CN206376013U - A kind of hydrogen-rich water electrolyser waterway structure - Google Patents

Abstract

The utility model is applied to purifier technical field, there is provided a kind of hydrogen-rich water electrolyser waterway structure, including the first container for depositing pure water, the second container with first reservoir, the hydrogen generator connected respectively with first container and second container, and it is respectively used to connect the passage of first container, second container and hydrogen generator, the hydrogen generator includes the cathode electrolytic cell connected with the anode electrolytic tank of first reservoir and with the second container.Hydrogen-rich water electrolyser waterway structure of the present utility model can produce negative potential water with electrolyzing pure water, negative potential water is exactly to allow negative potential on hydrone band, such activated water is easier to be absorbed by the body, play more preferable adjustment effect, and negative potential water can improve cytoactive, blood glucose, blood fat are adjusted, the accumulation of poisonous and harmful substance in vivo, the effect with anti-aging is reduced.

Description

A kind of hydrogen-rich water electrolyser waterway structure

Technical field

The utility model belongs to purifier technical field, more particularly to a kind of hydrogen-rich water electrolyser waterway structure.

Background technology

In the prior art, as client increasingly payes attention to healthy, to the requirement also more and more higher for quality of drinking water.But It is all in the market the water after filtering by the water of water purifier or water dispenser to be, special work(is not played to human body Can effect.

Utility model content

The purpose of this utility model is to provide a kind of hydrogen-rich water electrolyser waterway structure, it is intended to which solution is passed through in the prior art The technical problem of specific function effect can not be played to human body by crossing the water of water purifier or water dispenser.

What the utility model was realized in：There is provided a kind of hydrogen-rich water electrolyser waterway structure, including it is pure for depositing First container of water, the second container with first reservoir, connected respectively with first container and second container Hydrogen generator, and it is respectively used to connect the passage of first container, second container and hydrogen generator, the hydrogen hair Raw device includes the cathode electrolytic cell connected with the anode electrolytic tank of first reservoir and with the second container.

Further, the passage includes the first waterway channel, the use for being used to connect first container and second container In the second waterway channel and the first gas channels that connect first container and anode electrolytic tank, and for connecting described the Two containers and the 3rd waterway channel of the cathode electrolytic cell and the second gas channels.

Further, it is provided with the 3rd waterway channel for extracting the pure water in the second container and being passed through institute State the water pump of cathode electrolytic cell.

Further, the port that second gas channels are connected with the cathode electrolytic cell is logical higher than the 3rd water route The port that road is connected with the cathode electrolytic cell, and one end insertion institute of second gas channels away from the cathode electrolytic cell In the liquid for stating second container.

Further, the port that first gas channels are connected with the anode electrolytic tank is logical higher than second water route The port that road is connected with the anode electrolytic tank, and the described one end of first gas channels away from the anode electrolytic tank is located at institute State the ullage of the first container.

Further, one end of first waterway channel and the second waterway channel is both connected to the bottom of first container End.

Further, first container is located at the top of the anode electrolytic tank.

Further, first container is located at the top of the second container.

Further, the bottom of the second container is provided with sewage draining exit, the sewage draining exit and is provided with blowoff valve.

Further, the bottom of the second container is provided with the discharge outlet for discharging hydrogen rich water.

Implement a kind of hydrogen-rich water electrolyser waterway structure of the present utility model, have the advantages that：The utility model Hydrogen-rich water electrolyser waterway structure can produce hydrogen rich water, it develops a kind of negative potential drinking water technology, as new Functional module, can apply to the products such as water purifier, water dispenser, while quality of drinking water is ensured, improve drinking water to strong The facilitation of health；Specifically, hydrogen-rich water electrolyser waterway structure can produce negative potential water with electrolyzing pure water, and negative potential water is exactly Allow negative potential on hydrone band, such activated water is easier to be absorbed by the body, and plays more preferable adjustment effect, and negative potential Water can improve cytoactive, and regulation blood glucose, blood fat reduce the accumulation of poisonous and harmful substance in vivo, the work with anti-aging With.

