CN207792784U - Portable hydrogen-rich water generating device - Google Patents

Abstract

A kind of portable hydrogen-rich water generating device, including hydrogen manufacturing module, anode electrode, cathode electrode and circuit board, hydrogen manufacturing module include cathode plate, ionic membrane and anode plate, and cathode plate and anode plate are located at the both sides up and down of the periphery of ionic membrane；Anode electrode is electrically connected with anode plate；Cathode electrode is electrically connected with cathode plate, wherein anode electrode and cathode electrode are elastic component；Anode electrode connects circuit board and anode plate, and cathode electrode connects circuit board and cathode plate.The embodiment of the present application nets securing electrolysis by elastic element and carries out circuit connection, can rise and prevent to lead to the deformation of electrolysis net because of manual operation or loosen risk, realize the standardization of product major function, and reduce the cumbersome degree of assembling.

Description

Portable hydrogen-rich water generating device

Technical field

This application involves daily necessities fields, in particular to a kind of portable hydrogen-rich water generating device.

Background technology

Hydrogen manufacturing module is owned by hydrogen-rich water generating device on the market at present, includes centainly anode and cathode electricity in hydrogen manufacturing module Net is solved, not influence to be electrolysed net hydrogen manufacturing, the circuit connection for being electrolysed net is usually made in electrolysis net outer edge, and anode and cathode is electrolysed net Opposite location is typically at connection circuit.Conventional hydrogen production module in an assembling process all be using screw directly will electrolysis net with Circuit part carries out circuit connection.There are certain risks during production operation for this mode, predominantly：1, when screw and electrolysis When the physical connection tension of net, the opposite place that electrolysis net is contacted with screw can be forced to tilt, both sides tilt simultaneously can influence to be electrolysed The contact area of net, influences hydrogen production efficiency；2, when the physical connection of screw and point solution net is more loose, neither one is oppressed accordingly Power, two electrolysis nets will appear not fit-state, influence hydrogen production efficiency, and have loosened screw in use to cause power-off risk.

Because of fiting completely by manual operation to screw in production, this mode just inevitably causes production difficulty Greatly, the assembly process is complicated, standardization is difficult to batch hydrogen manufacturing effect, reduces product quality.

Utility model content

The embodiment of the present application proposes a kind of portable hydrogen-rich water generating device, to solve the above problems.

The embodiment of the present application provides a kind of portable hydrogen-rich water generating device, including hydrogen manufacturing module, anode electrode, cathode electricity Pole and circuit board, hydrogen manufacturing module include cathode plate, ionic membrane and anode plate, and cathode plate and anode plate are located at ionic membrane The both sides up and down of periphery；Anode electrode is electrically connected with anode plate；Cathode electrode is electrically connected with cathode plate, wherein anode electrode and Cathode electrode is elastic component；Anode electrode connects circuit board and anode plate, and cathode electrode connects circuit board and cathode plate.

In one embodiment, elastic component is helical spring.

In one embodiment, elastic component is spring thimble.

In one embodiment, elastic component is shrapnel.

In one embodiment, there is shrapnel opposite first end and second end, first end to have hooked projection portion, hook Shape lug boss is contacted with corresponding cathode plate or anode plate, and second end is connect with circuit board.

In one embodiment, anode plate have anode plate epitaxy part, anode plate epitaxy part from the edge of anode plate to Far from anode plate center direction extend, cathode plate have cathode plate epitaxy part, cathode plate epitaxy part from the edge of cathode plate to Direction far from cathode plate center extends, and anode electrode is electrically connected with anode plate epitaxy part, cathode electrode and cathode plate epitaxy part Electrical connection.

In one embodiment, anode plate is discoid, and cathode plate is discoid, outside cathode plate epitaxy part and anode plate Prolong the diametrically opposed both ends that portion is located at anode plate.

