CN208471623U - A kind of flow-type nano bubble hydrogen-rich water generating device - Google Patents

Abstract

The utility model relates to a kind of flow-type nano bubble hydrogen-rich water generating devices, have the electrolysis cells being made of two electrode assemblies inside its device noumenon, positive electrode oxidation water therein forms oxygen, cathode component reductive water therein forms hydrogen, the cathode component is nested in inside positive electrode, and the flow-type electrolysis water reaction channel of an annular is formed between the positive electrode inner wall and the cathode component outside wall surface.The utility model, which can be realized, generates the electrolysis water that flow-type is rich in Nano grade bubble, is directly immediately used by the body, bubble diameter can be between 10nm-100 μm, and electrolytic speed is fast, are electrolysed immediately to flowing water, it is ensured that continued electrolysis work is available for users to convenient to use；It is convenient that electrode assembly is fixedly mounted, and can also effectively ensure that two electrodes are not short-circuited.

Description

A kind of flow-type nano bubble hydrogen-rich water generating device

Technical field

The utility model relates to electrolysis water technical fields more particularly to a kind of flow-type nano bubble hydrogen-rich water to fill It sets.

Background technique

Water is known as electrolysis water by the process of the electrolytically generated hydrogen of direct current and oxygen, is also often known as air-bubble, is conducive to Human health.

Existing electrolytic water device is in addition to using electrode assembly to occupy biggish space, use also using complicated structure Be unfavorable for the composition material of human health, higher electrolytic efficiency realized with this, these products respectively for producers, Assembly crewman and when user, can lead to the problem of in many structures installations and service performance, the technical problem is by phase Several aspects of mutual correlation are constituted: firstly, electrode assembly can not solve the problems, such as electrolytic efficiency because of the function restriction of its own, Secondly, the fitness between electrode assembly is inadequate, sustainedly and stably flowing water can not be electrolysed, in addition, existing electricity Solution device is easier that metal is made to enter in water and influence human health.

Those skilled in the art carry out analysis to the well-known technique defect of existing electrolytic water device and find, due to traditional electricity The mode that solution water generator generates electrolysis water, which generally uses to introduce the water into a fixed region, carries out unified cell reaction, With the progress of cell reaction, electrolytically generated bubble can become larger in being electrolysed the uphill process of region from the bottom to top, because And air-bubble generated contains the bubble of more micron levels actually, the quality and effect of electrolysis water be not significant.

In conclusion the utility model is exactly on the basis of existing well-known technique, in conjunction with the verifying of practical application, to same Product structure in one technical field proposes that the technical solution further researched and developed with designed, the technical solution proposed are entirely capable of solving Problem certainly of the existing technology, while being also beneficial to the solution of numerous technical problems of same technical field and developing skill The expansibility of scheme.

Utility model content

For disadvantages described above, the utility model provides a kind of flow-type nano bubble hydrogen-rich water generating device, produces stream The electrolysis water rich in Nano grade bubble of dynamic formula, directly drink and be conducive to human health, be conducive to improve electrolysis rate, can Flowing water is electrolysed immediately effectively, ensures that device continually and steadily works, while solving many deficiencies of the prior art.

To achieve the above object, the utility model uses following technical scheme:

A kind of flow-type nano bubble hydrogen-rich water generating device, the same side of device noumenon along its length are respectively set Water inlet, water outlet, described device body interior have the electrolysis cells being made of two electrode assemblies, positive electrode therein It aoxidizing water and forms oxygen, cathode component reductive water therein forms hydrogen, and the cathode component is nested in inside positive electrode, and And the flow-type electrolysis water that an annular is formed between the positive electrode inner wall and the cathode component outside wall surface reacts logical Road.

Further include following any one for the additional structure of above technical scheme:

Cathode component both ends have several parting beads, and the parting bead makes to be formed between two mutually nested electrode assemblies Several diffluence pass, and water is made equably to pass in and out the flow-type electrolysis water reaction channel；

Correspondingly, the electrode assembly preferably uses tubular structure.

Further include following any one for the additional structure of above technical scheme:

The flow-type electrolysis water reaction channel include the positive electrode inner wall and the cathode component outside wall surface it Between long and narrow annular gap；

Further, the inner wall of two ends of positive electrode opens up several fixing grooves, and makes each parting bead card Enter inside corresponding fixing groove, makes between two electrode assemblies that holding position is constant radially.

