plate 5, a third electrode plate 6 is provided between the electrolyte membrane 4 and the first electrode plate 3, and a fourth electrode plate 24 is provided between the electrolyte membrane 4 and the second electrode plate 5, and the stability of the first electrode plate 3, the electrolyte membrane 4, and the second electrode plate 5 is ensured by the connection between the upper module cover 1 and the lower module cover 2, and then the first electrode plate 3 and the second electrode plate 5 are not easily conductive, and the electrolyte membrane 4 is combined with the third electrode plate 4, and the lower electrode plate 2, and the third electrode plate 6 are also added, and the lower electrode plate 2, thereby increasing the efficiency of the pressure of the module can improve the efficiency of the module, and the module can improve the module.

The utility model discloses a first plate electrode 3 is guaranteed in the connection of module upper cover 1 and module lower cover 2, electrolytic film 4 and second plate electrode 5's stability, then first plate electrode 3 and second plate electrode 5 are electrically conductive, combine electrolytic film 4, increase third plate electrode 6 and fourth plate electrode 24 from top to bottom at the electrolytic film simultaneously, increase the electric conductivity of electrolytic film, increase electrolysis efficiency, this improves more high-efficient and energy-conservation, guarantee the bearing capacity of module simultaneously, guarantee that the module is difficult to leak under the long-time pressure condition.

As a preferred embodiment in this embodiment, it should be further explained that a first annular sealing silica gel 7 is disposed between the module upper cover 1 and the first electrode plate 3, so as to enhance the sealing performance between the module upper cover 1 and the first electrode plate 3.

As a preferred embodiment in this embodiment, it should be further described that a second annular sealing silica gel 8 is disposed between the first electrode plate 3 and the electrolytic film 4, the second annular sealing silica gel 8 is disposed outside the third electrode plate 6, and the second annular sealing silica gel 8 can enhance the sealing performance between the first electrode plate 3 and the electrolytic film 4, and will not conflict with the third electrode plate 6.

As a preferred embodiment in this embodiment, it should be further explained that a third annular sealing silica gel 9 is disposed between the electrolytic membrane 4 and the second electrode plate 5, the third annular sealing silica gel 9 is disposed outside the fourth electrode plate 24, and the third annular sealing silica gel 9 enhances the sealing performance between the electrolytic membrane 4 and the second electrode plate 5, and does not conflict with the fourth electrode plate 24.

As a preferred embodiment in this embodiment, it should be further explained that a fourth ring-shaped sealing silica gel 10 is disposed between the second electrode plate 5 and the module lower cover 2 to enhance the sealing performance between the second electrode plate 5 and the module lower cover 2.

As a preferred embodiment in this embodiment, it should be further noted that the module upper cover 1 and the module lower cover 2 are made of food-grade PC plastic, can be in direct contact with water, and have high safety.

Example two:

as shown in fig. 2-5, the embodiment provides a hydrogen-rich water cup, which comprises the small-sized hydrogen generator module in the first embodiment, and further comprises a cup cover 11, a cup body 12 and a cup base 13 which are sequentially connected from top to bottom, wherein the small-sized hydrogen generator module is arranged in the cup base 13, an electrolyte outlet is formed in the lower end of the cup body 12, the electrolyte outlet is in threaded connection with an electrolyte inlet 101, and the small-sized hydrogen generator module is used for the hydrogen-rich water cup, so that high-efficiency electrolysis is performed on purified water, the use requirement is met, and the experience feeling is improved.

As a preferred embodiment in this embodiment, it should be further described that a lower connection block 14 is clamped in the cup cover 11, the lower connection block 14 is in threaded connection with the cup body 12, so that the connection between the cup cover 11 and the cup body 12 can be realized, a groove is arranged at the upper end of the lower connection block 14, a limit cover 15 is slidably connected in the groove, a pressure relief cavity 16 is formed between the limit cover 15 and the inner bottom surface of the groove, and a certain amount of gas can be contained during pressure relief, so as to achieve the effect of pressure relief; the lower connecting block 14 is provided with a pressure relief hole communicating the inner cavity of the cup body 12 with the pressure relief cavity 16, the pressure relief hole comprises a first through hole and a second through hole which are communicated with each other, the first through hole is communicated with the inner cavity of the cup body 12, and the inner diameter of the first through hole is smaller than that of the second through hole, more specifically, the inner diameter of one end of the first through hole communicated with the second through hole is smaller than that of one end of the second through hole communicated with the first through hole, actually, the inner diameter of each part of the first through hole is smaller than that of each part of the second through hole, and the inner diameter of the second through hole gradually increases from one end close to the first through hole to the other end, so that the pressure relief hole can be understood as a trapezoidal hole; a silica gel plug 17 for plugging the first through hole is arranged in the second through hole to prevent pressure release under normal conditions; the one end that silica gel stopper 17 kept away from first through-hole is provided with the spacing post 18 of T type, be provided with spring 22 between the spacing post 18 of T type and the spacing lid 15, spring 22 can support and press the spacing post 18 of T type, and then support tight spacing lid 15 through the spacing post 18 of T type, make spacing lid 15 block up first through-hole, only when the pressure in the cup surpassed the elastic force of spring 22, spring 22 was compressed, first through-hole is kept away from to spacing lid 15, gas just can get into in the pressure release chamber 16 through the clearance between first through-hole and spacing lid 15 and the second through-hole in the cup, realize the pressure release, improve the security.