In one embodiment, portable hydrogen-rich water generating device further includes the first framework, second framework, the first receiving Portion, the second receiving portion, the first framework have opposite first end face and second end face；Second framework is located at second end face side, First framework and second framework are loop configuration, and the outer diameter of second framework is less than the outer diameter of the first framework；Hydrogen manufacturing module is fixed Between second end face and second framework；First receiving portion is located at the periphery of second framework；Second receiving portion is located at the second frame The periphery of body, and it is opposite with the first receiving portion position；Anode plate epitaxy part extends to the first receiving portion, and cathode plate epitaxy part extends To the second receiving portion, anode electrode is contained in the first receiving portion and is abutted with anode plate epitaxy part, and cathode electrode is contained in second Receiving portion is simultaneously abutted with cathode plate epitaxy part.

In one embodiment, the outer diameter of first end face is more than the outer diameter of second end face, and the first framework further includes outer wall, Outer wall extends along the outer circumferential second end face side of first end face, and the first receiving portion and the second receiving portion are located at outer wall and second Between the periphery of end face.In one embodiment, the first framework further includes the inner wall opposite with outer wall, inner wall and second end face It is connected, the first receiving portion is between outer wall and inner wall.

Compared to the prior art, the embodiment of the present application nets securing electrolysis by elastic element and carries out circuit connection, It can rise and prevent to lead to the deformation of electrolysis net because of manual operation or loosen risk, realize the standardization of product major function, and reduce Assembling cumbersome degree.

These aspects or other aspects of the application can more straightforward in the following description.

Description of the drawings

In order to more clearly explain the technical solutions in the embodiments of the present application, make required in being described below to embodiment Attached drawing is briefly described, it should be apparent that, the accompanying drawings in the following description is only some embodiments of the present application, for For those skilled in the art, without creative efforts, it can also be obtained according to these attached drawings other attached Figure.

Fig. 1 is the sectional view of the bottom of portable hydrogen-rich water generating device provided by the embodiments of the present application.

Fig. 2 is the first framework of the portable hydrogen-rich water generating device that another embodiment of the embodiment of the present application provides, the The sectional view of two frameworks, hydrogen manufacturing module and electrode.

Fig. 3 is the first framework of the portable hydrogen-rich water generating device that the another embodiment of the embodiment of the present application provides, the The sectional view of two frameworks, hydrogen manufacturing module and electrode.

Specific implementation mode

In order to make those skilled in the art more fully understand application scheme, below in conjunction in the embodiment of the present application Attached drawing, technical solutions in the embodiments of the present application are clearly and completely described.Obviously, described embodiment is only Some embodiments of the present application, instead of all the embodiments.Based on the embodiment in the application, those skilled in the art are not having There is the every other embodiment obtained under the premise of making creative work, shall fall in the protection scope of this application.

Referring to Fig. 1, portable hydrogen-rich water generating device 200 provided by the embodiments of the present application, is water-cup-shaped, has rim of a cup (not shown) and bottom of a cup 82, and connect the wall of cup 83 of rim of a cup and bottom of a cup 82.

Portable hydrogen-rich water generating device 200 further includes the hydrogen manufacturing module 20, anode electrode 61, cathode being arranged in bottom of a cup 82 Electrode 62 and circuit board 70.

Hydrogen manufacturing module 20 includes cathode plate 21, ionic membrane 22 and anode plate 23, and cathode plate 21 and anode plate 23 are located at The both sides up and down of 22 periphery of ionic membrane.

Anode electrode 61 and cathode electrode 62 are elastic component, are carried out to securing hydrogen manufacturing module 20 by elastic element Circuit connects, and can rise and prevent to cause hydrogen manufacturing module 20 to deform or loosen risk because of manual operation, realize the mark of product major function Standardization, and reduce the cumbersome degree of assembling.In the present embodiment, elastic component is specially spring thimble.

Anode electrode 61 and cathode electrode 62 are electrically connected with circuit board 70 respectively, and circuit board 70 can be located at hydrogen manufacturing module 20 lower section, or positioned at the periphery of hydrogen manufacturing module 20.

Referring to Fig. 2, in another embodiment, elastic component is specially helical spring, deformation direction is rim of a cup to cup Between bottom 82.

