CN115120082A - Hydrogen-rich water cup with hydrogen measuring function - Google Patents

Abstract

The invention relates to a hydrogen-rich water cup with a hydrogen measuring function, which comprises a cup cover, a cup body detachably connected with the cup cover, a hydrogen measuring circuit board, a hydrogen measuring probe, a total circuit board and a display module, wherein the cup cover is provided with a cup cover conductive contact part, the cup body is provided with a cup body conductive contact part, the hydrogen measuring circuit board is arranged inside the cup cover, the hydrogen measuring probe and the total circuit board are arranged inside the cup body, the display module is arranged on the surface of the cup body, the hydrogen measuring circuit board is electrically connected with one end of the cup cover conductive contact part, one end of the cup body conductive contact part is electrically connected with the total circuit board, the hydrogen measuring probe is electrically connected with the total circuit board, the display module is electrically connected with the total circuit board, and the other end of the cup cover conductive contact part is electrically connected with the other end of the cup body conductive contact part when the cup cover is covered on the cup body. The invention can solve the use problems of overstaffed structure, increased heat generation and reduced hydrogen production efficiency of the water cup caused by the hydrogen measuring circuit board arranged below the cup.

Description

Hydrogen-rich water cup with hydrogen measuring function

Technical Field

The invention relates to the technical field of hydrogen-rich water cups, in particular to a hydrogen-rich water cup with a hydrogen measuring function.

Background

A plurality of hydrogen-rich water cups appear on the current market, and the human body can be benefited by drinking more hydrogen-rich water. Hydrogen-rich water, which is actually called plain water, is derived from japan and is interpreted as hydrogen-rich water domestically because water is rich in hydrogen. The hydrogen-rich water cup mainly adopts the electrolysis principle to independently produce hydrogen, and then the hydrogen-rich water cup is tightly covered with the cup cover to be pressurized and dissolved in water.

In order to meet the requirement that the hydrogen-rich water cup can measure the hydrogen content, the existing product mainly arranges a probe in the cup, and a hydrogen measuring circuit board, a power supply module, an electrolysis module, a main circuit board and other devices are arranged at the bottom of the cup together. However, the above arrangement makes the structure of the cup bottom bulky and heat generation increased, and the power volume of the electrolytic cell needs to be compressed, thereby affecting the efficiency of hydrogen production in the hydrogen-rich water cup.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention aims to provide a hydrogen-rich water cup with a hydrogen measuring function, which can solve the problems of overstaffed structure, increased heat generation and reduced hydrogen production efficiency of the water cup caused by the arrangement of a hydrogen measuring circuit board below the cup.

In order to achieve the purpose, the invention adopts the following technical scheme:

the invention provides a hydrogen-rich water cup with a hydrogen measuring function, which comprises a cup cover, a cup body detachably connected with the cup cover, a hydrogen measuring circuit board, a hydrogen measuring probe, a total circuit board and a display module, wherein the cup cover is provided with a cup cover conductive contact part, the cup body is provided with a cup body conductive contact part, the hydrogen measuring circuit board is arranged inside the cup cover, the hydrogen measuring probe and the total circuit board are arranged inside the cup body, the display module is arranged on the surface of the cup body and is electrically connected with one end of the cup cover conductive contact part, one end of the cup body conductive contact part is electrically connected with the total circuit board, the hydrogen measuring probe is electrically connected with the total circuit board, the display module is electrically connected with the total circuit board, and when the cup cover is covered on the cup body, the other end of the cup cover conductive contact part is electrically connected with the other end of the cup body conductive contact part. The "lid covers the cup body" in the above scheme includes but is not limited to a screwing mode and a direct closing mode.

The invention has the preferable technical scheme that the cup cover is in threaded connection with the cup body, the conductive contact part of the cup cover is positioned on the lower edge of the cup cover, and the conductive contact part of the cup body is positioned on the upper edge of the cup body.

The invention has the preferable technical scheme that the cup body comprises a cup body and a base detachably connected with the cup body, the conductive contact part of the cup body comprises a first conductive contact part of the cup body, a second conductive contact part of the cup body and a conductive contact part of the base, the first conductive contact part of the cup body is electrically connected with the conductive contact part of the second cup body, the first conductive contact part of the cup body and the conductive contact part of the second cup body are arranged on the cup body, the conductive contact part of the base is arranged on the base, when the cup cover covers the cup body, the conductive contact part of the cup cover is electrically connected with the conductive contact part of the first cup body, when the cup body and the base are assembled, the conductive contact part of the second cup body is electrically connected with one end of the conductive contact part of the base, and the other end of the conductive contact part of the base is electrically connected with the hydrogen measuring probe.

The invention has the preferable technical scheme that the cup body is in threaded connection with the base, the second cup body conductive contact part is positioned on the lower edge of the cup body, and the base conductive contact part is positioned on the upper edge of the base.

