CN213623654U

CN213623654U - Hydrogen-rich water dispenser device

Info

Publication number: CN213623654U
Application number: CN202022424508.8U
Authority: CN
Inventors: 赵韦静; 焦文强; 王鹏; 李鑫; 杨申昊; 杨凌; 贾日波; 侯春彩
Original assignee: 718th Research Institute of CSIC
Current assignee: 718th Research Institute of CSIC
Priority date: 2020-10-27
Filing date: 2020-10-27
Publication date: 2021-07-06
Anticipated expiration: 2030-10-27

Abstract

The invention aims to solve the problems that a hydrogen-rich water dispenser device in the prior art cannot automatically replenish water, cannot be used by multiple people and is inconvenient for safety fault troubleshooting. The hydrogen-rich water dispenser device is provided, a raw material water tank is internally provided with a liquid level sensor and is connected with a water source through an electromagnetic valve, a booster pump and a water replenishing pump, so that automatic water replenishing is realized; a liquid level sensor is also arranged in the hydrogen-rich water tank, and the hydrogen-rich water tank is connected with a water source through an electromagnetic valve and a water replenishing pump to realize automatic water replenishing; an electrolytic tank, a flow sensor, a circulating pump, a fan, a gas-water separator and a gas-liquid mixing pump are arranged between the raw material water tank and the hydrogen-rich water tank, and the hydrogen-rich water tank is connected with the hydrogen elimination chamber to eliminate the redundant hydrogen. The hydrogen-rich water dispenser can automatically supplement water, start and stop by one key, make water by one key, and can realize water level alarm, dehydrogenation, fault alarm and power-off protection.

Description

Hydrogen-rich water dispenser device

Technical Field

The invention relates to the field of hydrogen-rich water dispensers, in particular to a hydrogen-rich water dispenser device

Background

Nowadays, people pay more and more attention to health problems along with the development of times. Scientific research shows that hydrogen has great effects on resisting oxidation and maintaining human health. The existing hydrogen-rich water drinking machine adopts a mode of installing a pure water barrel to supply water sources, and needs to be manually replenished at intervals, which brings great inconvenience to users. And the commercial hydrogen-rich water dispenser only has the function of generating hydrogen-rich water, and a pure water purifier is additionally required to be arranged as a household or commercial water dispenser, which undoubtedly increases the cost burden and the space requirement. The existing hydrogen-rich water dispenser can not automatically supply water and can not give an alarm when a fault occurs, so that the technical field of the hydrogen-rich water dispenser device integrating the automatic water supply function, the safety prompt function and the alarm function is also vacant.

Therefore, based on the existing problems, a hydrogen-rich water dispenser device with an automatic water replenishing function needs to be designed, meanwhile, the device can be used as a common water dispenser, has the functions of starting and stopping by one key, water making by one key and the like, and can perform water level alarm, hydrogen elimination, fault alarm and power-off protection.

Disclosure of Invention

The invention aims to provide a hydrogen-rich water dispenser device integrating functions of automatic water replenishing, one-key start and stop, one-key water production and the like, and can realize water level alarming, hydrogen elimination, fault alarming and power-off protection so as to solve the problems that the hydrogen-rich water dispenser device in the prior art cannot replenish water automatically, cannot be used by multiple people and is inconvenient for safety fault troubleshooting.

In order to achieve the purpose, the invention provides a hydrogen-rich water dispenser device which comprises a raw material water tank, a hydrogen-rich water tank, a gas-water separator, a water pump, an electromagnetic valve, a fan, an electrolytic bath, a flow sensor and a pressure sensor, wherein the water pump comprises a circulating pump, an air pump, a water supplementing pump, a booster pump, a gas-liquid mixing pump and a water taking pump.

The raw material water tank is internally provided with a liquid level sensor and is connected with a water source through an electromagnetic valve, a booster pump and a water replenishing pump, when the water level in the raw material water tank is lower than a threshold value, the electromagnetic valve, the water replenishing pump and the booster pump are started to replenish water for the raw material water tank, so that automatic water replenishing is realized; and when the liquid level is higher than the threshold value, closing the water replenishing pump and the electromagnetic valve.

Similarly, a liquid level sensor is also arranged in the hydrogen-rich water tank, the hydrogen-rich water tank is connected with a water source through an electromagnetic valve and a water replenishing pump, and when the liquid level sensor detects that the water level in the hydrogen-rich water tank is lower than a threshold value, the electromagnetic valve and the water replenishing pump are opened to replenish water to the hydrogen-rich water tank, so that automatic water replenishing is realized; and when the liquid level is higher than the threshold value, closing the water replenishing pump and the electromagnetic valve.

Be provided with electrolysis trough, flow sensor, circulating pump, fan and gas-water separator, gas-liquid mixing pump between raw materials water tank and the hydrogen-rich water tank, water in the raw materials water tank is gone into the electrolysis trough through the circulating pump and is carried out the electrolysis, and the hydrogen that produces behind the electrolysis water is separated out behind the gas-water separator to mix through the gas-liquid mixing pump, obtain hydrogen-rich water, can take out hydrogen-rich water through the water intaking pump afterwards.