Referring to Fig. 3, in another embodiment, elastic component is specially shrapnel.Specifically, shrapnel (i.e. anode electrode 61 and cathode electrode 62) substantially vertical bar structure, with opposite first end 601 and second end 602, first end 601 has Hooked projection portion 6011, hooked projection portion 6011 are contacted with corresponding cathode plate 21 or anode plate 22, second end 602 and circuit Plate connects.

Please continue to refer to Fig. 1, in the present embodiment, cathode plate 21 and anode plate 23 are the big disc-shaped structures such as two, The two is stacked up and down.One end of cathode plate 21 extends out there are one setting from the edge of cathode plate 21 to far from 21 center of cathode plate Cathode plate epitaxy part 211, concrete shape is unlimited, can be rectangular, round or special-shaped.Anode plate 23 sets that there are one from anode plate The anode plate epitaxy part 231 that 23 edge extends out to separate 23 center of anode plate.Anode electrode 61 and anode plate epitaxy part 231 electrical connections, cathode electrode 62 and cathode plate epitaxy part 211 are electrically connected.

Preferably, anode plate epitaxy part 231 and cathode plate epitaxy part 211 are located at the arbitrary of anode plate 21 (or cathode plate 23) One diametrically opposed both ends.

Portable hydrogen-rich water generating device 200 still further comprises the first framework 10, second framework 30, the first receiving portion 103 and second receiving portion 107.

First framework 10 has opposite first end face 101 and second end face 102, and hydrogen manufacturing module 20 is close to second end face 102 settings.Second framework 30 is located at 23 side of anode plate, coordinates to fix hydrogen manufacturing module 20 with the first about 10 framework.First Receiving portion 103 is located at the periphery of second framework 30.First receiving portion 103 is hollow.Second receiving portion 107 and the first receiving portion 103 Center about second framework 30 is centrosymmetric setting, also is located at the periphery of second framework 30.The structure of second receiving portion 107 It is identical with the structure of the first receiving portion 103.

The first end face 101 of first framework 10 is an annular surface with certain ring width, and second end face 102 is one Annular surface with certain ring width, 102 central axis having the same of first end face 101 and second end face, and first end face 101 outer diameter is more than the outer diameter of second end face 102.First framework 10 has first port 106 (i.e. open circles), is located at the first frame The center of body 10, and penetrate through first end face 101 and second end face 102.

Also there is first framework 10 outer wall 104, outer wall 104 to prolong from 102 side of outer circumferential second end face of first end face 101 It stretches, outer wall 104 is arranged around first end face 101, and cylindrical structure or opposite first end can be formed perpendicular to first end face 101 Face 101 slightly expands outwardly to form round estrade structure.First receiving portion 103 and the second receiving portion 107 are located at outer wall 104 and the second frame Between body 30.

First framework 10 further includes the inner wall 108 opposite with outer wall 104, inner wall 108 and second end face 102 in its periphery 1021 are connected, therefore, more specifically, the first receiving portion 103 and the second receiving portion 107 be located at outer wall 104 and inner wall 108 it Between.

Anode plate epitaxy part 231 extends to the top hollow space of the first receiving portion 103, and cathode plate epitaxy part 211 extends To the top hollow space of the second receiving portion 107.Anode electrode 61 is contained in the first receiving portion 103 and and anode plate epitaxy part 231 abut, and cathode electrode 62 is contained in the second receiving portion 107 and is abutted with cathode plate epitaxy part 211.

Anode electrode 61, cathode electrode 62 and cathode plate 21, anode plate 23 form conductive path under the state that is powered on, Water in cup is electrolysed, cathode plate 21 generates hydrogen, and anode plate 23 generates oxygen, and hydrogen is upward by first port 103 Effusion makes Shuifu County's hydrogen in cup, and oxygen is escaped downwards by second port 31.In the present embodiment, inner wall 108 has Screw thread 1080, the periphery 301 of second framework 30 have a screw thread 3010, and the outer diameter of second framework 30 and second end face 102 is outer Diameter is essentially identical so that second framework 30 corresponds to the center of the first framework 10, and second framework 30 therefore can be with the first framework 10 It is threadedly coupled, to fix hydrogen manufacturing module 20.

