CN222647810U - Whole house water purification hydrogen-rich waterway system - Google Patents

Abstract

The application provides a full-house water purification and hydrogen enrichment waterway system which comprises a purification module, a hydrogen enrichment module, a first hydrogen mixer, a control device, a drinking water device, a hydrogen bath device, a hydrogen absorption device and an oxygen absorption device, wherein a water inlet of the purification module is used for being communicated with a water supply device, a water inlet of the hydrogen enrichment module is communicated with a water outlet of the purification module, a water inlet of the first hydrogen mixer is communicated with a water outlet of the purification module, a gas inlet of the first hydrogen mixer is communicated with a hydrogen outlet of the hydrogen enrichment module, the purification module, the hydrogen enrichment module and the first hydrogen mixer are communicated with each other, the drinking water device is communicated with the control device and is used for being communicated with the water outlet of the purification module under the control of the control device, the hydrogen bath device is communicated with the water outlet of the first hydrogen mixer under the control of the control device, and the hydrogen absorption device is provided with a hydrogen absorption port and an oxygen absorption port. Its functions are more diversified.

Description

Whole house water purification hydrogen-rich waterway system

Technical Field

The application relates to a waterway system, in particular to a whole-house water purification and hydrogen-rich waterway system.

Background

Along with the improvement of the quality requirements of people on drinking water, the technology of the water purifier is continuously developed, and the aim of providing purer and healthier water quality is achieved. The water purifier is used as water treatment equipment, and the raw water is sequentially filtered through a plurality of built-in filter elements, so that drinking water reaching the drinking standard is generated.

At present, the generation of drinking water is realized through a water purifier in families, and only the drinking water supply function can be realized, so that the function is single.

Disclosure of utility model

The embodiment of the application provides a full-house water purification and hydrogen-rich waterway system, which solves the problems existing in the related technology and has the following technical scheme:

the embodiment of the application provides a full-house water purification and hydrogen-rich waterway system, which comprises:

the water inlet of the purification module is communicated with the water supply device, and the purification module is used for filtering and purifying water input by the water supply device;

The water inlet of the hydrogen-rich module is communicated with the water outlet of the purification module, and the hydrogen-rich module is used for generating hydrogen and oxygen;

The water inlet of the first hydrogen mixer is communicated with the water outlet of the purification module, the air inlet of the first hydrogen mixer is communicated with the hydrogen outlet of the hydrogen-rich module, and the first hydrogen mixer is used for mixing water purified by the purification module and hydrogen output by the hydrogen-rich module;

the control device is communicated with the purification module, the hydrogen-rich module and the first hydrogen mixer;

The drinking water device is communicated with the control device and is used for being communicated with the water outlet of the purification module under the control of the control device;

the hydrogen bath device is communicated with the control device and is used for being communicated with the water outlet of the first hydrogen mixer under the control of the control device;

The hydrogen absorption and oxygen absorption device is provided with a hydrogen absorption port and an oxygen absorption port, the hydrogen absorption port is used for being communicated with the hydrogen outlet of the hydrogen-rich module under the control of the control device, and the oxygen absorption port is used for being communicated with the oxygen outlet of the hydrogen-rich module under the control of the control device.

In one embodiment, the hydrogen-rich module includes:

The water inlet of the pure water tank is used for being communicated with the water outlet of the purification module under the control of the control device;

The water inlet of the electrolytic tank is communicated with the water outlet of the pure water tank, the electrolytic tank is provided with the hydrogen outlet and the oxygen outlet, and the electrolytic tank is used for generating hydrogen and oxygen.

In one embodiment, the hydrogen-rich module further comprises:

The water level detection device is communicated with the control device, the water level detection device is arranged on the pure water tank and used for detecting the water level of the pure water tank, the control device is used for controlling the starting of the purification module according to low water level detection information of the water level detection device so that the purification module supplements water for the pure water tank, and the control device is also used for controlling the closing of the purification module according to high water level detection information of the water level detection device so that the purification module stops supplementing water for the pure water tank.

In one embodiment, the hydrogen-rich module further comprises:

the inlet of the water-gas separator is communicated with the oxygen outlet, the water outlet of the water-gas separator is communicated with the purified water tank, and the air outlet of the water-gas separator is communicated with the oxygen inhalation port.

In one embodiment, the hydrogen-rich module further comprises:

The water inlet of the first resin filter element is communicated with the water outlet of the purification module, and the water outlet of the first resin filter element is communicated with the water inlet of the purified water tank.

In one embodiment, the purification module comprises:

The first purifying component is communicated with the control device, a water inlet of the first purifying component is communicated with the water supply device, a water outlet of the first purifying component is communicated with a water inlet of the first hydrogen mixer, and the first purifying component is used for filtering and softening water input by the water supply device to obtain soft water;

The second purifying component is communicated with the control device, the water inlet of the second purifying component is communicated with the water outlet of the first purifying component, the water outlet of the second purifying component is communicated with the water inlet of the hydrogen-rich module and the drinking water device, and the second purifying component is used for filtering and purifying soft water input by the first purifying component to obtain drinking water.

In one embodiment, the first purification assembly comprises:

the water inlet of the pre-filter is communicated with the water supply device;

a water inlet of the folding PP cotton carbon rod composite filter element is communicated with a water outlet of the pre-filter;

The water inlet of the second resin filter element is communicated with the water outlet of the folding PP cotton carbon rod composite filter element, and the water outlet of the second resin filter element is communicated with the water inlet of the first hydrogen mixer;

The second purification assembly includes:

The water inlet of the RO filter element is communicated with the water outlet of the second resin filter element, and the water outlet of the RO filter element is communicated with the water inlet of the hydrogen-rich module and the drinking water device.

In one embodiment, the second purification assembly further comprises:

The water inlet of the carbon rod filter element is communicated with the water outlet of the RO filter element, and the water outlet of the carbon rod filter element is communicated with the drinking water device.

In one embodiment, the first purification assembly further comprises:

The water inlet of the salt filter element is communicated with the water outlet of the folding PP cotton carbon rod composite filter element, the water outlet of the salt filter element is communicated with the water inlet of the second resin filter element, and the salt filter element is used for mixing water and salt output by the folding PP cotton carbon rod composite filter element to form salt water;

The second resin filter element is provided with a water outlet, the water outlet is communicated with a first water outlet valve, the first water outlet valve is communicated with the control device, and the first water outlet valve is used for controlling the water outlet to be opened and closed under the control of the control device.

In one embodiment, the whole house water purification and hydrogen-rich waterway system further comprises:

The first inlet of the first valve is communicated with the water outlet of the second resin filter element, the second inlet of the first valve is communicated with the hydrogen outlet of the hydrogen-rich module, and the outlet of the first valve is communicated with the inlet of the first hydrogen mixer.