It is also implementable in conjunction with the technical solution of the utility model are as follows:

There is spacing between the parting bead outer surface and positive electrode and positive electrode is made to form non-connect with cathode component Touch structure；The spacing and each electrolysis water flow through channel and constitute an annular connection guide channel, to promote electrolysis Water flow.

It is also implementable in conjunction with the technical solution of the utility model are as follows:

The outer surface of the parting bead equal shape between linear and the parting bead and positive electrode inner wall of each linear At an electrolysis guide groove；

Correspondingly, the parting bead of the linear and the cathode component are structure as a whole and by the electrolysis guide grooves Water power is from generation hydrogen-rich water.

There is spacing between the parting bead outer surface and positive electrode and positive electrode is made to form non-connect with cathode component Touch structure；

Correspondingly, the spacing and each electrolysis water flow through channel and constitute an annular connection guide channel, to mention Rise the water flow of electrolysis.

Flow-type nano bubble hydrogen-rich water generating device described in the utility model has the beneficial effect that

(1) by forming flow-type electrolysis after the combination nested with internal negative electrode of the exterior positive electrode pole that shape matches Water reaction channel, when water be electrolysed inside electrolysis cells completion after, electrolysis water inside flow-type electrolysis water reaction channel with With lateral flow, the bubble contained can not be become larger, then be directly pulled away by diffluence pass and leave electrolysis pipeline, be generated The mobile electrolysis water rich in Nano grade bubble, be directly immediately used by the body, bubble diameter can be between 10nm-100 μm；

(2) water can be made to be easier to be electrolysed when flowing through in electrode pipeline, electrolytic speed is fast, especially for flowing Water be electrolysed immediately, it is ensured that continued electrolysis work, be available for users to convenient to use；

(3) on the basis of improving electrolytic efficiency, using parting bead structure, electrode between two hollow edged electrodes not only be can ensure that Distance is fixedly mounted electrode assembly convenient, can also effectively ensure that two electrodes are not short-circuited；

(4) the position of electrode connecting end can not only connect power supply, moreover it is possible to play to the relative position of two electrode assemblies Certain fixed function.

Flow-type nano bubble hydrogen-rich water generating device described in the utility model, can implement according to different application demand The expansion of different schemes can be applied not only to the use crowd of daily life, medical treatment, health care, may also be combined with generated electrolysis The characteristics of water, in aquaculture field, such as large-scale fish pond, to the yield and quality and the quality of cultivation water environment etc. for improving aquatic products All there is obvious action；In addition, also helping the growth for promoting crops in Field of Planting, crop yield and product are improved Matter is conducive to the depth and broadness for further increasing crops research.

Detailed description of the invention

The utility model is described in further detail below according to attached drawing.

Fig. 1 is the schematic internal view of flow-type nano bubble hydrogen-rich water generating device described in the utility model embodiment；

Fig. 2 is the diagrammatic cross-section of flow-type nano bubble hydrogen-rich water generating device described in the utility model embodiment；

Fig. 3 is the internal electrode signal of flow-type nano bubble hydrogen-rich water generating device described in the utility model embodiment Figure；

Fig. 4 be flow-type nano bubble hydrogen-rich water generating device described in the utility model embodiment one positive and negative electrode it Between connection cooperation schematic diagram；

Fig. 5 be flow-type nano bubble hydrogen-rich water generating device described in the utility model embodiment two positive and negative electrode it Between connection cooperation schematic diagram；

Fig. 6 be flow-type nano bubble hydrogen-rich water generating device described in the utility model embodiment three positive and negative electrode it Between connection cooperation schematic diagram；

Fig. 7 be flow-type nano bubble hydrogen-rich water generating device described in the utility model embodiment four positive and negative electrode it Between connection cooperation schematic diagram.

In figure:

1, device noumenon；2, positive electrode；3, cathode component；4, parting bead；5, sealing-plug；6, water inlet；7, water outlet；8, Electrode connecting end；9, electrolysis water flows through channel；10, diversion trench；

41, parting bead I；42, parting bead II；

91, it is electrolysed guide groove；92, guide channel.