First framework 10 and second framework 30 can removably or unremovably be connect with bottom of a cup.

The several embodiments of the application above described embodiment only expresses, the description thereof is more specific and detailed, but simultaneously Cannot the limitation to the application the scope of the claims therefore be interpreted as.It should be pointed out that for those of ordinary skill in the art For, under the premise of not departing from the application design, various modifications and improvements can be made, these belong to the guarantor of the application Protect range.Therefore, the protection domain of the application patent should be determined by the appended claims.

Claims (10)

1. a kind of portable hydrogen-rich water generating device, which is characterized in that including：

Hydrogen manufacturing module, the hydrogen manufacturing module include cathode plate, ionic membrane and anode plate, and the cathode plate and the anode plate divide Not Wei Yu the ionic membrane periphery both sides up and down；

Anode electrode is electrically connected with the anode plate；

Cathode electrode is electrically connected with the cathode plate, wherein the anode electrode and the cathode electrode are elastic component；With And

Circuit board, the anode electrode connect the circuit board and the anode plate, and the cathode electrode connects the circuit board With the cathode plate.

2. portable hydrogen-rich water generating device as described in claim 1, which is characterized in that the elastic component is helical spring.

3. portable hydrogen-rich water generating device as described in claim 1, which is characterized in that the elastic component is spring thimble.

4. portable hydrogen-rich water generating device as described in claim 1, which is characterized in that the elastic component is shrapnel.

5. portable hydrogen-rich water generating device as claimed in claim 4, which is characterized in that the shrapnel has opposite first End and second end, the first end have hooked projection portion, and the hooked projection portion connects with corresponding cathode plate or anode plate It touches, the second end is connect with circuit board.

6. portable hydrogen-rich water generating device as described in claim 1, which is characterized in that the anode plate has outside anode plate Prolong portion, the anode plate epitaxy part extends from the edge of the anode plate to the direction far from the anode plate center, described the moon Pole plate has cathode plate epitaxy part, and the cathode plate epitaxy part is from the edge of the cathode plate to the separate cathode plate center Direction extends, and the anode electrode is electrically connected with the anode plate epitaxy part, the cathode electrode and the cathode plate epitaxy part Electrical connection.

7. portable hydrogen-rich water generating device as claimed in claim 6, which is characterized in that the anode plate is discoid, institute It is discoid to state cathode plate, and the cathode plate epitaxy part and the anode plate epitaxy part are located in the diametric(al) of the anode plate Opposite both ends.

8. portable hydrogen-rich water generating device as claimed in claim 6, which is characterized in that the portable hydrogen-rich water fills It sets and further includes：

First framework, first framework have opposite first end face and second end face；

Second framework, the second framework are located at the second end face side, and first framework and the second framework are ring Shape structure, and the outer diameter of the second framework is less than the outer diameter of first framework；

The hydrogen manufacturing module is fixed between the second end face and the second framework；

First receiving portion is located at the periphery of the second framework；

Second receiving portion is located at the periphery of the second framework, and opposite with first receiving portion position；

The anode plate epitaxy part extends to first receiving portion, and the cathode plate epitaxy part extends to second receiving Portion, the anode electrode are contained in first receiving portion and are abutted with the anode plate epitaxy part, the cathode electrode receiving It is abutted in second receiving portion and with the cathode plate epitaxy part.

9. portable hydrogen-rich water generating device as claimed in claim 8, which is characterized in that the outer diameter of the first end face is more than The outer diameter of the second end face, first framework further includes outer wall, the outer wall along the first end face outer circumferential direction institute State the extension of second end face side, first receiving portion and second receiving portion are located at the outer wall and the second end face Between periphery.

10. portable hydrogen-rich water generating device as claimed in claim 9, which is characterized in that first framework further include with The opposite inner wall of the outer wall, the inner wall are connected with the second end face, and first receiving portion is located at the outer wall and institute It states between inner wall.