As a preferred embodiment in this embodiment, it should be further described that at least two fixture blocks 19 are arranged on the outer wall of the lower connection block 14, and the lower connection block 14 is clamped in the cup cover 11 through the fixture blocks 19, so that the assembly and disassembly are convenient; the outer wall of the lower connecting block 14 is also provided with a guide bulge 20, and the cup cover 11 is internally provided with a guide sliding groove 21 matched with the guide bulge 20, so that installation guide can be provided, and the installation is more convenient.

As a preferred embodiment in this embodiment, it needs to be further described that a pressure relief gap 23 is arranged on a groove wall of the groove, and a pressure relief gap is arranged between the guide chute 21 and the guide protrusion 20, so that gas in the pressure relief cavity 16 can be discharged outside, and a pressure relief effect is ensured.

Finally, it should be noted that: the above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A small-sized hydrogen generator module is characterized by comprising an upper module cover (1) and a lower module cover (2) which are connected with each other, wherein an electrolyte inlet (101) is formed in the upper module cover (1), a first electrode plate (3), an electrolytic film (4) and a second electrode plate (5) are clamped between the upper module cover (1) and the lower module cover (2) from top to bottom, and through holes are formed in the first electrode plate (3) and the second electrode plate (5); a third electrode plate (6) is arranged between the electrolytic membrane (4) and the first electrode plate (3), and a fourth electrode plate (24) is arranged between the electrolytic membrane (4) and the second electrode plate (5).

2. The small hydrogen generator module according to claim 1, wherein a first annular sealing silica gel (7) is arranged between the module upper cover (1) and the first electrode plate (3).

3. The small hydrogen generator module according to claim 1, wherein a second annular sealing silica gel (8) is arranged between the first electrode plate (3) and the electrolyte membrane (4), the second annular sealing silica gel (8) being arranged outside the third electrode plate (6).

4. The small hydrogen generator module according to claim 1, wherein a third annular sealing silica gel (9) is arranged between the electrolyte membrane (4) and the second electrode plate (5), the third annular sealing silica gel (9) being arranged outside the fourth electrode plate (24).

5. The small hydrogen generator module according to claim 1, wherein a fourth annular sealing silica gel (10) is arranged between the second electrode plate (5) and the module lower cover (2).

6. The small hydrogen generator module according to claim 1, characterized in that the module upper cover (1) and the module lower cover (2) are both made of food grade PC plastic.

7. A hydrogen-rich water cup is characterized by comprising the small-sized hydrogen generator module as claimed in any one of claims 1 to 6, and further comprising a cup cover (11), a cup body (12) and a cup seat (13) which are sequentially connected from top to bottom, wherein the small-sized hydrogen generator module is arranged in the cup seat (13), an electrolyte outlet is formed in the lower end of the cup body (12), and the electrolyte outlet is in threaded connection with an electrolyte inlet (101).

8. The hydrogen-rich water cup as claimed in claim 7, characterized in that a lower connecting block (14) is clamped in the cup cover (11), the lower connecting block (14) is in threaded connection with the cup body (12), a groove is formed in the upper end of the lower connecting block (14), a limiting cover (15) is slidably connected in the groove, and a pressure relief cavity (16) is formed between the limiting cover (15) and the inner bottom surface of the groove; the lower connecting block (14) is provided with a pressure relief hole communicated with the inner cavity of the cup body (12) and the pressure relief cavity (16), the pressure relief hole comprises a first through hole and a second through hole which are communicated with each other, the first through hole is communicated with the inner cavity of the cup body (12), the inner diameter of the first through hole is smaller than that of the second through hole, and the inner diameter of the second through hole is gradually increased from one end, close to the first through hole, to the other end; a silica gel plug (17) for plugging the first through hole is arranged in the second through hole; one end, far away from the first through hole, of the silica gel plug (17) is provided with a T-shaped limiting column (18), and a spring (22) is arranged between the T-shaped limiting column (18) and the limiting cover (15).

9. The hydrogen-rich water cup as claimed in claim 8, wherein the outer wall of the lower connecting block (14) is provided with at least two clamping blocks (19), and the lower connecting block (14) is clamped in the cup cover (11) through the clamping blocks (19); the outer wall of the lower connecting block (14) is also provided with a guide bulge (20), and a guide sliding groove (21) matched with the guide bulge (20) is arranged in the cup cover (11).

10. The hydrogen-rich water cup as claimed in claim 9, characterized in that a pressure relief notch (23) is provided on the wall of the recess, and a pressure relief gap is provided between the guide chute (21) and the guide protrusion (20).

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