阅读说明：本技术 远程控制杯式超饱和氢水发生器及氢水杯 (Remote control cup type super-saturated hydrogen water generator and hydrogen water cup ) 是由 陈德香 陈群 秦灿 杨大庆 于 2021-08-26 设计创作，主要内容包括：本发明公开了一种远程控制杯式超饱和氢水发生器及氢水杯,所述远程控制杯式超饱和氢水发生器包括盛水容器、制冷水装置、制氢装置和控制电路板；控制电路板包括：中央处理器和无线通讯模块,所述中央处理器分别与所述制冷水装置及制氢装置电性连接；无线通讯模块还用于通过远程服务器与客户端程序通信连接,以在所述客户端程序的控制下,通过所述中央处理器对所述制冷水装置及制氢装置进行工作控制。如此,用户可根据个人需要,通过控制电路板对制氢量进行控制,满足用户个性化的健康供富氢水需求。(The invention discloses a remote control cup type super-saturated hydrogen water generator and a hydrogen water cup, wherein the remote control cup type super-saturated hydrogen water generator comprises a water container, a refrigerating water device, a hydrogen production device and a control circuit board; the control circuit board includes: the central processing unit is electrically connected with the cold water making device and the hydrogen making device respectively; the wireless communication module is also used for being in communication connection with a client program through a remote server so as to control the water cooling device and the hydrogen production device through the central processing unit under the control of the client program. Therefore, a user can control the hydrogen production amount through the control circuit board according to personal needs, and the personalized healthy hydrogen-rich water supply requirement of the user is met.)

1. A remote control cup type supersaturated hydrogen water generator is characterized by comprising:

a water container;

the refrigerating water device is arranged at the position outside the water container, and is provided with an air inlet or a water inlet so as to introduce gas or liquid and cool the gas or the liquid into cooling water for hydrogen production;

the hydrogen production device is connected with the refrigerating water device so as to decompose the output cooling water into chlorine and output the chlorine;

the control circuit board is respectively connected with the water refrigerating device and the hydrogen production device so as to control the work of the water refrigerating device and the hydrogen production device;

wherein, the control circuit board includes:

the central processing unit is electrically connected with the water cooling device and the hydrogen production device respectively;

the wireless communication module is connected with the central processing unit and is also used for being in communication connection with a client program through a remote server so as to control the water cooling device and the hydrogen production device to work through the central processing unit under the control of the client program.

2. The remotely controlled cup-type supersaturated hydrogen water generator according to claim 1, further comprising:

the hydrogen sensor is arranged on a hydrogen output channel of the hydrogen production device and connected with the central processing unit so as to transmit the hydrogen output quantity to the central processing unit.

3. The remotely controlled cup-type supersaturated hydrogen water generator according to claim 2, wherein said control circuit board comprises:

the voice module is connected with the central controller so as to output voice under the control of the central controller;

and the display screen module is connected with the central controller so as to display information under the control of the central controller.

4. The remotely controlled cup-type supersaturated hydrogen water generator according to claim 3, wherein said central processor comprises:

the parameter setting module is used for setting working parameters of the equipment;

the working parameters comprise: the hydrogen production quantity and time of hydrogen gas water for one time, the hydrogen supply working time and the hydrogen output quantity, the color of a working indicator lamp when the hydrogen outputs water, the color of the working indicator lamp when the hydrogen outputs water, the working voice prompt content, the voice prompt of the medicine taking time period or the voice prompt of the water drinking quantity and the water drinking time every day.

5. The remotely controlled cup-type supersaturated hydrogen water generator according to claim 4, wherein said central processor further comprises:

the water level detection and recording module is used for acquiring water level information of the water container so as to count and record water quantity information in the water container within a set time period;

and the hydrogen detection and statistics module is used for acquiring hydrogen output information so as to count and record the output hydrogen information in a set time period.

