CN211795719U

CN211795719U - Hydrogen-constant hydrogen cup

Info

Publication number: CN211795719U
Application number: CN202020220468.2U
Authority: CN
Inventors: 蔡嘉尧
Original assignee: Shenzhen Pinpu Technology Co ltd
Current assignee: Nanning Zongzheng Health Industry Co ltd
Priority date: 2020-02-27
Filing date: 2020-02-27
Publication date: 2020-10-30
Anticipated expiration: 2030-02-27

Abstract

The utility model provides a constant hydrogen plain drinking cup, includes the cup, sets up electrolysis trough and hydrogen measuring probe in the cup and with the circuit control board that the hydrogen measuring probe links to each other, the electrolysis trough is used for producing hydrogen with the water electrolysis in the cup, the hydrogen measuring probe is used for detecting the hydrogen content in the cup aquatic, works as when the hydrogen measuring probe detects the hydrogen content in the cup aquatic and reaches the predetermined value, circuit control board control the electrolysis trough stops electrolysis hydrogen manufacturing, works as when the hydrogen measuring probe detects the hydrogen content in the cup aquatic and is less than the predetermined value, circuit control board control the electrolysis trough starts electrolysis hydrogen manufacturing. The hydrogen content in the constant hydrogen cup can be ensured to be in a constant preset range, so that the water in the cup has high-concentration hydrogen content when a user drinks at any time, and the drinking experience of the user is improved.

Description

Hydrogen-constant hydrogen cup

Technical Field

The utility model relates to a hydrogen-rich water cup, in particular to a constant hydrogen cup.

Background

A plurality of hydrogen-rich water cups appear on the current market, and the drinking of hydrogen-rich water is beneficial to human bodies. 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 an electrolysis principle to independently prepare hydrogen, and is pressurized and dissolved in water by tightly covering the cup cover to form a plurality of water aggregates, the shape of the water aggregates at the moment can be enlarged, hydrogen molecules are always aggregated into a plurality of micro bubbles and exist among water molecules, hydrogen is a chemical element, is positioned at the first position in an element periodic table and has strong penetrability, the hydrogen-rich water prepared by a common hydrogen-rich water generator is generally recommended to be drunk up within 5 minutes, otherwise, the effect of the hydrogen-rich water can be reduced along with the continuous loss of the hydrogen content in the water; moreover, the hydrogen production time is 3-5 minutes when water needs to be drunk every time, instant drinking cannot be realized, and the drinking experience is not good.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide a constant hydrogen plain drinking cup overcomes above-mentioned technical defect, improves user's drinking water and experiences.

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

the utility model provides a constant hydrogen plain drinking cup, includes the cup, still including setting up electrolysis trough and hydrogen measuring probe in the cup and with the circuit control board that the hydrogen measuring probe links to each other, the electrolysis trough is used for producing hydrogen with the water electrolysis in the cup, the hydrogen measuring probe is used for detecting the hydrogen content of aquatic in the cup, works as when the hydrogen measuring probe detects the hydrogen content of aquatic in the cup and reaches the predetermined value, circuit control board control the electrolysis trough stops electrolysis hydrogen manufacturing, works as when the hydrogen measuring probe detects the hydrogen content of aquatic in the cup and is less than the predetermined value, circuit control board control the electrolysis trough starts electrolysis hydrogen manufacturing.

Further:

the hydrogen-storing cup is characterized by further comprising a hydrogen-storing component arranged in the cup body, wherein the hydrogen-storing component absorbs and stores part of hydrogen during hydrogen production through electrolysis each time, and when the electrolysis bath stops hydrogen production through electrolysis, the hydrogen-storing component releases hydrogen to be supplemented into water in the cup body.

The hydrogen locking component comprises a hydrogen locking mesh cover arranged between the electrolytic cell and the inside of the cup body.

The hydrogen locking part comprises a metal material with a hydrogen absorption function.

The hydrogen locking part comprises a nano material with a hydrogen absorption function.

The hydrogen measuring cup is characterized by further comprising a gas storage bin and an electronic gas valve, wherein the gas storage bin is provided with an inflation nozzle, the inflation nozzle is used for filling high-pressure concentrated hydrogen into the gas storage bin, the gas storage bin outputs high-pressure concentrated hydrogen into the cup body through the electronic gas valve, the circuit control board is connected with the electronic gas valve to control the electronic gas valve to be opened and closed, when the hydrogen measuring probe detects that the hydrogen content in the water in the cup reaches a preset value, the circuit control board controls the electronic gas valve to be closed, when the hydrogen measuring probe detects that the hydrogen content in the water in the cup is lower than the preset value, the circuit control board controls the electronic gas valve to be opened, and the high-pressure.