The advantages or beneficial effects in the technical scheme at least comprise:

The full-house water purification and hydrogen-enrichment waterway system comprises a purification module, a hydrogen enrichment module, a first hydrogen mixer, a control device, a drinking water device, a hydrogen bath device and a hydrogen absorption and oxygen absorption device, wherein the purification module is used for filtering and purifying water input by the water supply device, the hydrogen enrichment module can be used for electrolyzing the purified water to generate hydrogen and oxygen, the first hydrogen mixer can be used for mixing the purified water and the hydrogen output by the hydrogen enrichment module to obtain hydrogen water, the control device is communicated with the purification module, the hydrogen enrichment module, the first hydrogen mixer, the drinking water device, the hydrogen bath device and the hydrogen absorption and oxygen absorption device, the control device can control the communication between the purification module and the drinking water device so that the purified water filtered and purified by the purification module can be output into the drinking water device for drinking, the control device can also control the communication between the hydrogen bath device and the first hydrogen mixer, so that the hydrogen water generated by the first hydrogen mixer can be output into the hydrogen bath device for bath, and the control device can control the connection of the hydrogen absorption and oxygen absorption devices and the hydrogen enrichment module, so that the hydrogen and oxygen generated by the hydrogen enrichment module can be conveyed to the hydrogen absorption and oxygen absorption devices for absorption and oxygen absorption, the integrated setting of the drinking water supply function, the hydrogen bath function, the hydrogen absorption function and the oxygen absorption function can be realized, the functions are more diversified, compared with the existing water purifier, the full-house water purification and hydrogen enrichment waterway system can meet the requirements of using drinking water, hydrogen bath, absorbing hydrogen and absorbing oxygen in a full house through a set of waterway system, meanwhile, the installation quantity of the drinking water device, the hydrogen bath device and the hydrogen absorption and oxygen absorption devices and the installation position in the full house can be flexibly adjusted according to the custom-made requirements of users, in addition, the pipeline in the waterway system can be installed under the ground or in a wall in a hidden manner, in addition, the realization of the five functions of drinking water supply, hydrogen bath, hydrogen absorption and oxygen absorption shares the same set of purification module, thereby greatly reducing the cost.

The foregoing summary is for the purpose of the specification only and is not intended to be limiting in any way. In addition to the illustrative aspects, embodiments, and features described above, further aspects, embodiments, and features of the present application will become apparent by reference to the drawings and the following detailed description.

Drawings

In the drawings, the same reference numerals refer to the same or similar parts or elements throughout the several views unless otherwise specified. The figures are not necessarily drawn to scale. It is appreciated that these drawings depict only some embodiments according to the disclosure and are not therefore to be considered limiting of its scope.

Fig. 1 is a schematic structural diagram of a full house hydrogen-rich waterway system of the present utility model.

Reference numerals

1. The device comprises a purifying module, a hydrogen-rich module, a drinking water device, a hydrogen-rich water device, a hydrogen bath device, a domestic water device and a hydrogen absorption and oxygen inhalation device.

Detailed Description

Hereinafter, only certain exemplary embodiments are briefly described. As will be recognized by those of skill in the pertinent art, the described embodiments may be modified in various different ways without departing from the spirit or scope of the present application. Accordingly, the drawings and description are to be regarded as illustrative in nature and not as restrictive.

Referring to fig. 1, a full house water purification and hydrogen enrichment waterway system according to a preferred embodiment of the present utility model includes:

The purification module 1, the water inlet of the purification module 1 is used for communicating with the water supply device, and the purification module 1 is used for filtering and purifying the water input by the water supply device;

The hydrogen-rich module 2, the water inlet of the hydrogen-rich module 2 is communicated with the water outlet of the purification module 1, and the hydrogen-rich module 2 is used for generating hydrogen and oxygen;

The water inlet of the first hydrogen mixer is communicated with the water outlet of the purification module 1, the air inlet of the first hydrogen mixer is communicated with the hydrogen outlet of the hydrogen-rich module 2, and the first hydrogen mixer is used for mixing water purified by the purification module 1 and hydrogen output by the hydrogen-rich module 2;

the control device is communicated with the purification module 1, the hydrogen-rich module 2 and the first hydrogen mixer;

The drinking water device 4 is communicated with the control device, and the drinking water device 4 is used for being communicated with the water outlet of the purification module 1 under the control of the control device;

The hydrogen bath device 6 is communicated with the control device, and the hydrogen bath device 6 is used for being communicated with the water outlet of the first hydrogen mixer under the control of the control device;

The hydrogen absorption and oxygen absorption device 8 is provided with a hydrogen absorption port and an oxygen absorption port, the hydrogen absorption port is used for being communicated with the hydrogen outlet of the hydrogen enrichment module 2 under the control of the control device, and the oxygen absorption port is used for being communicated with the oxygen outlet of the hydrogen enrichment module 2 under the control of the control device.

The full house water purification and hydrogen-rich waterway system comprises a purification module 1, a hydrogen-rich module 2, a first hydrogen mixer, a control device, a drinking water device 4, a hydrogen bath device 6 and a hydrogen absorption and oxygen absorption device 8, wherein the purification module 1 filters and purifies water input by the water supply device, the hydrogen-rich module 2 can electrolyze the purified water to generate hydrogen and oxygen, the first hydrogen mixer can mix the water purified by the purification module 1 with the hydrogen output by the hydrogen-rich module 2 to obtain hydrogen, the control device is communicated with the purification module 1, the hydrogen-rich module 2, the first hydrogen mixer, the drinking water device 4, the hydrogen bath device 6 and the hydrogen absorption and oxygen absorption device 8, the control device can control the communication of the purification module 1 and the drinking water device 4 so that the water filtered and purified by the purification module 1 is output into the drinking water device 4 as drinking water for drinking, the control device can also control the hydrogen bath device 6 to be communicated with the first hydrogen mixer, so that the hydrogen water generated by the first hydrogen mixer can be output to the hydrogen bath device 6 for bath, and the control device can control the hydrogen absorption and oxygen absorption device 8 to be communicated with the hydrogen rich module 2, so that the hydrogen and oxygen generated by the hydrogen rich module 2 can be conveyed to the hydrogen absorption and oxygen absorption device 8 for absorption and absorption, the integrated setting of the drinking water supply function, the hydrogen bath function, the hydrogen absorption function and the oxygen absorption function can be realized, the functions are more diversified, compared with the existing water purifier, the full-house water purification and hydrogen absorption and water absorption system can meet the requirements of using drinking water, hydrogen bath, hydrogen absorption and oxygen absorption in a full house through one set of waterway system, meanwhile, the installation quantity of the drinking water device 4, the hydrogen bath device 6 and the hydrogen absorption and oxygen absorption device 8 and the installation position in the full house can be flexibly adjusted according to the customized requirements of users, the use is more nimble convenient, in addition, can hide the pipeline in the waterway system and install in subaerial or wall body, in addition, the realization of drinking water supply, hydrogen bath, hydrogen absorption and oxygen uptake five kinds of functions is shared same set purification module 1, greatly reduced the cost.