6. The remotely controlled cup-type supersaturated hydrogen water generator according to claim 5, wherein said central processor further comprises:

and the voice prompt module is used for carrying out health management and prompt of human body drinking and hydrogen absorption quantity on the user according to the personal sign data difference of the user.

7. The remotely controlled cup-type supersaturated hydrogen water generator according to claim 5, wherein said central processor further comprises: and the hydrogen production control module is used for performing hydrogen production output control according to the personal sign data difference of the user.

8. The remotely controlled cup-type supersaturated hydrogen water generator according to claim 5, wherein said central processor further comprises:

the refrigeration temperature detection module is used for acquiring temperature information of the semiconductor water preparation tank;

and the refrigeration control module is used for controlling the semiconductor refrigeration piece to refrigerate the semiconductor water making tank to a set temperature value according to the temperature information of the semiconductor water making tank.

9. The remotely controlled cup-type supersaturated hydrogen water generator according to claim 5, wherein said central processor further comprises:

the electric heating temperature detection module is used for acquiring the temperature information of the water container;

and the electric heating control module is used for controlling the electric heating body to heat the water container to a set temperature value according to the temperature information of the water container.

10. A hydrogen cup, comprising:

a housing;

the remotely controlled cup super saturated hydrogen water generator of any one of claims 1 to 9, mounted within a housing.

Technical Field

The invention relates to the technical field of hydrogen-rich water production devices, in particular to a remote control cup type super-saturated hydrogen water generator and a hydrogen water cup.

Background

Due to the improvement of living standard of people, people pay more and more attention to diet health. Hydrogen-rich water is also an increasing choice for many people, as it has abundant hydrogen molecules and is beneficial to human health. The existing hydrogen-rich water devices are relatively single in function and generally can only provide quantitative hydrogen output. Working data statistics and personalized health management can be carried out by combining a cloud server; the personalized healthy hydrogen-rich water supply requirement of the user cannot be met.

Disclosure of Invention

The present invention is directed to solving, at least to some extent, one of the technical problems in the related art. Therefore, the invention aims to provide a remote control cup type supersaturated hydrogen water generator and a hydrogen water cup.

In one aspect, to achieve the above object, a remote control cup type super saturated hydrogen water generator according to an embodiment of the present invention includes:

a water container;

the refrigerating water device is arranged at the position outside the water container, and is provided with an air inlet or a water inlet so as to introduce gas or liquid and cool the gas or the liquid into cooling water for hydrogen production;

the hydrogen production device is connected with the refrigerating water device so as to decompose the output cooling water into chlorine and output the chlorine;

the control circuit board is respectively connected with the water refrigerating device and the hydrogen production device so as to control the work of the water refrigerating device and the hydrogen production device;

wherein, the control circuit board includes:

the central processing unit is electrically connected with the water cooling device and the hydrogen production device respectively;

the wireless communication module is connected with the central processing unit and is also used for being in communication connection with a client program through a remote server so as to control the water cooling device and the hydrogen production device to work through the central processing unit under the control of the client program.

Further, according to an embodiment of the present invention, the remotely controlled cup type supersaturated hydrogen water generator further comprises:

the hydrogen sensor is arranged on a hydrogen output channel of the hydrogen production device and connected with the central processing unit so as to transmit the hydrogen output quantity to the central processing unit.

Further, according to an embodiment of the present invention, the control circuit board includes:

the voice module is connected with the central controller so as to output voice under the control of the central controller;

and the display screen module is connected with the central controller so as to display information under the control of the central controller.

Further, according to an embodiment of the present invention, the central processor includes:

the parameter setting module is used for setting working parameters of the equipment;

the working parameters comprise: the hydrogen production quantity and time of hydrogen gas water for one time, the hydrogen supply working time and the hydrogen output quantity, the color of a working indicator lamp when the hydrogen outputs water, the color of the working indicator lamp when the hydrogen outputs water, the working voice prompt content, the voice prompt of the medicine taking time period or the voice prompt of the water drinking quantity and the water drinking time every day.