The gas-water separator also comprises a liquid level sensor and a drain valve, and when the liquid level sensor detects that the liquid level in the gas-water separator is higher than a threshold value, the drain valve is opened to discharge water into the raw material water tank.

The hydrogen-rich water tank also comprises a pressure sensor for detecting the pressure value in the hydrogen-rich water tank, and when the pressure exceeds a threshold value, the power supply of the electrolytic cell is cut off, and hydrogen is removed.

The dehydrogenation chamber is internally provided with a catalyst, and when the hydrogen overflows the hydrogen-rich water tank, the air pump is started to dehydrogenate the hydrogen.

The electrolytic cell is also provided with a flow sensor S1 for monitoring whether the electrolytic process is normal or not and powering off if the electrolytic process is abnormal.

The hydrogen-rich water dispenser also comprises a water leakage detector, and detection, power failure and alarm are realized when water leakage occurs at each part of the water dispenser.

The water dispenser device further comprises a touch screen, a single-chip microcomputer controller, a buzzer and an indicator lamp, wherein the single-chip microcomputer is used for processing data, alarming and prompting can be carried out through the buzzer and the indicator lamp when water leakage, water level or flow are abnormal, and different lamp light display can be carried out through the indicator lamp when water making is completed or in a water making state.

The single chip microcomputer is STM32F103RBT6 and serves as a core single chip microcomputer, and besides the functions, the single chip microcomputer is also used for controlling starting and stopping of each electromagnetic valve and the pump body.

The water making and taking are triggered by a touch key, after the power is turned on and the water making key is pressed, the direct-current power supply is controlled by an electric appliance to start working, the electrolytic cell starts to make hydrogen, the circulating pump starts to work, the electrolyte is kept to circulate, the gas-liquid mixing pump, the air pump and the fan start to work, the direct-current power supply is powered off after water making for a period of time, and the circulating pump, the gas-liquid mixing pump, the air pump and the fan are powered off; after water preparation is completed, the water outlet button is pressed down through the prompt of the buzzer and the indicator lamp, the water taking pump starts to work and continuously water, the button is pressed down again, and the water taking pump stops working. In addition, when the flow sensor of the electrolytic bath and the pressure sensor of the hydrogen-rich water tank are abnormal, the power-off protection action can be executed.

The invention has the advantages of

In the invention, the hydrogen generation process is environment-friendly, the air outlet flow of the electrolytic cell is large, high-purity hydrogen is fully dissolved in water, the water production time is short, the hydrogen content of the generated hydrogen-rich water is high, and the process is safe and stable. The invention can be used by many people, and has simple operation, convenience and rapidness. The design adopts a novel pure water electrolysis technology to fully dissolve prepared high-purity hydrogen into water, and eliminates redundant hydrogen through a dehydrogenation device, thereby realizing the preparation of a high-efficiency and safe 'hydrogen-rich' water dispenser device.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification.

FIG. 1 is a structural frame diagram of a hydrogen-rich water dispenser device according to the present invention;

FIG. 2 is a hardware structure diagram of a hydrogen-rich water dispenser device according to the present invention;

FIG. 3 is a software flowchart of a hydrogen-rich water dispenser device according to the present invention;

Detailed Description

Referring to fig. 1, the hydrogen-rich water dispenser device comprises a raw material water tank C1, a hydrogen-rich water tank C2, a gas-water separator C3, a water pump, electromagnetic valves (F1, F2 and F3), FANs (FAN1 and FAN2), an electrolytic cell DJC1, a flow sensor S1 and a pressure sensor S2. The water pump comprises a circulating pump P1, an air pump P2, a water replenishing pump P3, a booster pump P4, a gas-liquid mixing pump P5 and a water taking pump P6.

The raw material water tank C1 comprises a liquid level sensor, the raw material water tank C1 is connected with a water source through an electromagnetic valve F1, a booster pump P4 and a water replenishing pump P3, when the water level in the raw material water tank C1 is lower than a threshold value, the electromagnetic valve F1, the water replenishing pump P3 and the booster pump P4 are started to replenish water for the raw material water tank C1, and automatic water replenishing is achieved; and when the liquid level is higher than the threshold value, the water replenishing pump P3, the booster pump P4 and the solenoid valve F1 are closed.

Similarly, a liquid level sensor is also arranged in the hydrogen-rich water tank C2, the hydrogen-rich water tank C2 is connected with a water source through an electromagnetic valve F2 and a water replenishing pump P3, when the liquid level sensor detects that the water level in the hydrogen-rich water tank C2 is lower than a threshold value, the electromagnetic valve F2 and the water replenishing pump P3 are started to replenish water for the hydrogen-rich water tank C2, and automatic water replenishing is achieved; when the liquid level is higher than the threshold value, the water replenishing pump P3 and the solenoid valve F2 are closed.