In one embodiment, the drinking water device 4 may be a faucet, or may be a water outlet structure such as a water outlet pipe.

In one embodiment, the hydrogen bath apparatus 6 may be any one or combination of a faucet, a shower, a water outlet pipe, and the like.

In one embodiment, the hydrogen-absorbing oxygen inhalation device 8 may be a straw or an instrument capable of controlling the flow rate of hydrogen as well as the flow rate of oxygen.

In one embodiment, the hydrogen bath apparatus 6 may be any one or combination of a faucet, a shower, a water outlet pipe, and the like.

In one embodiment, the control device may be a device capable of realizing a control switching function, such as a valve or a solenoid valve for switching output in multiple directions.

In one embodiment, the purification module 1 may be a filter or a filter device composed of a plurality of filter elements, etc., and may filter and purify water output from the water supply device.

In one embodiment, the water supply device may be a tap of tap water, or other water supply device for mineral water or the like.

In one embodiment, the hydrogen-rich module 2 includes:

the water inlet of the pure water tank is used for being communicated with the water outlet of the purification module 1 under the control of the control device;

The water inlet of the electrolytic tank is communicated with the water outlet of the pure water tank, the electrolytic tank is provided with a hydrogen outlet and an oxygen outlet, and the electrolytic tank is used for generating hydrogen and oxygen. Because the hydrogen-rich module 2 is provided with the pure water tank, the pure water tank can play a role in storing water, so that when hydrogen and oxygen are prepared, the water in the pure water tank is controlled to be pumped to the electrolytic tank under the control of the control device, the purification module 1 is not required to be started, the preparation efficiency of the hydrogen and the oxygen can be improved, meanwhile, the drinking water supply function and the hydrogen and oxygen supply function can be started at the same time, the preparation of the drinking water and the preparation of the hydrogen and the oxygen are not affected, and the use is more flexible and convenient.

In one embodiment, the hydrogen-rich module 2 further comprises:

The water level detection device is communicated with the control device, the water level detection device is arranged on the pure water tank, the water level detection device is used for detecting the water level of the pure water tank, the control device is used for controlling the starting of the purification module 1 according to the low water level detection information of the water level detection device, so that the purification module 1 supplements water for the pure water tank, the control device is also used for controlling the purification module 1 to be closed according to the high water level detection information of the water level detection device, so that the purification module 1 stops supplementing water for the pure water tank, automatic water supplementing of the pure water tank is realized, and the use is more convenient.

Specifically, in one embodiment, the water level detection device is a float gauge.

In one embodiment, the hydrogen-rich module 2 further comprises:

The inlet of the water-gas separator is communicated with the oxygen outlet, the water outlet of the water-gas separator is communicated with the pure water tank, and the air outlet of the water-gas separator is communicated with the oxygen inhalation port. The water vapor separator can remove water vapor from oxygen produced by the electrolytic tank, so that the oxygen output to the oxygen inhalation port is kept dry, and meanwhile, water liquid separated from the oxygen flows back to the pure water tank, so that water liquid recycling is realized, and water resources are saved.

In one embodiment, the hydrogen-rich module 2 further comprises:

The water inlet of the first resin filter element is communicated with the water outlet of the purification module 1, and the water outlet of the first resin filter element is communicated with the water inlet of the pure water tank. Because the hydrogen-rich module 2 is provided with the first resin filter core, the drinking water output by the purification module 1 can be filtered again, the water quality is further improved, and cleaner hydrogen and oxygen are further obtained.

In one embodiment, the purification module 1 comprises:

The water inlet of the first purification assembly is used for being communicated with the water supply device, the water outlet of the first purification assembly is communicated with the water inlet of the first hydrogen mixer, and the first purification assembly is used for filtering and softening water input by the water supply device to obtain soft water;

The second purifying component is communicated with the control device, the water inlet of the second purifying component is communicated with the water outlet of the first purifying component, the water outlet of the second purifying component is communicated with the water inlet of the hydrogen-rich module 2 and the drinking water device 4, and the second purifying component is used for filtering and purifying the soft water input by the first purifying component to obtain drinking water. The control device can control the first purification component to be communicated with the first hydrogen mixer so that the soft water after the filtration and softening of the first purification component is output to the first hydrogen mixer, meanwhile, the control device can control the first hydrogen mixer to be communicated with the hydrogen bath device 6 so that the soft hydrogen water generated by the first hydrogen mixer can be output to the hydrogen bath device 6 for bathing, the water quality of the hydrogen bath device 6 is reduced, the water outlet efficiency can be improved, meanwhile, the soft water after the filtration and softening is used, the skin can be effectively protected, the control device can control the second purification component to be communicated with the hydrogen-rich module 2 so that the drinking water after the filtration and the purification of the second purification component is output to the hydrogen-rich module 2, the drinking water with higher water quality is provided for the hydrogen-rich module 2, the dryness of hydrogen and oxygen is further improved, and the control device can control the drinking water device 4 to be communicated with the second purification component so that the drinking water generated by the second purification component can be output to the drinking water device 4 for drinking water so that the drinking water meets the drinking standard.

In one embodiment, the first purification assembly comprises:

The water inlet of the pre-filter is communicated with the water supply device, and the pre-filter is used for filtering impurity particles in water, so that the water quality is improved, and meanwhile, the burden of a subsequent filter element is reduced;

The water inlet of the folding PP cotton carbon rod composite filter element is communicated with the water outlet of the front filter, and the folding PP cotton carbon rod composite filter element can effectively remove particles, pollutants and other impurities in water, so that the water quality is further improved, and meanwhile, the burden of the subsequent filter element is further reduced;

The water inlet of the second resin filter element is communicated with the water outlet of the folding PP cotton carbon rod composite filter element, the water outlet of the second resin filter element is communicated with the water inlet of the first hydrogen mixer, and the second resin filter element is used for removing heavy metals, filtering impurities and softening hard water, so that the water quality can be further improved, and meanwhile, the burden of the subsequent filter elements is greatly reduced;

the second purifying assembly includes:

RO filter core, the delivery port of RO filter core intercommunication second resin filter core, the delivery port of RO filter core intercommunication hydrogen-rich module 2's water inlet and potable water device 4, RO filter core are used for straining nearly all impurity (including harmful organic matter and heavy metal ion etc.) in the water, only allow the hydrone to pass through to obtain high-quality potable water. In this way, under the control of the control device, water flow can sequentially pass through the pre-filter, the folding PP cotton carbon rod composite filter element and the second resin filter element to obtain filtered soft water, the soft water is mixed with hydrogen in the first hydrogen mixer to obtain soft hydrogen water, the soft hydrogen water can be ensured to be cleaner soft water, the sanitation of bath water is ensured, meanwhile, under the control of the control device, water flow can sequentially pass through the pre-filter, the folding PP cotton carbon rod composite filter element, the second resin filter element and the RO filter element to obtain high-quality drinking water, the drinking water is conveyed to the hydrogen-rich module 2 to prepare cleaner hydrogen and oxygen, and the drinking water is conveyed to the drinking water device 4 to improve the quality of the drinking water, and different water quality requirements of the soft hydrogen water, the hydrogen preparation, the oxygen preparation and the drinking water can be respectively met by using the same set of the purification module 1.