Brief description of the drawings

In order to illustrate more clearly of the technical scheme in the utility model embodiment, it will make below to required in embodiment Accompanying drawing is briefly described, it should be apparent that, drawings in the following description are only some embodiments of the present utility model, For those of ordinary skill in the art, on the premise of not paying creative work, it can also be obtained according to these accompanying drawings Other accompanying drawings.

Fig. 1 is the hydrogen-rich water electrolyser waterway structure schematic diagram that the utility model embodiment is provided.

Embodiment

In order that the purpose of this utility model, technical scheme and advantage are more clearly understood, below in conjunction with accompanying drawing and implementation Example, the utility model is further elaborated.It should be appreciated that specific embodiment described herein is only to explain The utility model, is not used to limit the utility model.

It should be noted that when element is referred to as " being fixed on " or " being arranged at " another element, it can directly or It is connected on another element.When an element is known as " being connected to " another element, it can be direct or indirect connection To another element.

It should also be noted that, the orientation term such as left and right, upper and lower in the utility model embodiment, is only relative each other Concept or using the normal operating condition of product as reference, and should not be regarded as restrictive.

As shown in figure 1, the hydrogen-rich water electrolyser waterway structure that the utility model embodiment is provided includes the first container 1, the Two containers 2, hydrogen generator 3 and passage.Wherein, the first container 1 is used to deposit pure water；Second container 2 connects with the first container 1 Logical, its pure water deposited is provided by the first container 1, and second container 2 is additionally operable to deposit hydrogen rich water；Hydrogen generator 3 respectively with First container 1 is connected with second container 2, and obtains hydrogen rich water for producing hydrogen and being passed through in the pure water of second container 2；First Between container 1 and second container 2, between the first container 1 and hydrogen generator 3 and between second container 2 and hydrogen generator 3 Connected by passage.Specifically, hydrogen generator 3 includes the anode electrolytic tank 31 that is connected with the first container 1 and with second The cathode electrolytic cell 32 that container 2 is connected.Pure water in anode electrolytic tank 31 is provided by the first container 1, and anode electrolytic tank 31 is used Oxygen is produced in electrolyzing pure water, the oxygen that the electrolysis of anode electrolytic tank 31 is produced is discharged into after the first container 1 and discharged；Cathode electrolytic cell 32 In pure water provided by second container 2, and cathode electrolytic cell 32 be used for electrolyzing pure water produce hydrogen, cathode electrolytic cell 32 electrolysis production Hydrogen rich water is produced in the pure water of raw hydrogen discharge second container 2.It is understood that the oxygen that the electrolysis of anode electrolytic tank 31 is produced Gas can also discharge electrolytic cell without the first container 1.In addition, in the utility model embodiment, passage can be pipeline, Pipeline is rounded or square, and this is not restricted.

The operation principle of the hydrogen-rich water electrolyser waterway structure of the utility model embodiment is：The pure water of second container 2 by First container 1 is provided, and electrolytic cell is divided into cathode electrolytic cell 32 and anode electrolytic tank 31, electrolytic cell operationally, cathode electrolytic cell 32 provide pure water by second container 2, and anode electrolytic tank 31 provides pure water, cathode electrolytic cell 32 after energization by the first container 1 Electrolyzing pure water produces hydrogen, and the electrolyzing pure water of anode electrolytic tank 31 produces oxygen, the hydrogen rich water recycling that cathode electrolytic cell 32 is produced Second container 2 is returned, negative electrode hydrogen-rich water circulation is formed, it is ensured that the maximum of hydrogen molten deposits concentration.

The hydrogen-rich water electrolyser waterway structure of the utility model embodiment can produce hydrogen rich water, and it develops a kind of negative Current potential drinking water technology, as new functional module, can apply to the products such as water purifier, water dispenser, ensure drinking water While quality, facilitation of the drinking water to health is improved；Specifically, hydrogen-rich water electrolyser waterway structure can be with electrolyzing pure water Produce negative potential water, negative potential water is exactly to allow negative potential on hydrone band, such activated water is easier to be absorbed by the body, played More preferable adjustment effect, and negative potential water can improve cytoactive, and regulation blood glucose, blood fat reduce poisonous and harmful substance in body Interior accumulation, the effect with anti-aging.