Further, according to an embodiment of the present invention, the central processing unit further includes:

the water level detection and recording module is used for acquiring water level information of the water container so as to count and record water quantity information in the water container within a set time period;

and the hydrogen detection and statistics module is used for acquiring hydrogen output information so as to count and record the output hydrogen information in a set time period.

Further, according to an embodiment of the present invention, the central processing unit further includes:

and the voice prompt module is used for carrying out health management and prompt of human body drinking and hydrogen absorption quantity on the user according to the personal sign data difference of the user.

Further, according to an embodiment of the present invention, the central processing unit further includes: and the hydrogen production control module is used for performing hydrogen production output control according to the personal sign data difference of the user.

Further, according to an embodiment of the present invention, the central processing unit further includes:

the refrigeration temperature detection module is used for acquiring temperature information of the semiconductor water preparation tank;

and the refrigeration control module is used for controlling the semiconductor refrigeration piece to refrigerate the semiconductor water making tank to a set temperature value according to the temperature information of the semiconductor water making tank.

Further, according to an embodiment of the present invention, the central processing unit further includes:

the electric heating temperature detection module is used for acquiring the temperature information of the water container;

and the electric heating control module is used for controlling the electric heating body to heat the water container to a set temperature value according to the temperature information of the water container.

On the other hand, an embodiment of the present invention further provides a hydrogen cup, including:

a housing;

according to the remote control cup type supersaturated hydrogen water generator, the remote control cup type supersaturated hydrogen water generator is arranged in the shell.

According to the remote control cup type super-saturated hydrogen water generator and the hydrogen water cup provided by the embodiment of the invention, the output cooling water is decomposed into chlorine gas through the hydrogen production device and is output. The control circuit board controls the work of the cold water producing device and the hydrogen producing device; wherein, the control circuit board includes: the central processing unit is electrically connected with the cold water making device and the hydrogen making device respectively; the wireless communication module is also used for being in communication connection with a client program through a remote server so as to control the water cooling device and the hydrogen production device through the central processing unit under the control of the client program. Therefore, a user can control the hydrogen production amount through the control circuit board according to personal needs, and the personalized healthy hydrogen-rich water supply requirement of the user is met.

Drawings

Fig. 1 is a schematic structural diagram of a hydrogen water cup with a remotely-controlled cup-type supersaturated hydrogen water generator according to an embodiment of the present invention;

fig. 2 is a schematic diagram illustrating an exploded structure of a hydrogen cup with a remotely controlled cup-type supersaturated hydrogen generator according to an embodiment of the present invention;

fig. 3 is a schematic diagram illustrating an exploded structure of another hydrogen cup with a remotely-controlled cup-type supersaturated hydrogen generator according to an embodiment of the present invention;

fig. 4 is a structural diagram of a connection circuit between the control circuit board and each module according to an embodiment of the present invention.

Reference numerals:

a cup body (housing) 10;

a cup cover 20;

a bottom case 30;

a fan outlet 301;

a water container (hydrogen water cup body) 40;

a refrigeration water device 50;

a semiconductor water making tank 501;

a semiconductor refrigeration chip 502;

a refrigerating water level sensor 503;

a refrigeration temperature sensor 504;

a hydrogen production unit 60;

a hydrogen generator 601;

a first hydrogen output conduit 602;

a pressure pump 603;

a hydrogen water separator 604;

a changeover switch 605;

a hydrogen gas injection pipe 606;

a hydrogen outlet pipe 607;

a hydrogen gas outlet 6071;

an intake water injection pipe (intake port) 608;

a hydrogen generation bin 609;

a control circuit board 70;

a central processor 701;

a parameter setting module 7011;

a first water level detection statistic module 7012;

a hydrogen detection statistics module 7013;

a voice prompt module 7014;

hydrogen production control module 7015;

a refrigeration temperature detection module 7016;

a refrigeration control module 7017;

an electrical heating temperature detection module 7018;

an electrical heating control module 7019;

a wireless communication module 702;

a voice module 703;

a display screen module 704;

a charging device 80;

a wireless charging coil 801;

a battery 802;

a heat sink 90;

a fan 901;

a vent tube 902;

a hydrogen sensor 1101;

a water level sensor (cup body water level sensor) 1102;

a water container temperature sensor (cup body temperature sensor) 1103;

an electric heater 12;

a heat radiation area temperature sensor 13;

applet (application App) 14.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the invention. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