In one embodiment, the second purification assembly further comprises:

The water inlet of the carbon rod filter element is communicated with the water outlet of the RO filter element, the water outlet of the carbon rod filter element is communicated with the drinking water device 4, the carbon rod filter element can effectively filter residual chlorine, peculiar smell, organic pollutants and the like in water, and simultaneously remove color and turbid substances in the water, thereby improving the cleanliness and taste of drinking water quality.

In one embodiment, the first purification assembly further comprises:

The water inlet of the salt filter element is communicated with the water outlet of the folding PP cotton carbon rod composite filter element, the water outlet of the salt filter element is communicated with the water inlet of the second resin filter element, and the salt filter element is used for mixing water and salt output by the folding PP cotton carbon rod composite filter element to form salt water;

The second resin filter element is provided with a water outlet, the water outlet is communicated with a first water outlet valve, the first water outlet valve is communicated with a control device, and the first water outlet valve is used for controlling the opening and closing of the water outlet under the control of the control device. Therefore, under the control of the control device, water flows through the pre-filter, the folding PP cotton carbon rod composite filter element, the salt filter element and the second resin filter element in sequence, brine is obtained after the water flows through the salt filter element, the second resin filter element is washed by the brine, the washed wastewater is discharged from the first drain valve, the second resin filter element is further regenerated, the second resin filter element can be recycled, the cost can be reduced, after the second resin filter element is regenerated, the water flows through the pre-filter, the folding PP cotton carbon rod composite filter element and the second resin filter element in sequence, the second resin filter element is washed again, and the washed wastewater is discharged from the first drain valve, so that the soft water quality after the second resin filter element is filtered is improved.

In one embodiment, the whole house water purification and hydrogen enrichment waterway system further comprises:

The first inlet of the first valve is communicated with the water outlet of the second resin filter element, the second inlet of the first valve is communicated with the hydrogen outlet of the hydrogen-rich module 2, and the outlet of the first valve is communicated with the inlet of the first hydrogen mixer. In addition, the first valve can be utilized to preliminarily mix soft water and hydrogen so as to obtain preliminary mixed hydrogen water, and then the first hydrogen mixer is utilized to fully mix the hydrogen water so as to obtain soft hydrogen water which is uniformly mixed, and the step-by-step mixing mode can improve the mixing efficiency, thereby improving the water outlet efficiency of the hydrogen water.

It is understood that the air inlet and the water inlet of the first hydrogen mixer are the same inlet, that is, the inlet of the first hydrogen mixer.

In one embodiment, the water outlet of the second resin filter element is also communicated with the hydrogen bath device 6, so that under the control of the control device, soft water output by the second resin filter element can be directly output to the hydrogen bath device 6 for bath, so that the hydrogen bath device 6 can output two water sources of hydrogen water and soft water, different use requirements of a user can be met, and the use convenience can be improved.

In one embodiment, the whole house water purification and hydrogen enrichment waterway system further comprises:

The water inlet of the second hydrogen mixer is communicated with the water outlet of the purification module 1, the air inlet of the second hydrogen mixer is communicated with the hydrogen outlet of the hydrogen-rich module 2, and the second hydrogen mixer is used for mixing the purified water of the purification module 1 and the hydrogen output by the hydrogen-rich module 2 to form hydrogen-rich water;

And the hydrogen-rich water device 5 is communicated with the water outlet of the second hydrogen mixer, and the hydrogen-rich water device 5 is used for being communicated with the water outlet of the second hydrogen mixer under the control of the control device. In addition, the second hydrogen mixer and the first hydrogen mixer respectively form hydrogen-rich water and hydrogen-rich water, the hydrogen-rich water for drinking is higher in hydrogen content, the second hydrogen mixer is used for mixing hydrogen and water to obtain hydrogen-rich water with hydrogen content, the hydrogen water for bath is not so high in hydrogen content requirement, but the water consumption is larger, the first hydrogen mixer is used for mixing hydrogen and water to obtain hydrogen water with higher water outlet efficiency, that is, the hydrogen-rich water is configured by the second hydrogen mixer, the hydrogen-rich water supply function is further diversified, the hydrogen-rich water and the hydrogen-rich water are respectively formed by the second hydrogen mixer and the first hydrogen mixer, the hydrogen-rich water and the hydrogen-rich water are prepared according to the hydrogen concentration requirement and the corresponding flow rate requirement of the hydrogen water, the hydrogen concentration requirement and the flow rate requirement of the hydrogen mixer are correspondingly adjusted, the hydrogen concentration and the flow rate requirement of the hydrogen water can be further reduced, and the hydrogen water preparation cost can be further reduced according to the flow rate requirement of the hydrogen water is further reduced.

In one embodiment, the water inlet of the second hydrogen mixer is communicated with the water outlet of the RO filter element, so that the drinking water output by the RO filter element can be conveyed into the second hydrogen mixer and mixed with hydrogen to form hydrogen-rich water with higher water quality and meeting the drinking standard.

In an embodiment, this full house water purification hydrogen-rich waterway system still includes the pipeline machine, and the pipeline machine passes through the delivery port of controlling means intercommunication carbon rod filter core, so, under controlling means's control, can make the drinking water of carbon rod filter core output carry the pipeline machine, realize providing the water source after the purification for the pipeline machine, need not to set up purifier in the pipeline machine, can save the cost, simultaneously, because the pipeline machine has heating, heat preservation, refrigeration function, can provide the drinking water of different temperatures.

In one embodiment, the whole house water purification and hydrogen enrichment waterway system further comprises:

And the domestic water device 7 is communicated with the water outlet of the folding PP cotton carbon rod composite filter element under the control of the control device. So, under controlling means's control, can make the output of folding cotton carbon rod composite filter element's of PP primary filter output to domestic water device 7 in order to use as domestic water, make this full house water purification hydrogen-rich waterway system function more diversified, can satisfy user's more user demand.

In one embodiment, the domestic water device 7 may be a faucet or a water outlet pipe.