The invention preferably adopts the technical scheme that the cup cover conductive contact part, the first cup body conductive contact part, the second cup body conductive contact part and the base conductive contact part are two conductive metal sheets.

The invention has the preferable technical scheme that the cup cover is provided with an accommodating cavity, the hydrogen measuring circuit board is positioned in the accommodating cavity, and a cup cover channel for electrical connection is arranged between the accommodating cavity and the conductive contact part of the cup cover.

The invention has the preferable technical scheme that a cup body channel for electrical connection is arranged between the first cup body conductive contact part and the second cup body conductive contact part.

The invention preferably adopts the technical scheme that a hydrogen detection switch for detecting the hydrogen content is arranged at the top of the cup cover and is electrically connected with the hydrogen detection circuit board.

The invention preferably adopts the technical scheme that the power supply device further comprises a power supply module, wherein the power supply module is arranged in the base and is electrically connected with the main circuit board.

The invention preferably adopts the technical scheme that the hydrogen production switch is used for starting hydrogen production and is arranged on the surface of the base and electrically connected with the main circuit board.

The invention has the beneficial effects that:

the invention provides a hydrogen-rich water cup with a hydrogen measuring function, wherein a hydrogen measuring circuit board is arranged on a cup cover, the circuits among the hydrogen measuring circuit board, a total circuit board and a hydrogen measuring probe are communicated when the cup cover is covered on a cup body by utilizing the form of a conductive contact part, and finally the hydrogen content of the current hydrogen-rich water is displayed through a display module. The above structure has the following advantages: 1. after the hydrogen circuit board is upwards detected, sufficient space is left for the lower part of the water cup so as to increase the power volume of the electrolysis module; 2. one of the heating sources is moved upwards, so that the upper limit of the heat capacity of the total circuit board and the electrolysis module at the bottom of the water cup is improved; 3. the redundant space of the cup cover is fully utilized, the balance weight is balanced, and the hand feeling is increased.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a perspective view of a hydrogen-enriched water cup with a hydrogen measuring function according to the present invention;

FIG. 2 is an exploded view of a hydrogen-rich water cup with hydrogen measurement capability according to the present invention;

FIG. 3 is a perspective view of a cover of a hydrogen-rich water cup with a hydrogen measuring function according to the invention;

FIG. 4 is a partial cross-sectional view of a cup cover of a hydrogen-enriched water cup with a hydrogen measuring function according to the invention;

FIG. 5 is a perspective view of the body of a hydrogen-rich water cup with a hydrogen measuring function according to the present invention;

FIG. 6 is a front view of the body of a hydrogen-rich water cup with a hydrogen measuring function according to the present invention;

FIG. 7 is a cross-sectional view taken along line B-B of FIG. 6;

FIG. 8 is a perspective view of the base of a hydrogen enriched water cup with hydrogen sensing capability according to the present invention;

FIG. 9 is a partial exploded view of the base of a hydrogen-enriched water cup with hydrogen measurement capability according to the present invention.

In the figure:

1-a cup cover; 11-a cup cover conductive contact part; 12-a containment chamber; 13-a cup cover channel; 14-hydrogen detection switch; 2-the cup body; 21-a cup body; 211-a first cup conductive contact; 212-a second cup conductive contact; 213-cup body channel; 22-a base; 221-base conductive contacts; 222-a base upper shell; 3-a hydrogen-sensing circuit board; 4-hydrogen measuring probe; 5-total circuit board; 51-opening a hole; 6-a display module; 7-a power supply module; 8-hydrogen production switch; 9-an electrolysis module; 91-fixing the support leg.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

As shown in fig. 1-9, the hydrogen-rich water cup provided in this embodiment includes a cup lid 1, a cup body 2 detachably connected to the cup lid 1, a hydrogen measurement circuit board 3, a hydrogen measurement probe 4, a total circuit board 5, and a display module 6, wherein the cup lid 1 is provided with a cup lid conductive contact portion 11, the cup body 2 is provided with a cup body conductive contact portion, the hydrogen measurement circuit board 3 is disposed inside the cup lid 1, the hydrogen measurement probe 4 and the total circuit board 5 are disposed inside the cup body 2, the display module 6 is disposed on the surface of the cup body 2, the hydrogen measurement circuit board 3 is electrically connected to one end of the cup lid conductive contact portion 11, one end of the cup body conductive contact portion is electrically connected to the total circuit board 5, the hydrogen measurement probe 4 is electrically connected to the total circuit board 5, and the display module 6 is electrically connected to the total circuit board 5, when the cup cover 1 covers the cup body 2, the other end of the cup cover conductive contact part 11 is electrically connected with the other end of the cup body conductive contact part.