In one aspect, referring to fig. 1 to 4, an embodiment of the present invention provides a cup type super-saturated hydrogen water generator, including: a water container 40, a water refrigerating device 50 and a hydrogen production professional and control circuit board 70; the water container 40 (such as a hydrogen water cup body 40) is arranged in the cup body 10; the cup body is used for containing drinking water so as to be convenient for a user to drink when in use.

The water cooling device 50 is arranged between the cup body 10 and the cup body, and an air inlet is formed in the water cooling device 50 to introduce gas and cool the gas into cooling water for hydrogen production; the chilled water device 50 may introduce gas into the chilled water device 50 through the inlet port. The refrigeration water device 50 can see the introduced gas to cool, and form cooling water for hydrogen production. Therefore, the hydrogen production cooling water is prepared by directly obtaining gas from the air, so that a water source is not required to be injected by a user, and the use of the user is facilitated. In addition, the cooling water for hydrogen production is directly obtained from the air, so that the problem of uncontrollable refrigeration water quality is avoided, and the quality of the water for hydrogen production is ensured, thereby ensuring the quality of hydrogen production.

The hydrogen production device 60 is connected with the cold water production device 50 so as to decompose the output cooling water into chlorine and output the chlorine; the hydrogen production device 60 decomposes the cooling water by outputting the cooling water to the hydrogen production device 60. And the decomposed hydrogen is output to the outside so as to be convenient for a user to absorb and use.

The control circuit board 70 is connected to the water cooling device 50 and the hydrogen production device 60, respectively, to control the operation of the water cooling device 50 and the hydrogen production device 60. The control circuit board 70 is a hydrogen production control center, and a user can control the hydrogen production time and the hydrogen production amount by setting parameters of the control circuit board 70 so as to meet the personalized and healthy hydrogen supply requirements of the user.

The control circuit board 70 includes: a central processing unit 701 and a wireless communication module 702, wherein the central processing unit 701 is electrically connected with the water cooling device 50 and the hydrogen production device 60 respectively; the central controller is a control center to realize the control of each module. For example, the chilled water plant 50 and hydrogen production specific may be controlled to provide overall control of the hydrogen production process.

The wireless communication module 702 is connected with the central processing unit 701, and the wireless communication module 702 is further used for being in communication connection with a client program through a remote server, so that the central processing unit 701 controls the operation of the refrigeration water device 50 and the hydrogen production device 60 under the control of the client program. The wireless communication module 702 is used to connect with a remote server to connect with a client through the remote server, and the client can be an internal applet 14 software of a micro communication software, so that a user can set parameters of a control circuit through the applet 14 software. And hydrogen production setting meeting the individual words is realized.

The remote control cup type supersaturated hydrogen water generator provided by the embodiment of the invention decomposes the output cooling water into chlorine gas through the hydrogen production device 60 and outputs the chlorine gas. The control circuit board 70 controls the operation of the water cooling device 50 and the hydrogen production device 60; wherein the control circuit board 70 includes: a central processing unit 701 and a wireless communication module 702, wherein the central processing unit 701 is electrically connected with the water cooling device 50 and the hydrogen production device 60 respectively; the wireless communication module 702 is further configured to be in communication connection with a client program through a remote server, so as to perform operation control on the water chilling plant 50 and the hydrogen production plant 60 through the central processing unit 701 under the control of the client program. Therefore, the user can control the hydrogen production amount through the control circuit board 70 according to personal needs, and the personalized healthy hydrogen-rich water supply requirement of the user is met.