The electrolysis trough is including the electrolysis trough upper cover, last electrolysis electrode, barrier film, electrolysis electrode and the electrolysis trough lower cover that from top to bottom set gradually, go up the electrolysis electrode with the electrolysis electrode is located respectively down the upper and lower both sides of barrier film, electrolysis water separation hydrogen and oxygen by the barrier film is kept apart, and hydrogen gets into in the cup, and oxygen warp the export of electrolysis trough lower cover with outside the exhaust passage discharge drinking cup on the cup.

The electrolytic cell and the hydrogen measuring probe are arranged on the cup base and are communicated with the inside of the cup body.

The utility model discloses following beneficial effect has:

the utility model provides a constant hydrogen plain drinking cup, the internal electrolysis trough that sets up the hydrogen manufacturing usefulness of cup except, the circuit control board that still sets up the hydrogen measuring probe and link to each other with the hydrogen measuring probe, detect the hydrogen content of aquatic in the cup through the hydrogen measuring probe, when the hydrogen measuring probe detects the hydrogen content of aquatic in the cup and reaches the predetermined value, circuit control board control electrolysis trough stops electrolysis hydrogen manufacturing, when the hydrogen content that the hydrogen measuring probe detected the aquatic in the cup is less than the predetermined value, circuit control board control electrolysis trough starts electrolysis hydrogen manufacturing, so relapse in order to ensure the hydrogen content in the cup in invariable predetermined scope, the water in the cup all has the hydrogen content of high concentration when using the user to drink at any time, the not enough of current hydrogen plain drinking cup has been remedied, user's drinking experience has been improved. In a preferred embodiment, the hydrogen cup is further provided with a hydrogen locking part, the hydrogen locking part absorbs and stores part of hydrogen during hydrogen production by electrolysis, and when the electrolysis bath stops hydrogen production by electrolysis, the hydrogen locking part releases hydrogen to supplement the hydrogen into water in the cup body, so that the hydrogen constant time is kept, and the period of hydrogen production by electrolysis is prolonged each time. In the preferred embodiment, through the gas storage bin, the electronic gas valve and the matched control circuit, the hydrogen cup realizes the generation of hydrogen-rich water through the double control of hydrogen production by electrolysis and the gas storage bin, further improves the effect of constant hydrogen, prolongs the period of hydrogen production by electrolysis in each starting, and prolongs the service life of the battery pack of the circuit control panel.

Drawings

Fig. 1 is an exploded view of a hydrogen-constant water cup according to an embodiment of the present invention.

Detailed Description

The embodiments of the present invention will be described in detail below. It should be emphasized that the following description is merely exemplary in nature and is not intended to limit the scope of the invention or its application.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element. In addition, the connection may be for either a fixed or coupled or communicating function.

It is to be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientation or positional relationship indicated in the drawings for convenience in describing the embodiments of the present invention and to simplify the description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and are not to be construed as limiting the invention.

Fig. 1 is an exploded view of a hydrogen-constant water cup according to an embodiment of the present invention. Referring to fig. 1, an embodiment of the present invention provides a hydrogen constant water cup, including: a cup body (for example, the cup body 2 and a cup base can be included), an electrolytic cell (for example, the electrolytic cell can include an electrolytic cell upper cover 9, an upper electrolytic electrode 11, a separation membrane 12, a lower electrolytic electrode 13, an electrolytic cell lower cover 15) and a hydrogen measuring probe 7 arranged in the cup body, and a circuit control board 19 connected with the hydrogen measuring probe 7, wherein the electrolytic cell is used for electrolyzing water in the cup body to generate hydrogen, the hydrogen measuring probe 7 is used for detecting the hydrogen content in the water in the cup body, when the hydrogen measuring probe 7 detects that the hydrogen content in the water in the cup body reaches a preset value, the circuit control board 19 controls the electrolytic cell to stop hydrogen production by electrolysis, when the hydrogen measuring probe 7 detects that the hydrogen content in the water in the cup body is lower than the preset value (the latter preset value can be lower than the former preset value or equal to the former preset value), the circuit control board 19 controls the electrolytic cell to start hydrogen production by, this is repeated to ensure that the hydrogen content in the cup is within a constant predetermined range.

In a preferred embodiment, the hydrogen-constant hydrogen cup further comprises a hydrogen locking part arranged in the cup body, the hydrogen locking part absorbs and stores part of hydrogen during hydrogen production by electrolysis each time, and after the electrolysis bath stops hydrogen production by electrolysis, the hydrogen locking part releases hydrogen to be supplemented into water in the cup body along with gradual loss of hydrogen in the water in the cup body, so that the period of hydrogen production by electrolysis each time is started is prolonged.

