CN206666294U - Water treatment facilities - Google Patents

Abstract

The utility model discloses a kind of water treatment facilities, including housing, and the housing is provided with cavity and the communicating passage connected with the cavity；Cation-exchange membrane, the cation-exchange membrane are contained in the cavity, and the cavity is separated into the first cavity and the second cavity by the cation-exchange membrane, and first cavity and second cavity connect with the communicating passage；Electrolysis unit, the electrolysis unit include the anode electrode in first cavity and the cathode electrode in second cavity；Negative oxygen ion generator, the negative oxygen ion generator include the negative oxygen ion release head being contained in the housing, and the negative oxygen ion release head is connected by the communicating passage with the cavity.The technical solution of the utility model is dexterously combined by using electrolysis unit with negative oxygen ion generator, generates the negative potential water for the subset group for being relatively beneficial to health.

Description

Water treatment facilities

Technical field

Water-treatment technology field is the utility model is related to, more particularly to a kind of water treatment facilities.

Background technology

Current most water treatment facilities is not easy to realize the water for being beneficial to health that generation is easily absorbed by the body.

Utility model content

Main purpose of the present utility model is to provide a kind of water treatment facilities, it is intended to so that the device easily generates one kind and more held What is be easily absorbed by the body is beneficial to the negative potential alkalescent water of the subset group of health.

To achieve the above object, water treatment facilities provided by the utility model, including

Housing, the housing are provided with cavity and the communicating passage connected with the cavity；

Cation-exchange membrane, the cation-exchange membrane are contained in the cavity, and the cation-exchange membrane is by the chamber Body is separated into the first cavity and the second cavity, and first cavity and second cavity connect with the communicating passage；

Electrolysis unit, the electrolysis unit include the anode electrode being located in first cavity and located at described second Cathode electrode in cavity；

Negative oxygen ion generator, the negative oxygen ion generator include the negative oxygen ion release being contained in the housing Head, the negative oxygen ion release head are connected by the communicating passage with the cavity.

Preferably, one end of first cavity is provided with anode water inlet, and the other end of first cavity is provided with anode Delivery port connects with the communicating passage；One end of second cavity is provided with negative electrode delivery port, second cavity it is another End connects provided with negative electrode water inlet with the communicating passage.

Preferably, the anode electrode and the cathode electrode are flat mesh electrode, the anode electrode and institute State cathode electrode and clamp the cation-exchange membrane.

Preferably, first cavity and/or second cavity are equipped with baffle plate, the baffle plate and first cavity Cavity wall and/or second cavity cavity wall in angle set.

Preferably, the negative electrode water inlet is arranged to column grated inlet, and the negative electrode delivery port is arranged to tubulose water outlet Mouthful.

Preferably, the anode delivery port is tubulose delivery port, and the tubulose water outlet is provided with check valve.

Preferably, the housing includes the first housing and the second housing detachably installed, and first cavity is located at institute State in first shell body, second cavity is located in the second shell body.

Preferably, latex mattress is provided between first housing and second housing.

The technical solution of the utility model is dexterously combined by using electrolysis unit with negative oxygen ion generator, is generated It is relatively beneficial to the negative potential alkalescent water of the subset group of health, negative electricity on hydrone band, becomes ionic condition Ionized water, because ion is active more than molecule, being activated equivalent to water, such activated water is easier to be absorbed by the body, and And the negative potential of water also has more affinity with the alkalescent of human body fluid, it can more be absorbed by the body, the water in human body is more, various Internal chemical reaction also will be carried out preferably, play more preferable adjustment effect.Activated water is in human body except participating in aoxidizing Metabolism, will also carry out various chemical reactions, and negative potential water can improve cytoactive, regulation blood glucose, blood fat, remove free radical, subtract The few accumulation of poisonous and harmful substance in vivo, has the function that anti-aging.And because the solubility of water is limited, electrolysis produces big The oxygen and hydrogen of amount, these hydrogen, oxygen are all present in water in the form of micro air bubble, constantly float, become larger, Finally burst in the water surface, form the effect of nanobubble water, along with the effect of negative potential, small molecule is all presented in hydrone Group.The running water of the subset group formed is decomposed, permeability is strong, and dissolubility is good.And also include negative oxygen ion in housing and react Area so that electrolytically generated oxygen forms compressed gas area in the negative oxygen ion reaction zone of housing, and the purity oxygen of the compression is existing Negative oxygen ion is substantially more ionized out beneficial to the negative oxygen ion release head for making anion generator, can prevent water logging to negative again Oxonium ion release head；And due to the presence of pressure, the oxygen-containing tolerance of water can also be improved；And cause the nano bubble in water in water The middle duration more lengthens.