Specific embodiment

Embodiment one

As shown in Figs 1-4, flow-type nano bubble hydrogen-rich water generating device described in the utility model embodiment one, institute are real The technological means applied purpose to be achieved is, since traditional electrolyte water installations generally use complicated structure, biggish land occupation Space, the composition material for being unfavorable for human health, for the production process and application process of device, especially respectively for production Personnel, assembly crewman and user can lead to the problem of in the assembling of many structures and service performance, the technical problem by Several aspects that are mutually related are constituted, and the successive problem is for example, traditional electrolysis water those skilled in the relevant arts often go out The biggish equipment of volume is used in the electrolytic efficiency the considerations of, leads to not continued electrolysis due to using volume biggish equipment, It is easy that metal is made to enter in water and influence human health during electrolysis water, it is even more important that due to traditional electrolysis water The mode that generator generates electrolysis water, which generally uses to introduce the water into a fixed region, carries out unified cell reaction, with The progress of cell reaction, electrolytically generated bubble can become larger in being electrolysed the uphill process of region from the bottom to top, be generated Air-bubble contain the bubble of more micron levels actually, keep the quality of electrolysis water and effect not significant.Therefore, this is practical Novel implemented technical solution includes a device noumenon 1 first.

1 structure of device noumenon of arrangement above is analyzed:

Chamber is electrolysed inside the device noumenon 1 implemented has the electrolysis cells being made of bipolar electrode component, to make Electrolytic water device has the prerequisite for improving electrolysis water efficiency, and the device noumenon 1 implemented is along the same of its own length direction The two sides at one edge open up a hole location respectively, that is, set gradually as water inlet 6, water outlet 7, so that electrolysis chamber interior is formed Water flows into the channel realized and flowed out again after electrolysis；

It correspondingly, is positive electrode 2 outside the electrolysis cells implemented, which is hollow cylindrical structure And it is internally embedded the cathode component 3 that a both ends are sealed by sealing-plug 5, makes the outside wall surface and positive electrode 2 of cathode component 3 Inner wall it is adjacent, 2 end of positive electrode towards 6 side of water inlet forms diversion trench 10, and water passes through after diversion trench 10, leads to It crosses cathode component 3 and obtains electronics and be reduced to form hydrogen, electronics is lost by positive electrode 2 and is oxidized to form oxygen；

Accordingly for installation direction, positive electrode 2 and cathode component 3 are pacified each along 1 length direction of device noumenon is fixed Dress, each component are respectively provided with corresponding electrode connecting end 8, in position, are preferably implemented as two respective electrodes of electrode assembly Connecting pin 8 is respectively at the two sides of electrolysis cells and extend out to outside device noumenon 1 along the corresponding fixed hole position of device noumenon 1 Portion, each electrode connecting end 8 are provided perpendicular to device noumenon 1 and for position of the counter electrode component inside device noumenon 1 Fixed supporting role, so that both positive electrode 2 and cathode component 3 position be made to immobilize.

The electrolysis cells of arrangement above are further analyzed:

For the electrolytic efficiency for improving flowing water, the outside wall surface at 3 both ends of cathode component implemented adds size respectively Identical several parting beads 4, each parting bead 4 is to outside cathode component 3 between prominent certain height and two adjacent parting beads 4 Certain recess is formed, after cathode component 3 is nested in 2 inside of positive electrode, by implementing parting bead 4, is made outside cathode component 3 Several flow-type electrolysis water reaction channels 9 are formed between 2 inner wall of wall surface and positive electrode, meanwhile, the reaction of flow-type electrolysis water The both ends in channel 9 form several diffluence pass.

The flow-type nano bubble hydrogen-rich water generating device that the utility model is implemented, since electrolysis cells both ends are provided with The barrier structure being made of parting bead 4 can make positive electrode 2 and cathode component 3 form non-contact type position therebetween first It is fixed, guarantee the distance of electrode between two electrode assemblies, it is convenient that electrode assembly is fixedly mounted, and stable structure can ensure two completely Electrode is not short-circuited, and after water, which flows into electrolysis chamber by water inlet 6, enters electrolysis cells by diversion trench 10, electrolysis cells enter Moisture is flow to each flow-type electrolysis water reaction channel 9 by the barrier structure at mouthful, flows into the water into electrolysis cells uniformly And be unlikely to moment and fill, also ensure that the water after electrolysis is uniformly flowed out without gushing out as moment, by such electrolysis Process greatly improves electrolytic efficiency for flowing water, determines the lasting progress of electrolysis work.

It introduces the water into since the mode that traditional electrolytic water generator generates electrolysis water generally uses to a fixed area Domain carries out unified cell reaction, and with the progress of cell reaction, electrolytically generated bubble is in from the bottom to top upper of electrolysis region It can be become larger during rising, thus, air-bubble generated contains the bubble of more micron levels actually, makes electrolysis water Quality and effect be not significant；Flow-type electrolysis water reaction channel 9 is formed by implementing corresponding construction, when water is in electrolysis cells After inside electrolysis is completed, electrolysis water is followed by lateral flow inside flow-type electrolysis water reaction channel 9, the bubble contained It can not become larger, then will have bladdery electrolysis water by the barrier structure in electrolysis cells exit and shunt extraction, by multiple Experimental data proves and combination practical application can obtain, the mobile electrolysis water rich in Nano grade bubble generated, According to different designs demand, generated bubble diameter can be between 10nm-100 μm.