Further, above-mentioned passage includes the first waterway channel 41, the use for being used to connect the first container 1 and second container 2 In the second waterway channel 42 and the first gas channels 43 that connect the first container 1 and anode electrolytic tank 31, and for connecting the The 3rd waterway channel 44 and the second gas channels 45 of two containers 2 and cathode electrolytic cell 32.Wherein, the first waterway channel 41 is used for Enter for the pure water of the first container 1 in second container 2, the pure water that the second waterway channel 42 is used to supply in the first container 1 enters sun In pole electrolytic cell 31, the 3rd waterway channel 44 is used to enter in cathode electrolytic cell 32 for the pure water in second container 2, the first gas circuit Passage 43 is used to be expelled in the first container 1 for the oxygen that anode electrolytic tank 31 is electrolysed generation, and the second gas channels 45 are used to supply The hydrogen that the electrolysis of cathode electrolytic cell 32 is produced, which is drained into second container 2, forms hydrogen rich water.The water route of cathode electrolytic cell 32 and anode The water route of electrolytic cell 31 is separated, it is ensured that the solubility of hydrogen, is not disturbed by oxygen.

Preferably, it is provided with the 3rd waterway channel 44 for extracting the pure water in second container 2 and being passed through negative electrode electricity Solve the water pump 46 of groove 32.Cathode electrolytic cell 32 extracts pure water from second container 2 by water pump 46 and is passed through cathode electrolytic cell when working 32, to prepare hydrogen rich water.

It is further preferred that the port that the second gas channels 45 are connected with cathode electrolytic cell 32 is higher than the 3rd waterway channel 44 The port being connected with cathode electrolytic cell 32, and one end insertion second container 2 of second gas channels 44 away from cathode electrolytic cell 32 Liquid in, and then allow cathode electrolytic cell 32 electrolysis produce hydrogen be passed through in the pure water of second container 2 to prepare richness Hydrogen water.

It is further preferred that the port that the first gas channels 43 are connected with anode electrolytic tank 31 is higher than the second waterway channel 42 The port being connected with anode electrolytic tank 31, and first one end of gas channels 43 away from anode electrolytic tank 31 is located at the first container 1 Ullage, and then cause anode electrolytic tank 31 electrolysis produce oxygen can be with smooth discharge.

It is further preferred that one end of the first waterway channel 41 and the second waterway channel 42 is both connected to the first container 1 Bottom, so that the pure water in the first container 1 can be with smooth entrance second container 2 and anode electrolytic tank 31.

It is further preferred that the first container 1 is located at the top of anode electrolytic tank 31 so that the pure water in the first container 1 can To flow into anode electrolytic tank 31 by Natural Water pressure.

It is further preferred that the first container 1 is located at the top of second container 2 so that the pure water in the first container 1 can be leaned on Natural Water pressure is flowed into second container 2.

It is further preferred that sewage draining exit 21 is provided with the bottom of second container 2, and the sewage draining exit 21 is located at second container 2 central area, and blowoff valve is provided with sewage draining exit 21, in order to clean second container 2.

It is further preferred that discharge outlet 22 is provided with the bottom of second container 2, and the discharge outlet 22 is located at second container 2 side, in order to discharge the hydrogen rich water in second container 2.

The hydrogen-rich water electrolyser water-flow chart of the utility model embodiment is as direction of the arrows shown in fig：Pure water is by the first container 1 Flow into second container 2, water pump 46 is connected between second container 2 and cathode electrolytic cell 32, after water level is normal, hydrogen occurs Device 3, which is powered, starts working, while water pump 46 also opens operating, the pure water of second container 2 flows into negative electrode electricity by the circulation of water pump 46 It is electrolysed, is flowed into by the 3rd waterway channel 44 in solution groove 32, and is flowed out by the second gas channels 45, and other end anode electrolysis The oxygen that the electrolysis of groove 31 is produced is discharged by the first gas channels 43 into the first container 1, after electrolysis is followed in second container 2 Water is required hydrogen rich water.