In one embodiment, the whole house water purification and hydrogen enrichment waterway system further comprises:

And the sixth valve is communicated with the control device and is arranged on a communicating pipeline between the water inlet of the pre-filter and the water supply device, and the sixth valve is used for controlling the opening and closing of the water inlet of the pre-filter under the control of the control device.

In one embodiment, the whole house water purification and hydrogen enrichment waterway system further comprises:

The first booster pump is communicated with the control device, and is arranged on a communicating pipeline between the water outlet of the pre-filter and the water inlet of the folding PP cotton carbon rod composite filter element, and the first booster pump is communicated with the communicating pipeline, so that water flow input by the water supply device sequentially flows through the pre-filter, the folding PP cotton carbon rod composite filter element and the second resin filter element under the driving of the first booster pump.

In one embodiment, the whole house water purification and hydrogen enrichment waterway system further comprises:

The intelligent pressure gauge is arranged on a communicating pipe between the water outlet of the pre-filter and the water inlet of the folding PP cotton carbon rod composite filter element, the intelligent pressure gauge is closer to the water outlet of the pre-filter than the first booster pump, the intelligent pressure gauge is used for detecting the water pressure in the communicating pipe, the control device is used for controlling the on-off of the first booster pump according to the feedback information of the intelligent pressure gauge, namely the on-off of the first booster pump depends on the monitoring value of the intelligent pressure gauge, when the raw water inflow pressure is lower than the set value of the intelligent pressure gauge, the first booster pump is started, and when the raw water inflow pressure is greater than or equal to the set value of the intelligent pressure gauge, the first booster pump is closed.

In one embodiment, the whole house water purification and hydrogen enrichment waterway system further comprises:

The inlet of the second valve is communicated with the water outlet of the folding PP cotton carbon rod composite filter element, and the first outlet of the second valve is communicated with the domestic water device 7;

The third valve is communicated with the control device, the inlet of the third valve is communicated with the second outlet of the second valve, the first outlet of the third valve is communicated with the water inlet of the second resin filter element, and the second outlet of the third valve is communicated with the water inlet of the salt filter element. Because the control device is communicated with the second valve and the third valve, the inlet of the second valve is communicated with the first outlet to supply domestic water to the domestic water device 7, the inlet of the second valve is communicated with the second outlet to convey water source to the third valve, meanwhile, the inlet of the third valve is communicated with the first outlet to convey water source to the second resin filter element, and the inlet of the third valve is communicated with the second outlet to convey water source to the salt filter element, wherein the water outlet of the folding PP cotton carbon rod composite filter element, the inlet of the domestic water module and the third valve are connected through the second valve, and the second outlet of the second valve, the water inlet of the second resin filter element and the water inlet of the salt filter element are connected through the third valve, so that the use quantity of the valves can be reduced, the pipeline structure can be simplified, and further cost can be reduced.

Referring to fig. 1, in one embodiment, the whole house water purification and hydrogen-rich waterway system further includes:

A first flowmeter arranged on a communicating pipeline between the water outlet of the folding PP cotton carbon rod composite filter element and the inlet of the second valve and used for monitoring the service life of the folding PP cotton carbon rod composite filter element, the control device is used for sending out a prompt signal according to the feedback information of the first flowmeter so as to replace the folding PP cotton carbon rod composite filter element in time.

Referring to fig. 1, in one embodiment, the whole house water purification and hydrogen-rich waterway system further includes:

The inlet of the fourth valve is communicated with the water outlet of the second resin filter element, and the first outlet of the fourth valve is communicated with the hydrogen bath device 6;

The inlet of the fifth valve is communicated with the second outlet of the fourth valve, the outlet of the fifth valve is communicated with the water inlet of the RO filter element, and the fifth valve is positioned on one side close to the water inlet of the RO filter element;

the first valve is communicated with the control device, the first inlet of the first valve is communicated with the second outlet of the fourth valve, the second inlet of the first valve is communicated with the hydrogen outlet of the hydrogen-rich module 2, the outlet of the first valve is communicated with the inlet of the first hydrogen mixer, and the first valve is positioned on one side close to the inlet of the first hydrogen mixer. In this way, the fourth valve is used for realizing connection with the water outlet of the second resin filter element, the hydrogen bath device 6 and the inlet of the fifth valve, the fifth valve is used for connecting the second outlet of the fourth valve and the water inlet of the RO filter element, and the first valve is used for connecting the second outlet of the fourth valve, the hydrogen outlet of the hydrogen enriching module 2 and the inlet of the first hydrogen mixer, so that the use number of the valves can be reduced, the pipeline structure is simplified, further the cost is further reduced, in addition, the first valve can be used for primarily mixing soft water and hydrogen to obtain primarily mixed hydrogen water, the first hydrogen mixer is used for fully mixing the hydrogen water to obtain uniformly mixed soft hydrogen water, and the step mixing mode can improve the mixing efficiency, and further the hydrogen water outlet efficiency can be improved.

In one embodiment, the whole house water purification and hydrogen enrichment waterway system further comprises:

The second booster pump is communicated with the control device, and is arranged on a communicating pipeline between a second outlet of the fourth valve and a first inlet of the first valve, and is communicated with the communicating pipeline, so that water flow output by the second resin filter element sequentially flows through the RO filter element, the hydrogen-rich module 2 or the first hydrogen mixer under the driving of the second booster pump.

Referring to fig. 1, in one embodiment, the whole house water purification and hydrogen-rich waterway system further includes:

The seventh valve is communicated with the control device, the inlet of the seventh valve is communicated with the water outlet of the carbon rod filter element, the first outlet of the seventh valve is communicated with the drinking water device 4, and the second outlet of the seventh valve is communicated with the hydrogen-rich water device 5;

The eighth valve is communicated with the control device, the first inlet of the eighth valve is communicated with the third outlet of the seventh valve, the second inlet of the eighth valve is communicated with the hydrogen outlet of the hydrogen-rich module 2, and the outlet of the eighth valve is communicated with the inlet of the second hydrogen mixer. In addition, the eighth valve can be utilized to primarily mix drinking water and hydrogen so as to obtain primarily mixed hydrogen water, then the second hydrogen mixer is utilized to fully mix the hydrogen water so as to obtain hydrogen-rich water, the stepwise mixing mode can improve the mixing efficiency, and then the water outlet efficiency of the hydrogen-rich water can be improved, in addition, as the eighth valve and the first valve are respectively arranged before the second hydrogen mixer and before the first hydrogen mixer, the switch of the inlet of the second hydrogen mixer can be controlled by utilizing the eighth valve, the switch of the inlet of the first hydrogen mixer is controlled by utilizing the first valve, the water flow and the air flow are split, the hydrogen output by the hydrogen-rich module 2 can be ensured to be conveyed to the second hydrogen mixer or the first hydrogen mixer according to a set program, and the water outlet efficiency of the hydrogen-rich water or the hydrogen-rich water can be improved.