The chilled water device 50 includes: the semiconductor water making tank 501 is arranged between the cup body 10 and the cup body, one end of the semiconductor water making tank 501 is provided with an air inlet water injection pipe 608, the semiconductor water making tank 501 introduces gas into the semiconductor water making tank 501 through the air inlet water injection pipe 608, and the other end of the semiconductor water making tank 501 is communicated with the hydrogen production device 60; the semiconductor refrigeration piece 502 is arranged on one side of the semiconductor water making tank 501, and the semiconductor refrigeration piece 502 is electrically connected with the control circuit board 70 so as to refrigerate the semiconductor water making tank 501 under the control of the control circuit board 70. When the semiconductor refrigeration piece 502 works, low temperature can be generated, and the semiconductor water making tank 501 can be refrigerated due to the fact that the semiconductor refrigeration piece 502 is attached to the semiconductor water making tank and under the conduction effect. The refrigerated semiconductor water production tank 501 may refrigerate air entering the semiconductor water production tank 501. Thereby cooling the air into hydrogen production cooling water. The kempt water in the semiconductor water production tank 501 can be injected into the hydrogen production device 60 through a pipeline, and the hydrogen is decomposed from the cooling water through the hydrogen production device 60.

The chilled water device 50 further includes: a refrigeration water level sensor 503 and a refrigeration temperature sensor 504, wherein the refrigeration water level sensor 503 is installed on the semiconductor water making tank 501, and the refrigeration water level sensor 503 is connected with the control circuit board 70 so as to transmit the water level in the semiconductor water making tank 501 to the control circuit board 70; the refrigeration water level sensor 503 can detect the water level of the cooling water in the semiconductor water making tank 501, and send the water level information to the control circuit board 70. The control circuit board 70 controls the working state of the semiconductor refrigeration plate 502 to ensure that the water quantity in the semiconductor water making tank 501 is above the set water level.

The refrigeration temperature sensor 504 is installed on the semiconductor water preparation water tank 501 or the semiconductor refrigeration piece 502, and the refrigeration temperature sensor 504 is connected with the control circuit board 70 so as to transmit the temperature of the semiconductor water preparation water tank 501 or the temperature of the semiconductor refrigeration piece 502 to the control circuit board 70. The temperature value of the semiconductor refrigeration chip 502 or the water making tank can be obtained through the refrigeration temperature sensor 504. So as to control the semiconductor refrigeration piece 502 to refrigerate, control the temperature of the water tank within a set temperature range, and ensure that the gas can be cooled into refrigeration water.

The hydrogen production apparatus 60 includes: the hydrogen generator 601 is arranged between the cup body 10 and the cup body, the hydrogen generator 601 is communicated with the semiconductor water making water tank 501, and the hydrogen generator 601 is also electrically connected with the control circuit board 70 so as to decompose the cooling water into chlorine gas and output the chlorine gas under the control of the control circuit board 70; the hydrogen generator 601 can decompose the injected cooling water into hydrogen under the control of the control circuit board 70. The control circuit board 70 can control the working time of the hydrogen generator 601 according to the decomposition amount of the hydrogen gas, so as to meet the personalized setting requirement of the hydrogen gas amount of the user.

One end of the first hydrogen output pipe 602 is communicated with the hydrogen generator 601, so as to output the chlorine decomposed from the hydrogen generator 601 to the outside. The output of the decomposed hydrogen is visible through the first hydrogen output conduit 602 for absorption by the user.