In some embodiments, the hydrogen-locking feature comprises a hydrogen-locking mesh lid 8 disposed between the electrolyzer and the interior of the cup.

In some embodiments, the hydrogen-locking component is made of a metal material having a hydrogen-absorbing function, such as palladium or a metal like palladium.

In some embodiments, the hydrogen locking component is made of a nano material with a hydrogen absorption function.

In a preferred embodiment, the hydrogen-constant water cup further comprises a gas storage bin 18 and an electronic gas valve 17, wherein the gas storage bin 18 is provided with an air charging nozzle, the charging connector is used for charging high-pressure concentrated hydrogen into the gas storage bin 18, the gas storage bin 18 outputs the high-pressure concentrated hydrogen into the cup body through the electronic gas valve 17, the circuit control board 19 is connected with the electronic gas valve 17 to control the electronic gas valve 17 to open and close, when the hydrogen measuring probe 7 detects that the hydrogen content in the water in the cup reaches a preset value, the circuit control board 19 controls the electronic gas valve 17 to close, when the hydrogen measuring probe 7 detects that the hydrogen content in the water in the cup is lower than a predetermined value (the latter predetermined value can be lower than the former predetermined value or equal to the former predetermined value), the electronic control board 19 controls the electronic gas valve 17 to open and high pressure concentrated hydrogen enters the water in the cup, thus repeatedly ensuring that the hydrogen content in the water in the cup is in a constant preset range.

Specific embodiments of the present invention will be further described with reference to the accompanying drawings.

As shown in fig. 1, the hydrogen-constant water cup comprises a cup cover 1, a cup body 2 and a cup base, wherein the cup base comprises a base shell 3,

sealing rings

4 and 5, a cup body connecting seat 6, a hydrogen measuring probe 7, a hydrogen locking net cover 8, an electrolytic cell upper cover 9, a sealing ring 10, an upper electrolytic electrode 11, an isolating membrane 12, a lower electrolytic electrode 13, a sealing ring 14, an electrolytic cell lower cover 15, a battery pack 16, an electronic gas valve 17, a gas storage bin 18, a circuit control panel 19, a bottom cover 20 and an exhaust and drainage cover 21.

The hydrogen cup supplies power to the circuit control board 19 through the battery pack 16, the circuit control board 19 controls the upper electrolysis electrode 11 and the lower electrolysis electrode 13 to electrolyze drinking water in the cup to separate hydrogen and oxygen, the hydrogen is kept in the cup under the action of the isolating membrane 12, and the oxygen is exhausted out of the cup through the exhaust and drainage cover 21 after being isolated by the isolating membrane 12; when the hydrogen measuring probe 7 detects that the hydrogen content in the cup reaches a preset value, the circuit control board 19 stops outputting, and when the hydrogen measuring probe 7 detects that the hydrogen content in the cup is lower than the preset value, the circuit control board 19 starts outputting to the upper electrolysis electrode 11 and the lower electrolysis electrode 13, so that the hydrogen content in the cup is repeatedly ensured to be constant in a preset range. The hydrogen-locking net cover can adopt metal similar to palladium or nano material with hydrogen-adsorbing structure. When hydrogen is produced by electrolysis each time, the hydrogen locking net cover 8 can absorb and store a part of hydrogen, and after the water cup stops producing hydrogen by electrolysis, the hydrogen locking net cover 8 can slowly release hydrogen to be supplemented into the water in the cup along with the gradual loss of the hydrogen in the water in the cup, so that the period of producing hydrogen by electrolysis each time is prolonged.

In addition, the water cup is also provided with a gas storage bin 18 and an electronic gas valve 17, the gas storage bin 18 is provided with an inflation nozzle, and high-pressure concentrated hydrogen can be supplemented to the gas storage bin 18 through the inflation nozzle. When the hydrogen cup is used, the battery pack 16 provides power for the circuit control board 19, the circuit control board 19 controls the electronic gas valve 17 to open and close, after the gas valve 17 is opened, high-pressure concentrated hydrogen enters water in the cup, when the hydrogen measuring probe 7 detects that the hydrogen content in the cup reaches a preset value, the circuit control board 19 controls the electronic gas valve 17 to stop outputting, when the hydrogen measuring probe 7 detects that the hydrogen content in the cup is lower than the preset value, the circuit control board 19 starts the output of the electronic gas valve 17, and the operation is repeatedly carried out in a preset range in which the hydrogen content in the cup is constant. By the same token, when hydrogen is filled into the water in the cup each time, the hydrogen-locking mesh cover 8 absorbs and stores a part of hydrogen, and after the water cup stops filling hydrogen, the hydrogen-locking mesh cover 8 slowly releases hydrogen to replenish the hydrogen into the water in the cup along with the gradual loss of the hydrogen in the water in the cup, so that the hydrogen filling period of the electronic gas valve 17 is prolonged each time.