In one embodiment, the whole house water purification and hydrogen enrichment waterway system further comprises:

And the inlet of the ninth valve is communicated with the water outlet of the RO filter element, the outlet of the ninth valve is communicated with the water inlet of the first resin filter element, and the ninth valve is used for controlling the switch of the water inlet of the first resin filter element so as to close the ninth valve when hydrogen or oxygen is absorbed, thereby ensuring that water in the pure water tank is pumped to the electrolytic tank without starting the purification module 1, and improving the preparation efficiency of hydrogen and oxygen.

Referring to fig. 1, in one embodiment, the whole house water purification and hydrogen-rich waterway system further includes:

The second flowmeter is arranged on a pipeline between the water outlet of the second resin filter element and the inlet of the fourth valve, the second flowmeter is used for monitoring the service life of the second resin filter element, and the control device is used for sending out a prompt signal according to feedback information of the second flowmeter so as to start the regeneration function of the second resin filter element or replace the second resin filter element.

Referring to fig. 1, in one embodiment, the whole house water purification and hydrogen-rich waterway system further includes:

And the third flowmeter is arranged on a pipeline between the water outlet of the RO filter element and the water inlet of the carbon rod filter element, and is used for monitoring the service lives of the RO filter element and the carbon rod filter element, and the control device is used for sending out prompt signals according to feedback information of the third flowmeter so as to replace the RO filter element and the carbon rod filter element in time.

Referring to fig. 1, in one embodiment, a first check valve is provided in the line between the first outlet of the fourth valve and the hydrogen bath apparatus 6;

a second one-way valve is arranged on a pipeline between the water outlet of the salt filter element and the water inlet of the second resin filter element;

a third one-way valve is arranged on a pipeline between the water outlet of the RO filter element and the water inlet of the carbon rod filter element;

A fourth one-way valve is arranged on a pipeline between the hydrogen outlet of the electrolytic tank and the second inlet of the first valve;

a fifth one-way valve is arranged on a pipeline between the second outlet of the seventh valve and the hydrogen-rich water device 5;

A sixth one-way valve and a first hydrogen detector are arranged on a pipeline between the water outlet of the second hydrogen mixer and the hydrogen-rich water device 5, and the first hydrogen detector is used for detecting the hydrogen content of water and indirectly judging whether the electrolytic tank is invalid;

A seventh one-way valve and a second hydrogen meter are arranged on a pipeline between the water outlet of the first hydrogen mixer and the hydrogen bath device 6, and the second hydrogen meter is used for detecting the hydrogen content of water and indirectly judging whether the electrolytic tank fails.

In one embodiment, the pre-filter can automatically flush through the control of the first flowmeter, wherein the pre-filter is provided with a drain outlet, and sewage generated by the automatic flushing of the pre-filter can be automatically discharged without passing through a system.

In one embodiment, the ultraviolet sterilization module (i.e., UV) in the purified water tank is automatically turned on with the system being powered on.

In one embodiment, the first resin cartridge is judged to be spent by TDS detection in the clean water tank.

In one embodiment, the salt filter cartridge may be judged to be malfunctioning by a TDS detector.

In one embodiment, the RO cartridge may be disabled by a TDS detector.

The TDS value is generally used for measuring purity of purified water, TDS is an acronym of total soluble solid matter Total Dissolved Solids, and refers to concentration of total soluble matter in water, and unit milligrams per liter (MG/L), and mainly reflects concentration of ca2+mg2+na+k+ plasma in water, and has a better corresponding relation with hardness and conductivity of water, and the smaller the TDS value, the lower the concentration of ca2+mg2+na+k+ plasma in water, and the smaller the conductivity.

To sum up, this whole house water purification hydrogen-rich waterway system possesses following function:

The RO filter core flushing function comprises a sixth valve opening, a second valve (an inlet opening, a first outlet opening and a second outlet closing), a third valve (an inlet opening, a first outlet opening and a second outlet closing), a first drain valve closing, a fourth valve (an inlet opening, a first outlet opening and a second outlet closing), a fifth valve opening, a wastewater valve of the RO filter core opening, a seventh valve (an inlet opening, a first outlet opening, a second outlet closing and a third outlet closing), a ninth valve closing, a first valve closing, an eighth valve closing, a first booster pump closing, a second booster pump opening, a first hydrogen mixer closing, a second hydrogen mixer closing and an electrolytic tank closing, namely, under the action of a second booster pump, water flows sequentially through a sixth valve-prefilter-folding PP cotton carbon rod composite filter core-a second valve-a third valve-a second resin filter core-a fourth valve-a RO filter core-a wastewater valve, so that the RO filter core is flushed, and the RO filter core service life is prolonged.

The system filter element exhausting function comprises a sixth valve opening, a second valve (an inlet opening, a first outlet opening and a second outlet closing), a third valve (an inlet opening, a first outlet opening and a second outlet closing), a first drain valve closing, a fourth valve (an inlet opening, a first outlet opening and a second outlet closing), a fifth valve opening, a wastewater valve of the RO filter element closing, a seventh valve (an inlet opening, a first outlet opening, a second outlet closing and a third outlet closing), a ninth valve closing, a first valve closing, an eighth valve closing, a first booster pump closing, a second booster pump opening, a first hydrogen mixer closing, a second hydrogen mixer closing and an electrolytic tank closing, namely, under the action of a second booster pump, water flows sequentially through a sixth valve-prefilter-folding PP cotton carbon rod composite filter element-a second valve-third valve-second resin filter element-fourth valve-fifth valve-RO filter element-seventh valve-drinking water device 4, and the prefilter, and the filter element exhausting are realized.

The domestic water supply function is that a sixth valve is opened, a second valve (an inlet is opened, a first outlet is closed, a second outlet is opened), the rest valves are closed, a first booster pump is opened, a second booster pump is closed, a first hydrogen mixer is closed, a second hydrogen mixer is closed, an electrolytic tank is closed, namely, under the action of a first booster pump, water flow sequentially passes through the sixth valve, a pre-filter, a folding PP cotton carbon rod composite filter element, a second valve and a domestic water device 7, and domestic water is supplied to the domestic water device 7.

The soft water bathing function comprises a sixth valve opening, a second valve (an inlet opening, a first outlet opening and a second outlet closing), a third valve (an inlet opening, a first outlet opening and a second outlet closing), a fourth valve (an inlet opening, a first outlet closing and a second outlet opening), other valves closing, a first booster pump opening, a second booster pump closing, a first hydrogen mixer closing, a second hydrogen mixer closing and an electrolytic tank closing, namely, under the action of the first booster pump, water flows sequentially through a sixth valve-pre-filter-folding PP carbon rod composite filter element-a second valve-third valve-a second resin filter element-fourth valve-hydrogen bathing device 6, so that soft water is provided for the hydrogen bathing device 6.