In summary, in the utility model embodiment, the first container 1 and second container 2 are separated, in second container 2 Hydrogen rich water is not influenceed by the reclaimed water of the first container 1；Cathode electrolytic cell 32 is separated with anode electrolytic tank 31, and cathode electrolytic cell 32 uses water Pump 46 is circulated, and forces hydrogen to be at utmost dissolved in second container 2, the work water of anode electrolytic tank 31 is provided by the first container 1, Negative electrode hydrogen rich water is worked with pump circulation, it is ensured that do not interfere with each other, and appearance deposits hydrogen concentration maximization；Negative electrode waterway channel leads to anode water route Road is separated, it is ensured that the solubility of hydrogen, is not disturbed by oxygen, the water of cathode electrolytic cell 31 and anode electrolytic tank 31 divides each other Open, it is to avoid the concentration value of influence hydrogen rich water；Anode electrolytic tank 31 flows moisturizing using natural pressure, and oxygen is emptied, kept away naturally The discharge for exempting from the water shortage of anode electrolytic tank 31 and oxygen is not smooth, and hydrogen generator 3 will be less than the first container 1 when installing, it is ensured that by certainly Right pressure is that anode electrolytic tank 31 supplements work water, it is to avoid the water shortage of anode electrolytic tank 31 causes work efficiency drop, anode electricity The oxygen that solution groove 31 is produced is discharged in air naturally, and the outlet of discharge oxygen is higher than the water level of the first container 1, it is to avoid oxygen is arranged Put not smooth.

Preferred embodiment of the present utility model is the foregoing is only, it is all at this not to limit the utility model Any modification, equivalent substitution or improvement made within the spirit and principle of utility model etc., should be included in the utility model Protection domain within.

Claims (10)

1. a kind of hydrogen-rich water electrolyser waterway structure, it is characterised in that including the first container for depositing pure water, with described the The second container of one reservoir, the hydrogen generator connected respectively with first container and second container, and use respectively In the passage for connecting first container, second container and hydrogen generator, the hydrogen generator includes holding with described first The anode electrolytic tank of device connection and the cathode electrolytic cell connected with the second container.

2. hydrogen-rich water electrolyser waterway structure as claimed in claim 1, it is characterised in that the passage includes being used to connect institute State the first container and the first waterway channel of second container, the second water route for connecting first container and anode electrolytic tank Passage and the first gas channels, and for connecting the 3rd waterway channel and of the second container and the cathode electrolytic cell Two gas channels.

3. hydrogen-rich water electrolyser waterway structure as claimed in claim 2, it is characterised in that set on the 3rd waterway channel Have for extracting the pure water in the second container and being passed through the water pump of the cathode electrolytic cell.

4. hydrogen-rich water electrolyser waterway structure as claimed in claim 2, it is characterised in that second gas channels with it is described The port of cathode electrolytic cell connection is higher than the port that the 3rd waterway channel is connected with the cathode electrolytic cell, and described second The one end of gas channels away from the cathode electrolytic cell is inserted in the liquid of the second container.

5. hydrogen-rich water electrolyser waterway structure as claimed in claim 2, it is characterised in that first gas channels with it is described The port of anode electrolytic tank connection is higher than the port that second waterway channel is connected with the anode electrolytic tank, and described first The one end of gas channels away from the anode electrolytic tank is located at the ullage of first container.

6. hydrogen-rich water electrolyser waterway structure as claimed in claim 2, it is characterised in that first waterway channel and second One end of waterway channel is both connected to the bottom of first container.

7. the hydrogen-rich water electrolyser waterway structure as described in any one of claim 1 to 6, it is characterised in that first container Positioned at the top of the anode electrolytic tank.

8. the hydrogen-rich water electrolyser waterway structure as described in any one of claim 1 to 6, it is characterised in that first container Positioned at the top of the second container.

9. the hydrogen-rich water electrolyser waterway structure as described in any one of claim 1 to 6, it is characterised in that the second container Bottom be provided with sewage draining exit, the sewage draining exit and be provided with blowoff valve.

10. the hydrogen-rich water electrolyser waterway structure as described in any one of claim 1 to 6, it is characterised in that the second container Bottom be provided with discharge outlet for discharging hydrogen rich water.