The background section of the present invention may contain background information related to the problems or the environment of the present invention and is not necessarily descriptive of the prior art. Accordingly, the inclusion in the background section is not an admission of prior art by the applicant.

The foregoing is a more detailed description of the present invention, taken in conjunction with the specific/preferred embodiments thereof, and it is not intended that the invention be limited to the specific embodiments shown and described. For those skilled in the art to which the invention pertains, a plurality of alternatives or modifications can be made to the described embodiments without departing from the concept of the invention, and these alternatives or modifications should be considered as belonging to the protection scope of the invention. In the description herein, references to the description of the term "one embodiment," "some embodiments," "preferred embodiments," "an example," "a specific example," or "some examples" or the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Various embodiments or examples and features of various embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction. Although the embodiments of the present invention and their advantages have been described in detail, it should be understood that various changes, substitutions and alterations can be made herein without departing from the scope of the claims.

Claims

1. The utility model provides a constant hydrogen plain drinking cup, includes the cup, its characterized in that still including set up electrolysis trough and hydrogen measuring probe in the cup and with the circuit control board that the hydrogen measuring probe links to each other, the electrolysis trough is used for producing hydrogen with the water electrolysis in the cup, the hydrogen measuring probe is used for detecting the hydrogen content in the cup aquatic, works as when the hydrogen measuring probe detects the hydrogen content in the cup aquatic and reaches the predetermined value, circuit control board control the electrolysis trough stops electrolysis hydrogen manufacturing, works as when the hydrogen measuring probe detects the hydrogen content in the cup aquatic and is less than the predetermined value, circuit control board control the electrolysis trough starts electrolysis hydrogen manufacturing.

2. The hydrogen-constant hydrogen cup according to claim 1, further comprising a hydrogen-locking component arranged in the cup body, wherein the hydrogen-locking component absorbs and stores a part of hydrogen during hydrogen production by electrolysis, and releases hydrogen to replenish the hydrogen into the water in the cup body after the hydrogen production by electrolysis is stopped by the electrolysis bath.

3. A hydrogen-sustaining cup according to claim 2, wherein the hydrogen-locking member comprises a hydrogen-locking mesh cover disposed between the electrolyzer and the interior of the cup body.

4. A hydrogen-constant cup as claimed in claim 2, wherein the hydrogen-locking part comprises a metal material having a hydrogen-absorbing function.

5. The hydrogen-constant hydrogen cup according to claim 2, wherein the hydrogen-locking component comprises a nanomaterial with hydrogen absorption effect.

6. The constant-hydrogen-hydrogen cup according to any one of claims 1 to 5, further comprising a gas storage chamber and an electronic gas valve, wherein the gas storage chamber is provided with an inflation nozzle, the inflation nozzle is used for filling high-pressure concentrated hydrogen into the gas storage chamber, the gas storage chamber outputs the high-pressure concentrated hydrogen into the cup body through the electronic gas valve, the circuit control board is connected with the electronic gas valve to control the electronic gas valve to open and close, when the hydrogen measuring probe detects that the hydrogen content in the water in the cup reaches a preset value, the circuit control board controls the electronic gas valve to close, and when the hydrogen measuring probe detects that the hydrogen content in the water in the cup is lower than the preset value, the circuit control board controls the electronic gas valve to open, and the high-pressure concentrated hydrogen enters the water in the cup body.

7. A constant-hydrogen cup according to any one of claims 1 to 5, wherein the electrolytic cell comprises an electrolytic cell upper cover, an upper electrolytic electrode, a separation membrane, a lower electrolytic electrode and an electrolytic cell lower cover which are arranged from top to bottom in sequence, the upper electrolytic electrode and the lower electrolytic electrode are respectively positioned at the upper side and the lower side of the separation membrane, the electrolytic water separated hydrogen and oxygen are separated by the separation membrane, the hydrogen enters the cup body, and the oxygen is discharged out of the cup body through an outlet of the electrolytic cell lower cover and an exhaust channel on the cup body.

8. A constant-hydrogen cup according to any one of claims 1 to 5, wherein the cup body comprises a cup body and a cup base connected with the cup body, and the electrolytic cell and the hydrogen measuring probe are arranged on the cup base and communicated with the inside of the cup body.