The soft hydrogen water bath function comprises a sixth valve opening, a second valve (an inlet opening, a first outlet opening and a second outlet closing), a third valve (an inlet opening, a first outlet opening and a second outlet closing), a first drain valve closing, a fourth valve (an inlet opening, a first outlet opening and a second outlet closing), a first valve (a first inlet opening, a second inlet opening and an outlet opening), a fifth valve closing, a wastewater valve of an RO filter element closing, a ninth valve closing, a seventh valve (a second outlet closing, a first outlet closing, a third outlet closing, an inlet closing), an eighth valve (a first inlet closing, an outlet closing, a second inlet closing), a first booster pump closing, a second booster pump opening, a first hydrogen mixer opening and an electrolytic tank opening, namely, under the action of a second booster pump, water flow sequentially passes through a sixth valve-prefilter-folding PP cotton carbon rod composite filter element-a second valve-a third valve-a second resin filter element-a fourth valve-a first valve-a second hydrogen mixer (a primary water mixer and a secondary water mixer forming a soft hydrogen bath device 6).

The pipeline machine water supply function comprises a sixth valve opening, a second valve (inlet opening, first outlet opening, second outlet closing), a third valve (inlet opening, first outlet opening, second outlet closing), a first drain valve closing, a fourth valve (inlet opening, first outlet opening, second outlet closing), a fifth valve opening, a wastewater valve of the RO filter element opening, a seventh valve (inlet opening, first outlet closing, second outlet opening, third outlet closing), a ninth valve closing, a first valve (first inlet closing, outlet closing, second inlet closing), an eighth valve (first inlet closing, outlet closing, second inlet closing), a first booster pump closing, a second booster pump opening, a first hydrogen mixer closing, a second hydrogen mixer closing, and an electrolytic tank closing, namely, under the action of the second booster pump, water flow sequentially passes through a sixth valve-pre-filter-folding PP cotton carbon rod composite filter element-second valve-third valve-second resin filter element-fourth valve-fifth valve-RO filter element-seventh valve-carbon rod composite filter element, and the pipeline machine is realized.

The hydrogen-rich water supply function comprises a sixth valve opening, a second valve (an inlet opening, a first outlet opening and a second outlet closing), a third valve (an inlet opening, a first outlet opening and a second outlet closing), a first drain valve closing, a fourth valve (an inlet opening, a first outlet opening and a second outlet closing), a fifth valve opening, a wastewater valve of the RO filter element opening, a seventh valve (an inlet opening, a first outlet closing, a second outlet closing and a third outlet opening), an eighth valve (a first inlet opening, a second inlet opening and an outlet opening), a ninth valve closing, a first valve (a first inlet closing, a second inlet closing and an outlet closing), a first booster pump closing, a second booster pump opening, a first hydrogen mixer closing and an electrolytic tank opening, namely, under the action of a second booster pump, water flow sequentially passes through a sixth valve-pre-filter-folding PP cotton carbon rod composite filter element-a second valve-a third valve-a fourth valve-RO valve-a fifth valve-a seventh valve-a hydrogen-eighth filter element-a hydrogen-filter element (a first hydrogen-eighth hydrogen-mixer is formed in the filter element, and the hydrogen-eighth booster pump device is provided with hydrogen-rich water.

The drinking water supply function comprises a sixth valve opening, a second valve (inlet opening, first outlet opening, second outlet closing), a third valve (inlet opening, first outlet opening, second outlet closing), a first drain valve closing, a fourth valve (inlet opening, first outlet opening, second outlet closing), a fifth valve opening, a wastewater valve of the RO filter element opening, a seventh valve (inlet opening, first outlet opening, second outlet closing, third outlet closing), a ninth valve closing, a first valve (first inlet closing, outlet closing, second inlet closing), an eighth valve (first inlet closing, outlet closing, second inlet closing), a first booster pump closing, a second booster pump opening, a first hydrogen mixer closing, a second hydrogen mixer closing, and an electrolytic tank closing, namely, under the action of the second booster pump, water flow sequentially passes through a sixth valve-prefilter-folding PP cotton carbon rod composite filter element-second valve-third valve-second resin filter element-fourth valve-fifth valve-RO filter element-seventh valve-drinking water device 4, and the drinking water device is realized.

The hydrogen absorption/oxygen absorption function is that all valves are closed, the electrolytic tank is opened, and even if purified water in the purified water tank is pumped into the electrolytic tank, the electrolytic tank can be made into hydrogen and oxygen, and the hydrogen absorption/oxygen absorption device 8 is supplied with the hydrogen and the oxygen.

The regeneration and flushing functions of the second resin filter element:

The regeneration function comprises a sixth valve opening, a second valve (an inlet opening, a first outlet opening and a second outlet closing), a third valve (an inlet opening, a first outlet closing and a second outlet opening), a first drain valve opening, other valves closing, a first booster pump opening, a second booster pump closing, a first hydrogen mixer closing, a second hydrogen mixer closing and an electrolytic tank closing, namely, under the action of a first booster pump, water flow sequentially passes through the sixth valve, a prepositive filter element, a folding PP cotton carbon rod composite filter element, a second valve, a third valve, a salt filter element, a second resin filter element and a first drain valve, so that the regeneration of the second resin filter element is realized;

The flushing function comprises a sixth valve opening, a second valve (an inlet opening, a first outlet opening and a second outlet closing), a third valve (an inlet opening, a first outlet opening and a second outlet closing), a first drain valve opening, a fourth valve (an inlet opening, a first outlet closing and a second outlet opening), other valves closing, a first booster pump opening, a second booster pump closing, a first hydrogen mixer closing, a second hydrogen mixer closing and an electrolytic tank closing, namely, under the action of a first booster pump, water flows sequentially through the sixth valve-pre-filter-folding PP cotton carbon rod composite filter element, the second valve-third valve-second resin filter element, and the flushed waste water is discharged through the first drain valve and sequentially through the fourth valve-hydrogen bath device 6, so that the regenerated second resin filter element is flushed.