The hydrogen plant 60 further includes: the pressure pump 603 is connected with the control circuit, the other end of the first hydrogen output pipe 602 is connected with the pressure pump 603, and the pressure pump 603 is further connected with one end of the second hydrogen output pipe so as to externally pump out the chlorine generated by the hydrogen generator 601. The pressure pump 603 is provided on the hydrogen output pipe to control the output of hydrogen to the outside. The pressure pump 603 is connected to the control circuit board 70 to control the output hydrogen gas under the control of the control circuit board 70. For example, when the control circuit board 70 detects that there is drinking water in the cup, the pressure pump 603 may be controlled to pump hydrogen gas into the drinking water in the cup, so that the water in the cup becomes hydrogen-rich water.

The hydrogen plant 60 further includes: a hydrogen-water separator 604, wherein the first hydrogen output pipe 602 is connected to the pressure pump 603 through the hydrogen-water separator 604; wherein, one end of the hydrogen-water separator 604 is connected to the other end of the first hydrogen output pipe 602, and the other end of the hydrogen-water separator 604 is connected to the pressure pump 603. The decomposed hydrogen and water can be further separated by the hydrogen water separator 604, and then the hydrogen gas is output. The cup body 10 is located the position of hydrogen water separator 604 still is equipped with hydrogen water separation window to the user acquires hydrogen water separation phenomenon.

The hydrogen plant 60 further includes: a change-over switch 605, a hydrogen injection pipe 606 and a hydrogen eduction pipe 607, wherein one end of the change-over switch 605 is connected with the other end of the second hydrogen output pipe; one end of the hydrogen injection pipe 606 is connected to the first switching channel of the switch 605, and the other end of the hydrogen injection pipe 606 extends into the cup body; one end of the hydrogen gas outlet pipe 607 is connected with the second switching channel of the switch 605, and the other end of the hydrogen gas outlet pipe 607 extends to one end of the cup cover 20; the switch 605 is used for controlling the hydrogen output by the second hydrogen output pipe to be switched to the hydrogen injection pipe 606 or the hydrogen eduction pipe 607 for output. The output hydrogen can be switched and controlled by the switch 605. For example, the output hydrogen gas may be switched to the hydrogen gas injection pipe 606, and the hydrogen gas may be output into the cup body through the hydrogen gas injection pipe 606 to be input into the drinking water of the cup body. In addition, the output hydrogen can be directly extracted through the hydrogen extraction pipe 607 by the changeover switch 605. Is directly led out through a leading-out opening at one end part of the cup cover 20. So that the user can suck and extract the hydrogen from the hydrogen outlet through the suction pipe. The hydrogen is absorbed by the user conveniently in different modes.

The cup type supersaturated hydrogen water generator further comprises: a cup body water level sensor 1102 and a cup body temperature sensor 1103, wherein the cup body water level sensor 1102 is installed on the cup body, and the cup body water level sensor 1102 is connected with the control circuit board 70 so as to transmit the water level in the cup body to the control circuit board 70; the control circuit board 70 may obtain the water level information in the cup body through the cup body water level sensor 1102, and may perform statistics on the amount of water in a set time according to the water level information. For example, statistics are made of the user's drinking water volume per day. On the other hand, when it is detected that the water level reaches the set water level, the pressure pump 603 may be controlled to pump and inject hydrogen gas into the drinking water.

The cup temperature sensor 1103 is installed on the cup body, and the cup temperature sensor 1103 is connected to the control circuit board 70 to transmit the temperature of the cup body to the control circuit board 70. The control circuit obtains the temperature of the cup body through the temperature sensor. An electric heating body 12 is further arranged on the outer side of the cup body, and the electric heating body 12 is connected with the control circuit board 70 so as to control the heating of the cup body under the control of the control circuit board 70. The electric heater 12 can heat the water in the cup body to a set temperature value under the control of the control circuit board 70, so as to meet the drinking water temperature requirement of a user.