Embodiment two

As shown in figure 5, flow-type nano bubble hydrogen-rich water generating device described in the utility model embodiment two, is in reality The deformation carried out on the basis of the technical solution that example one is implemented is applied, the technical solution implemented with embodiment one belongs to together The technical issues of one design, solution is the suitability further strengthened between positive electrode 2 and cathode component 3, due to water Enter after electrolysis cells from water inlet 6 and need to flow through each flow-type electrolysis water reaction channel 9, corresponding using parting bead 4 equal On the basis of structure, can also it carry out arranged below:

The inner wall that the positive electrode 2 implemented is in two ends opens up several fixing grooves 10, meanwhile, it further increases The height for the parting bead 4 that embodiment one is implemented makes each parting bead 4 form parting bead I 41, to keep I 41 fixed snap of parting bead corresponding Fixing groove 10 inside, so that cathode component 3 is carried out position by several parting beads I 41 and positive electrode 2 and fix, when water flows through When, make to still maintain effective fitness between two electrode assemblies and to ensure that position is stablized constant；

It can be seen that the parting bead I 41 that the utility model embodiment two is implemented can be in positive electrode 2 and cathode component 3 Between form one and ensure that electrolysis unit positional relationship and the water flow of electrolysis are stablized constant flow-type electrolysis water and react and lead to Road 9.

Other corresponding technological means that the utility model embodiment two is implemented can refer to embodiment one or on its basis On improve, details are not described herein again.

Embodiment three

As shown in fig. 6, flow-type nano bubble hydrogen-rich water generating device described in the utility model embodiment three, is in reality The deformation carried out on the basis of the technical solution that example one is implemented is applied, the technical solution implemented with embodiment one belongs to together The technical issues of one design, solution is to further increase electrolytic efficiency, since water enters after electrolysis cells from water inlet 6 It needs to flow through each flow-type electrolysis water reaction channel 9, on the basis of using corresponding constructions such as parting beads 4, can also carry out following Setting:

The external surface shape for further changing the parting bead 4 that embodiment one is implemented, is changed to linear by arc, to be formed Parting bead II 42, due to being respectively formed an electrolysis guide groove 91 between 2 inner wall of each parting bead II 42 and positive electrode, to be suitable for Difference production and use demand；

It can be seen that the parting bead II 42 that the utility model embodiment three is implemented can be in positive electrode 2 and cathode component 3 Between form one and ensure that electrolysis unit positional relationship is stable and increases the flow-type electrolysis water reaction channel of the water flow of electrolysis 9。

Other corresponding technological means that the utility model embodiment three is implemented, can refer to embodiment one, embodiment two Or improved on the basis of these embodiments, details are not described herein again.

Example IV

As shown in fig. 7, flow-type nano bubble hydrogen-rich water generating device described in the utility model embodiment four, is in reality The deformation carried out on the basis of the technical solution that example one is implemented is applied, the technical solution implemented with embodiment one belongs to together The technical issues of one design, solution is to further expand channel capacity between positive electrode 2 and cathode component 3, due to water Enter after electrolysis cells from water inlet 6 and need to flow through each flow-type electrolysis water reaction channel 9, corresponding using parting bead 4 equal On the basis of structure, can also it carry out arranged below:

There is certain spacing between 4 outer surface of parting bead implemented and positive electrode 2 and make positive electrode 2 and cathode Component 3 forms contactless structure, and generated spacing and each flow-type electrolysis water reaction channel 9 constitute an annular company Logical guide channel 92, thus, flow of the water by electrolysis cells can be increased according to different use demands, when two electrodes When the position of component determines constant, it is fixed in device noumenon 1 by respective electrode connecting end 8；

It can be seen that the parting bead 4 implemented of the utility model embodiment four can positive electrode 2 and cathode component 3 it Between formed one ensure electrolysis unit positional relationship and promote the guide channel 92 of the water flow of electrolysis.

Other corresponding technological means that the utility model embodiment four is implemented, can refer to embodiment one, embodiment two, Embodiment three improves on the basis of these embodiments, and details are not described herein again.