This design is surveyed the hydrogen circuit board setting at the bowl cover, utilizes the form of electrically conductive contact part to make bowl cover 1 lid communicate when cup 2 and survey the circuit between hydrogen circuit board 3, total circuit board 5, the 4 three of hydrogen probe, shows current hydrogen-rich water's hydrogen content through display module 6 at last. The above structure has the following advantages: 1. after the hydrogen circuit board is moved upwards, sufficient space is reserved for the lower part of the water cup so as to increase the power volume of the electrolysis module; 2. one of the heat sources is moved upwards, so that the upper limit of the heat capacity of the total circuit board and the electrolytic module at the bottom of the water cup is improved; 3. the redundant space of the cup cover is fully utilized, the balance weight is balanced, and the hand feeling is increased.

Preferably, the cup lid 1 and the cup body 2 are in threaded connection, the cup lid conductive contact part 11 is located on the lower edge of the cup lid 1, and the cup body conductive contact part is located on the upper edge of the cup body 2. When the cup cover is screwed down, the cup cover conductive contact part 11 positioned on the lower edge is just communicated with the cup body conductive contact part positioned on the upper edge, and the design has a simple electrifying structure and is convenient to use.

In this embodiment, specifically, the cup body 2 includes a cup body 21 and a base 22 detachably connected to the cup body 21, the cup body conductive contact portion includes a first cup body conductive contact portion 211, a second cup body conductive contact portion 212 and a base conductive contact portion 221, the first cup body conductive contact portion 211 is electrically connected to the second cup body conductive contact portion 212, the first cup body conductive contact portion 211 and the second cup body conductive contact portion 212 are disposed on the cup body 21, the base conductive contact portion 221 is disposed on the base 22, when the cup lid 1 covers the cup body 2, the cup lid conductive contact portion 11 is electrically connected to the first cup body conductive contact portion 211, when the cup body 21 and the base 22 are assembled, the second cup body conductive contact portion 212 is electrically connected to one end of the base conductive contact portion 221, and the other end of the base conductive contact portion 221 is electrically connected to the hydrogen measurement probe 4. The cup body is divided into the cup body and the base, so that the assembly and subsequent maintenance of the cup are facilitated.

Therefore, according to the above structure, specifically, the cup lid 1 and the cup body 21 are in threaded connection, the cup lid conductive contact portion 11 is located at the lower edge of the cup lid 1, and the first cup body conductive contact portion 211 is located at the upper edge of the cup body 21. When the cup cover is screwed down, the cup cover conductive contact part 11 on the lower edge and the first cup body conductive contact part 211 on the upper edge are just connected.

Specifically, still include power module 7 and electrolysis module 9 in the base 22, total circuit board 5 is power module 7, electrolysis module 9 electric connection respectively, and electrolysis module 9 is used for the electrolysis aquatic to generate hydrogen, and power module 7 is used for the power supply of the part that needs the electricity in each hydrogen-rich water cup, and total circuit board is responsible for except that other operation content of hydrogen measurement operation. The arrangement of the above components is in a conventional manner.

In order to further optimize the space setting of the base, specifically, a base upper shell 222 is arranged above the base 22, an internal thread structure in threaded connection with the cup body 21 is arranged on the base upper shell 222, the electrolysis module 9 and the base upper shell 222 are in threaded connection and fixed inside the base 22, a fixing support leg 91 is further arranged at the bottom of the electrolysis module 9, an opening 51 is formed in the main circuit board 5, the fixing support leg 91 penetrates through the opening 51, and the fixing support leg 91 of the electrolysis module 9 is in threaded connection with the main circuit board 5.

Further, the cup body 21 and the base 22 are connected by a screw thread, the second cup body conductive contact portion 212 is located at the lower edge of the cup body 21, and the base conductive contact portion 221 is located at the upper edge of the base 22. The design has a simple electrifying structure and is convenient to use.

Specifically, the lid conductive contact portion 11, the first body conductive contact portion 211, the second body conductive contact portion 212, and the base conductive contact portion 221 are all two conductive metal sheets. The two conductive metal sheets of each contact respectively correspond to two directions for switching on the current.

Specifically, bowl cover 1 is equipped with and holds chamber 12, surveys hydrogen circuit board 3 and is located and holds chamber 12, holds and is equipped with the bowl cover passageway 13 that is used for walking the wire between chamber 12 and the electrically conductive contact site of bowl cover 11. A cup body channel 213 for conducting wires is arranged between the first cup body conductive contact part 211 and the second cup body conductive contact part 212. The arrangement can prevent water from entering and contacting with the lead, and avoid short circuit.