The cup-type supersaturated hydrogen water generator further comprises a heat dissipation device 90, wherein the heat dissipation device 90 comprises: a fan 901, wherein the fan 901 is arranged in the bottom case 30 and is positioned at one side of the hydrogen production device 60; the control circuit board 70 is disposed at a bottom of the bottom case 30. Since both the hydrogen-producing device 60 and the control circuit board 70 generate a certain amount of heat during operation. In order for both control circuit board 70 and hydrogen plant 60 to operate in optimal conditions, the heat generated needs to be dissipated. The bottom case 30 is further provided with a fan 901 air outlet 301 at a position opposite to the fan 901, so as to dissipate heat of the bottom case 30 through the fan 901. When the fan 901 is in operation, heat is emitted from the air outlet 301 of the fan 901. This ensures that neither the control circuit board 70 nor the hydrogen plant 60 is operating in an over-temperature condition.

The heat sink 90 further includes: and one end of the ventilation pipe 902 is communicated with the heat dissipation area of the fan 901, and the other end of the ventilation pipe 902 is connected with the semiconductor water making tank 501, so that cold air in the semiconductor water making tank 501 is led out to the heat dissipation area. The cold air in the semiconductor water production tank 501 can be introduced into the heat dissipation area through the ventilation pipe 902. The introduced cool air can be diffused by the fan 901. The heat dissipation of the heat dissipation area is accelerated.

The cup type supersaturated hydrogen generator further comprises a charging device 80, wherein the charging device 80 comprises: a wireless charging coil 801 and a battery 802, wherein the wireless charging coil 801 is installed at the bottom position of the cup body 10; the wireless charging device 80 is used for wireless connection to obtain power through the wireless charging device 80.

The battery 802 is installed at the bottom of the cup body 10 and is connected to the wireless charging coil 801 and the control circuit board 70, so as to wirelessly charge the battery through the wireless charging coil 801 and supply power to the control circuit board 70. The battery 802 obtains charging power through the wireless charging coil 801. To charge the battery 802. The battery 802 is connected with the control electric donkey board to supply power to the control circuit board 70. Meanwhile, other power utilization modules can be powered through the control circuit board 70.

The cup type supersaturated hydrogen water generator further comprises: a hydrogen sensor 1101, wherein the hydrogen sensor 1101 is disposed on the hydrogen output channel of the hydrogen production device 60, and the hydrogen sensor 1101 is connected to the central processor 701 to transmit the hydrogen output to the central processor 701. The output quantity of hydrogen can be obtained by the hydrogen sensor 1101 and transmitted to the central controller, and the central controller can also count the hydrogen quantity by sending other hydrogen output quantity information to a remote server through the wireless communication module 702. So as to count and monitor the hydrogen amount inhaled by the user every day and realize the health management of the user.

The control circuit board 70 further includes: the voice module 703 is connected with the central controller to output voice under the control of the central controller; the voice mould can output voice so as to prompt a user with voice. For example, the user can be prompted to drink water, take medicine, etc. on time under the setting of the user.

The display screen module 704 is connected with the central controller to display information under the control of the central controller. Through the display screen module 704, part of the information can be displayed under the setting of a user. For example, temperature information of drinking water in the hydrogen cup, hydrogen concentration information in water, and the like.

The central processor 701 includes: the parameter setting module 7011, the parameter setting module 7011 is configured to set operating parameters of the device; through the parameter setting module 7011, parameters can be set for each functional module to meet the personalized health management requirements of users. The user implements the setting of the parameters by means of the applet 14 application APP. After the parameter setting is completed, the cpu 701 controls each functional module according to the set parameter, so that the hydrogen generating gas operates in a set manner. The working parameters can comprise: the hydrogen production quantity and time of hydrogen gas water for one time, the hydrogen supply working time and the hydrogen output quantity, the color of a working indicator lamp when the hydrogen outputs water, the color of the working indicator lamp when the hydrogen outputs water, the working voice prompt content, the voice prompt of the medicine taking time period or the voice prompt of the water drinking quantity and the water drinking time every day, and the like.