In the description of this specification, if there is the descriptions such as term " embodiment one ", " the present embodiment ", " specific implementation " meaning Refer to that particular features, structures, materials, or characteristics described in conjunction with this embodiment or example are contained in the utility model or utility model At least one embodiment or example in.In the present specification, schematic expression of the above terms are not necessarily referring to identical Embodiment or example；Moreover, described particular features, structures, materials, or characteristics can be in any one or more implementations It is combined in a proper manner in example or example.

In the description of this specification, term " connection ", " installation ", " fixation ", " setting ", " having " etc. do broad sense reason Solution, for example, " connection " may be a fixed connection or pass through intermediate module on the basis of not influencing component relationship and technical effect Indirectly carry out, be also possible to integrally connected or part connect, such as herewith example situation for those of ordinary skills, Concrete meaning of the above-mentioned term in the utility model or utility model can be understood as the case may be.

The above-mentioned description to embodiment is for the ease of those skilled in the art it will be appreciated that and using this Case technology, person skilled in the art obviously can make various modifications to these examples easily, and described herein one As principle be applied in other embodiments without having to go through creative labor.Therefore, this case is not limited to above embodiments, for The modification of several situations below, all should be in the protection scope of this case: 1. based on technical solutions of the utility model and to tie The new technical solution that existing common knowledge is implemented is closed, technical effect caused by the new technical solution is not departing from this Except utility model technical effect, for example, the technical solution for the flow-type electrolysis water reaction channel implemented is applied to other It is electrolysed in wetting system；2. generated using well-known technique to the equivalence replacement of the Partial Feature of technical solutions of the utility model Technical effect is identical as the utility model technical effect, for example, the shape or size for electrolysis unit carry out equivalence replacement；③ It carries out to expand based on technical solutions of the utility model, the substantive content of the technical solution after expansion is practical without departing from this Except new technique scheme；4. equivalent transformation made based on the specification and figures of the utility model is directly or indirectly transported Used in other related technical areas.

Claims (10)

1. a kind of flow-type nano bubble hydrogen-rich water generating device, the same side of device noumenon along its length be respectively set into The mouth of a river, water outlet, described device body interior have the electrolysis cells being made of two electrode assemblies, positive electrode oxygen therein Change water and form oxygen, cathode component reductive water therein forms hydrogen, it is characterised in that:

The cathode component is nested in inside positive electrode, and in the positive electrode inner wall and the cathode component outer wall The flow-type electrolysis water reaction channel of an annular is formed between face.

2. flow-type nano bubble hydrogen-rich water generating device according to claim 1, it is characterised in that: the cathode component Both ends have several parting beads, and the parting bead makes to form several diffluence pass between two mutually nested electrode assemblies, and makes water Equably pass in and out the flow-type electrolysis water reaction channel.

3. flow-type nano bubble hydrogen-rich water generating device according to claim 2, it is characterised in that: the electrode assembly It is preferred that using tubular structure.

4. flow-type nano bubble hydrogen-rich water generating device according to claim 1-3, it is characterised in that: described Flow-type electrolysis water reaction channel includes annular long and narrow between the positive electrode inner wall and the cathode component outside wall surface Gap.

5. flow-type nano bubble hydrogen-rich water generating device according to claim 4, it is characterised in that: the positive electrode The inner wall of two ends opens up several fixing grooves, and is caught in each parting bead inside corresponding fixing groove, makes two electrodes Holding position is constant radially between component.

6. flow-type nano bubble hydrogen-rich water generating device according to claim 2, it is characterised in that: outside the parting bead Surface is respectively formed an electrolysis guide groove between linear and the parting bead and positive electrode inner wall of each linear.

7. flow-type nano bubble hydrogen-rich water generating device according to claim 6, it is characterised in that: the linear Parting bead and the cathode component are structure as a whole and by the water power of the electrolysis guide groove from generation hydrogen-rich water.

8. flow-type nano bubble hydrogen-rich water generating device according to claim 2, it is characterised in that: the parting bead appearance There is spacing between face and positive electrode and positive electrode and cathode component is made to form contactless structure.

9. flow-type nano bubble hydrogen-rich water generating device according to claim 8, it is characterised in that: the spacing and each A electrolysis water flows through channel and constitutes an annular connection guide channel, to promote the water flow of electrolysis.

10. flow-type nano bubble hydrogen-rich water generating device according to claim 1, it is characterised in that: the anode group Part, cathode component respectively have electrode connecting end, and the electrode connecting end extend out to outside along the fixed hole position of device noumenon, Each electrode connecting end is fixed on described device ontology and makes the positive electrode and the cathode module position fixed not Become.