In order to observe the hydrogen content of the hydrogen-rich water cup more intuitively, a user can generate hydrogen-rich water with different contents according to self requirements, specifically, the top of the cup cover 1 is provided with a hydrogen measurement switch 14 for detecting the hydrogen content, the hydrogen measurement switch 14 is electrically connected with a hydrogen measurement circuit board 3, and the hydrogen production switch 8 for opening hydrogen production is further included, the hydrogen production switch 8 is arranged on the surface of the base 22, and the hydrogen production switch 8 is electrically connected with a main circuit board 5. The user starts to prepare hydrogen-rich water by pressing the hydrogen preparation switch 8, knows the current hydrogen content by pressing the hydrogen measurement switch 14, and stops hydrogen preparation by pressing the hydrogen preparation switch 8 after reaching the required hydrogen content, thereby obtaining the hydrogen-rich water with the required content.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the spirit and scope of the invention. The present invention is not to be limited by the specific embodiments disclosed herein, and other embodiments that fall within the scope of the claims of the present application are intended to be within the scope of the present invention.

Claims (10)

1. A hydrogen-rich water cup with a hydrogen measuring function is characterized by comprising a cup cover (1), a cup body (2) detachably connected with the cup cover (1), a hydrogen measuring circuit board (3), a hydrogen measuring probe (4), a general circuit board (5) and a display module (6);

a cup cover conductive contact part (11) is arranged on the cup cover (1), and a cup body conductive contact part is arranged on the cup body (2);

the hydrogen measurement circuit board (3) is arranged inside the cup cover (1), the hydrogen measurement probe (4) and the total circuit board (5) are arranged inside the cup body (2), and the display module (6) is arranged on the surface of the cup body (2);

the hydrogen measurement circuit board (3) is electrically connected with one end of the cup cover conductive contact part (11), one end of the cup body conductive contact part is electrically connected with the main circuit board (5), the hydrogen measurement probe (4) is electrically connected with the main circuit board (5), and the display module (6) is electrically connected with the main circuit board (5);

when the cup cover (1) covers the cup body (2), the other end of the cup cover conductive contact part (11) is electrically connected with the other end of the cup body conductive contact part.

2. The hydrogen-rich water cup of claim 1, wherein:

the cup cover (1) is in threaded connection with the cup body (2);

the cup cover conductive contact part (11) is positioned on the lower edge of the cup cover (1);

the cup body conductive contact part is positioned on the upper edge of the cup body (2).

3. The hydrogen-rich water cup of claim 1, wherein:

the cup body (2) comprises a cup body (21) and a base (22) detachably connected with the cup body (21);

the cup body conductive contact part comprises a first cup body conductive contact part (211), a second cup body conductive contact part (212) and a base conductive contact part (221), and the first cup body conductive contact part (211) is electrically connected with the second cup body conductive contact part (212);

the first cup body conductive contact part (211) and the second cup body conductive contact part (212) are arranged on the cup body (21), and the base conductive contact part (221) is arranged on the base (22);

bowl cover (1) lid in during cup (2), bowl cover conductive contact portion (11) electric connection in first body conductive contact portion (211) cup body (21) with during base (22) equipment, second body conductive contact portion (212) electric connection in the one end of base conductive contact portion (221), the other end of base conductive contact portion (221) with survey hydrogen probe (4) electric connection.

4. The hydrogen-rich water cup of claim 3, wherein:

the cup body (21) is in threaded connection with the base (22);

the second cup body conductive contact part (212) is positioned at the lower edge of the cup body (21);

the base conductive contact part (221) is positioned on the upper edge of the base (22).

5. The hydrogen-rich water cup of claim 2, wherein:

the cup cover conductive contact part (11), the first cup body conductive contact part (211), the second cup body conductive contact part (212) and the base conductive contact part (221) are two conductive metal sheets.

6. The hydrogen-rich water cup of claim 1, wherein:

the cup cover (1) is provided with an accommodating cavity (12);

the hydrogen measuring circuit board (3) is positioned in the accommodating cavity (12);

a cup cover channel (13) for electrical connection is arranged between the accommodating cavity (12) and the cup cover conductive contact part (11).

7. The hydrogen-rich water cup of claim 2, wherein:

a cup body channel (213) for electrical connection is arranged between the first cup body conductive contact part (211) and the second cup body conductive contact part (212).

8. The hydrogen-rich water cup of claim 1, wherein:

the top of the cup cover (1) is provided with a hydrogen detection switch (14) for detecting the content of hydrogen, and the hydrogen detection switch (14) is electrically connected with the hydrogen detection circuit board (3).

9. The hydrogen-rich water cup as set forth in claim 3, wherein:

the power supply device is characterized by further comprising a power supply module (7), wherein the power supply module (7) is arranged inside the base (22) and electrically connected with the main circuit board (5).

10. The hydrogen-rich water cup of claim 9, wherein:

the hydrogen production switch (8) is used for starting hydrogen production, and the hydrogen production switch (8) is arranged on the surface of the base (22) and is electrically connected with the main circuit board (5).

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