The central processing unit 701 further includes: the water level detection and recording module comprises a first water level detection and statistics module 7012 and a hydrogen detection and statistics module 7013, wherein the water level detection and recording module is used for acquiring water level information of the cup body so as to count and record water amount information in the hydrogen cup within a set time period; the first water level detection module may acquire water level information in the hydrogen water cup through the cup body water level sensor 1102. The water level information is converted into water amount so as to count and record the daily water intake of the user, and the counted and recorded daily water intake information can be sent to a remote server so as to store and record the daily water intake information of the user and manage health through a remote server.

The hydrogen detection recording module is used for acquiring hydrogen output information so as to count and record the output hydrogen information in a set time period.

The hydrogen detection module may acquire output hydrogen information through the hydrogen sensor 1101. And the output hydrogen information is converted to be counted and recorded, and the counted and recorded daily hydrogen inhalation amount information can be sent to a remote server so as to store and record the daily hydrogen inhalation amount information of the user and manage health through the remote server.

The central processing unit 701 further includes: and the voice prompt module 7014 is used for performing health management and prompt of human body water drinking and hydrogen absorption amount on the user according to the personal sign data difference of the user. After the user sets the parameters individually through the applet 14 application software, the central processing unit 701 can control each function module according to the setting process, and the voice prompt module 7014 outputs the voice information to the voice module 703 and plays the voice through the voice module 703. And prompting the user to drink water, take medicine, inhale the hydrogen amount and the like.

The central processing unit 701 further includes: a hydrogen production control module 7015, wherein the hydrogen production control module 7015 is used for performing hydrogen production output control according to personal sign data difference of a user. Because the system of each person is different, the amount of hydrogen inhaled per day may be different, and after the hydrogen production amount per day is set by the parameters. The hydrogen production control module 7015 controls the hydrogen production generator 601 to operate according to the setting parameters to output hydrogen every day according to the set hydrogen amount. This can satisfy individual-varying hydrogen inhalation demands.

The central processing unit 701 further includes: the refrigeration temperature detection module 7016 and the refrigeration control module 7017, wherein the refrigeration temperature detection module 7016 is configured to obtain temperature information of the semiconductor water making tank 501; the refrigeration temperature detection module 7016 obtains the temperature value of the refrigeration water tank through the refrigeration temperature sensor 504.

The refrigeration control module 7017 is configured to control the semiconductor refrigeration chip 502 to refrigerate the semiconductor water making tank 501 to a set temperature value according to the temperature information of the semiconductor water making tank 501. Because the refrigeration control of the semiconductor refrigeration sheet 502 is realized according to the temperature value of the refrigeration water tank, the temperature in the refrigeration water tank can be ensured to be the set temperature value. The air can be effectively cooled into cooling water.

The central processing unit 701 further includes: the electric heating temperature detection module 7018 and the electric heating control module 7019, wherein the electric heating temperature detection module 7018 is configured to obtain temperature information of the cup body; the electric heating temperature detection module 7018 may obtain temperature information of the hydrogen water cup through the cup body temperature sensor 1103.

The electric heating control module 7019 is configured to control the electric heater to heat the cup body to a set temperature value according to the temperature information of the cup body. So as to ensure that the water temperature of the drinking water in the hydrogen water cup is in a set temperature range and meet the personalized drinking water temperature requirement of a user.

On the other hand, an embodiment of the present invention further provides a hydrogen cup, including: the remote control cup type super-saturated hydrogen water generator comprises a shell 10 and the remote control cup type super-saturated hydrogen water generator, wherein the remote control cup type super-saturated hydrogen water generator is arranged in the shell 10.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing detailed description, or equivalent changes may be made in some of the features of the embodiments. All equivalent structures made by using the contents of the specification and the attached drawings of the invention can be directly or indirectly applied to other related technical fields, and are also within the protection scope of the patent of the invention.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., 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 do not necessarily 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.

Although embodiments of the present invention have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made in the above embodiments by those of ordinary skill in the art without departing from the principle and spirit of the present invention.