An electrolytic tank DJC1, a flow sensor S1, a circulating pump P1, a FAN FAN1, a gas-water separator C3 and a gas-liquid mixing pump P5 are arranged between the raw material water tank C1 and the hydrogen-rich water tank C2, water in the raw material water tank C1 is pumped into the electrolytic tank DJC1 through the circulating pump P1 for electrolysis, wherein the structure of the electrolytic tank is the existing electrolytic tank structure, the electrolytic tank belongs to the prior art, and detailed description is not given to the greatest extent. The hydrogen generated after water electrolysis is separated out after passing through a gas-water separator C3 and is conveyed to a hydrogen-rich water tank through a gas-liquid mixing pump to be mixed to obtain hydrogen-rich water, and then the hydrogen-rich water can be taken out through a water taking pump.

The gas-water separator C3 also comprises a liquid level sensor and a drain valve, when the liquid level sensor detects that the liquid level in the gas-water separator C3 is higher than a threshold value, the drain valve F3 is opened, and water is drained into the raw material water tank C1.

The hydrogen-rich water tank C2 rear side still is connected with the room that disappears, and inside has the catalyst, and when hydrogen-rich water in the hydrogen-rich water tank had hydrogen to escape, start air pump 2 and accelerate oxygen in the air and hydrogen and react under the catalyst effect.

The hydrogen-rich water tank C2 further comprises a pressure sensor S2, which is used for detecting the pressure value in the hydrogen-rich water tank, and cutting off the power supply of the electrolytic cell and eliminating hydrogen when the pressure exceeds a threshold value.

The electrolytic tank DJC1 is also provided with a flow sensor S1 which is used for monitoring whether the electrolytic process is normal or not and powering off if the electrolytic process is abnormal.

The water making and taking are triggered by a touch key, after the water making key is powered on and pressed down, the direct current power supply is controlled by an electric appliance to start working, the electrolytic cell DJC1 starts to make hydrogen, the circulating pump P1 starts to work, the circulation of electrolyte is kept, the gas-liquid mixing pump P5, the air pump P2 and the FAN FAN1 start to work, the direct current power supply is powered off after the water making is carried out for a period of time, and the circulating pump P1, the gas-liquid mixing pump P5, the air pump P2 and the FAN FAN1 are powered off; after water preparation is finished, the water outlet key is pressed down through the prompt of the buzzer and the indicator lamp, the water taking pump P6 starts to work to continuously discharge water, the key is pressed down again, and the water taking pump P6 stops working. In addition, when the flow sensor of the electrolytic bath and the pressure sensor of the hydrogen-rich water tank are abnormal, the power-off protection action can be executed.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. A hydrogen-rich water dispenser device comprises a raw material water tank, a hydrogen-rich water tank, a gas-water separator, a water pump, an electromagnetic valve, a fan, an electrolytic bath, a flow sensor and a pressure sensor, wherein the water pump comprises a circulating pump, an air pump, a water replenishing pump, a booster pump, a gas-liquid mixing pump and a water taking pump; the method is characterized in that: the raw material water tank is internally provided with a liquid level sensor and is connected with a water source through an electromagnetic valve, a booster pump and a water replenishing pump, so that automatic water replenishing is realized; a liquid level sensor is also arranged in the hydrogen-rich water tank, and the hydrogen-rich water tank is connected with a water source through an electromagnetic valve and a water replenishing pump to realize automatic water replenishing; an electrolytic tank, a flow sensor, a circulating pump, a fan, a gas-water separator and a gas-liquid mixing pump are arranged between the raw material water tank and the hydrogen-rich water tank, and the hydrogen-rich water tank is connected with the hydrogen elimination chamber to eliminate the redundant hydrogen.

2. The hydrogen-rich water dispenser device of claim 1, wherein: the gas-water separator comprises a liquid level sensor and a drain valve, and when the liquid level sensor detects that the liquid level in the gas-water separator is higher than a threshold value, the drain valve is opened to discharge water into the raw material water tank.

3. The hydrogen-rich water dispenser device of claim 1, wherein: the hydrogen-rich water tank further comprises a liquid level sensor and a pressure sensor, and the liquid level sensor and the pressure sensor are used for detecting liquid levels and pressure values in the hydrogen-rich water tank.

4. The hydrogen-rich water dispenser device of claim 1, wherein: the electrolytic cell is provided with a flow sensor.

5. The hydrogen-rich water dispenser device of claim 1, wherein: the dehydrogenation chamber is internally provided with a catalyst, and when the hydrogen overflows the hydrogen-rich water tank, the air pump is started to dehydrogenate the hydrogen.

6. The hydrogen-rich water dispenser device of claim 1, wherein: the hydrogen-rich water dispenser also comprises a water leakage detector, and detection, power failure and alarm are realized when water leakage occurs at each part of the water dispenser.

7. The hydrogen-rich water dispenser device of claim 1, wherein: the water dispenser device further comprises a touch screen, a single chip microcomputer controller, a buzzer and an indicator light, wherein the single chip microcomputer is STM32F103RBT 6.