A clean water tank water replenishing function, namely when the water level detection device on the clean water tank is at a low water level, a sixth valve is opened, a second valve (an inlet is opened, a first outlet is opened, a second outlet is closed), a third valve (an inlet is opened, a first outlet is opened, a second outlet is closed), a first drain valve is closed, a fourth valve (an inlet is opened, a first outlet is opened, a second outlet is closed), a fifth valve is opened, a wastewater valve of the RO filter element is opened, a ninth valve is opened, a seventh valve (an inlet is closed, a second outlet is closed, a first outlet is closed, a third outlet is closed), a first valve (a first inlet is closed, a second inlet is closed, an outlet is closed), a eighth valve (a first inlet is closed, a second inlet is closed), a second drain valve is closed, a first booster pump is closed, a second booster pump is opened, a first hydrogen mixer is closed, and a second hydrogen mixer is closed, and an electrolytic tank is closed, namely under the action of a second booster pump, water flow sequentially passes through the sixth valve-a front filter-folding PP cotton carbon rod composite filter element-a second valve-a third valve-a fourth valve-a pure water filter element-a pure water tank is realized;

When the water level detection device on the pure water tank is at a high water level, all valves are closed, the first booster pump is closed, the second booster pump is closed, the first hydrogen mixer is closed, the second hydrogen mixer is closed, and the electrolytic tank is closed.

And the water changing function of the pure water tank is that after the water in the pure water tank is placed for a certain time, the second drain valve is opened to drain the water in the pure water tank through the second drain valve, and after a period of time, the second drain valve is closed and is switched to the water supplementing function of the pure water tank.

In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., means 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 present application. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, the different embodiments or examples described in this specification and the features of the different embodiments or examples may be combined and combined by those skilled in the art without contradiction.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In the description of the present application, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

The foregoing is merely illustrative of the present application, and the present application is not limited thereto, and any person skilled in the art will readily recognize that various modifications and substitutions are possible within the scope of the present application. Therefore, the protection scope of the application is subject to the protection scope of the claims.

Claims (10)

1. Whole house water purification hydrogen-rich waterway system, its characterized in that includes:

the water inlet of the purification module is communicated with the water supply device, and the purification module is used for filtering and purifying water input by the water supply device;

The water inlet of the hydrogen-rich module is communicated with the water outlet of the purification module, and the hydrogen-rich module is used for generating hydrogen and oxygen;

The water inlet of the first hydrogen mixer is communicated with the water outlet of the purification module, the air inlet of the first hydrogen mixer is communicated with the hydrogen outlet of the hydrogen-rich module, and the first hydrogen mixer is used for mixing water purified by the purification module and hydrogen output by the hydrogen-rich module;

the control device is communicated with the purification module, the hydrogen-rich module and the first hydrogen mixer;

The drinking water device is communicated with the control device and is used for being communicated with the water outlet of the purification module under the control of the control device;

the hydrogen bath device is communicated with the control device and is used for being communicated with the water outlet of the first hydrogen mixer under the control of the control device;

The hydrogen absorption and oxygen absorption device is provided with a hydrogen absorption port and an oxygen absorption port, the hydrogen absorption port is used for being communicated with the hydrogen outlet of the hydrogen-rich module under the control of the control device, and the oxygen absorption port is used for being communicated with the oxygen outlet of the hydrogen-rich module under the control of the control device.

2. The whole house purified water hydrogen-rich waterway system of claim 1, wherein the hydrogen-rich module comprises:

The water inlet of the pure water tank is used for being communicated with the water outlet of the purification module under the control of the control device;

The water inlet of the electrolytic tank is communicated with the water outlet of the pure water tank, the electrolytic tank is provided with the hydrogen outlet and the oxygen outlet, and the electrolytic tank is used for generating hydrogen and oxygen.

3. The full house purified water hydrogen-enriched waterway system of claim 2, wherein the hydrogen-enriched module further comprises:

The water level detection device is communicated with the control device, the water level detection device is arranged on the pure water tank and used for detecting the water level of the pure water tank, the control device is used for controlling the starting of the purification module according to low water level detection information of the water level detection device so that the purification module supplements water for the pure water tank, and the control device is also used for controlling the closing of the purification module according to high water level detection information of the water level detection device so that the purification module stops supplementing water for the pure water tank.

4. The full house purified water hydrogen-enriched waterway system of claim 2, wherein the hydrogen-enriched module further comprises:

the inlet of the water-gas separator is communicated with the oxygen outlet, the water outlet of the water-gas separator is communicated with the purified water tank, and the air outlet of the water-gas separator is communicated with the oxygen inhalation port.

5. The full house purified water hydrogen-enriched waterway system of claim 2, wherein the hydrogen-enriched module further comprises:

The water inlet of the first resin filter element is communicated with the water outlet of the purification module, and the water outlet of the first resin filter element is communicated with the water inlet of the purified water tank.

6. The full house purified water hydrogen-rich waterway system of claim 1, wherein the purification module includes:

The first purifying component is communicated with the control device, a water inlet of the first purifying component is communicated with the water supply device, a water outlet of the first purifying component is communicated with a water inlet of the first hydrogen mixer, and the first purifying component is used for filtering and softening water input by the water supply device to obtain soft water;

The second purifying component is communicated with the control device, the water inlet of the second purifying component is communicated with the water outlet of the first purifying component, the water outlet of the second purifying component is communicated with the water inlet of the hydrogen-rich module and the drinking water device, and the second purifying component is used for filtering and purifying soft water input by the first purifying component to obtain drinking water.

7. The full house purified water hydrogen-enriched waterway system of claim 6, wherein the first purifying assembly includes:

the water inlet of the pre-filter is communicated with the water supply device;

a water inlet of the folding PP cotton carbon rod composite filter element is communicated with a water outlet of the pre-filter;

The water inlet of the second resin filter element is communicated with the water outlet of the folding PP cotton carbon rod composite filter element, and the water outlet of the second resin filter element is communicated with the water inlet of the first hydrogen mixer;

The second purification assembly includes:

The water inlet of the RO filter element is communicated with the water outlet of the second resin filter element, and the water outlet of the RO filter element is communicated with the water inlet of the hydrogen-rich module and the drinking water device.

8. The full house purified water hydrogen-enriched waterway system of claim 7, wherein the second purifying assembly further comprises:

The water inlet of the carbon rod filter element is communicated with the water outlet of the RO filter element, and the water outlet of the carbon rod filter element is communicated with the drinking water device.

9. The full house purified water hydrogen-enriched waterway system of claim 7, wherein the first purifying assembly further comprises:

The water inlet of the salt filter element is communicated with the water outlet of the folding PP cotton carbon rod composite filter element, the water outlet of the salt filter element is communicated with the water inlet of the second resin filter element, and the salt filter element is used for mixing water and salt output by the folding PP cotton carbon rod composite filter element to form salt water;

The second resin filter element is provided with a water outlet, the water outlet is communicated with a first water outlet valve, the first water outlet valve is communicated with the control device, and the first water outlet valve is used for controlling the water outlet to be opened and closed under the control of the control device.

10. The full house purified water hydrogen-enriched waterway system of claim 7, further comprising:

The first inlet of the first valve is communicated with the water outlet of the second resin filter element, the second inlet of the first valve is communicated with the hydrogen outlet of the hydrogen-rich module, and the outlet of the first valve is communicated with the inlet of the first hydrogen mixer.