Brief description of the drawings

, below will be to embodiment in order to illustrate more clearly of the utility model embodiment or technical scheme of the prior art Or the required accompanying drawing used is briefly described in description of the prior art, it should be apparent that, drawings in the following description are only It is some embodiments of the utility model, for those of ordinary skill in the art, is not paying the premise of creative work Under, other accompanying drawings can also be obtained according to the structure shown in these accompanying drawings.

Fig. 1 is the structural representation of the embodiment of the utility model water treatment facilities one；

Fig. 2 is the structural representation of an embodiment of the first housing in the utility model water treatment facilities；

Fig. 3 is the structural representation of another embodiment of the first housing in the utility model water treatment facilities；

Fig. 4 is the structural representation at the visual angle of the second housing one in the utility model water treatment facilities；

Fig. 5 is the structural representation at another visual angle of the second housing in the utility model water treatment facilities；

Fig. 6 is the structural representation of latex mattress in an embodiment；

Fig. 7 is the principle schematic diagram of the embodiment of the utility model water treatment facilities one.

Drawing reference numeral explanation：

Label	Title	Label	Title
				100	Water treatment facilities	50	Negative oxygen ion generator
10	Housing	51	Negative oxygen ion release head
				11	First housing	21	Anode water inlet
12	Second housing	22	Anode delivery port
				13	Cavity	41	Negative electrode water inlet
131	First cavity	42	Negative electrode delivery port
				132	Second cavity	60	Baffle plate
20	Anode electrode	70	Check valve
				30	Cation-exchange membrane	80	Latex mattress
40	Cathode electrode	90	Reinforcement
				133	Negative oxygen ion reaction zone

Realization, functional characteristics and the advantage of the utility model purpose will be described further referring to the drawings in conjunction with the embodiments.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the embodiment of the utility model is carried out Clearly and completely describing, it is clear that described embodiment is only part of the embodiment of the present utility model, rather than all Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not making creative work premise Lower obtained every other embodiment, belong to the scope of the utility model protection.

It is to be appreciated that the directional instruction (such as up, down, left, right, before and after ...) of institute in the utility model embodiment It is only used for explaining relative position relation under a certain particular pose (as shown in drawings) between each part, motion conditions etc., such as When the fruit particular pose changes, then directionality instruction also correspondingly changes therewith.

In addition, the description for being related to " first ", " second " etc. in the utility model is only used for describing purpose, without being understood that To indicate or implying its relative importance or the implicit quantity for indicating indicated technical characteristic.Thus, define " first ", At least one this feature can be expressed or be implicitly included to the feature of " second ".In addition, the technical side between each embodiment Case can be combined with each other, but must can be implemented as basis with those of ordinary skill in the art, when the combination of technical scheme Occur conflicting or will be understood that the combination of this technical scheme is not present when can not realize, also not in the requires of the utility model Protection domain within.

Referring to figs. 1 to 7, technical solutions of the utility model propose a kind of water treatment facilities 100, including：

Housing 10, the lower end in the housing 10 are provided with cavity 13, and the cavity 13 is externally formed with communicating passage；

The cavity 13 is separated into the first cavity 131 and second by cation-exchange membrane 30, the cation-exchange membrane 30 Cavity 132；

Anode electrode 20 is provided with first cavity 131, cathode electrode 40 is provided with second cavity 132；

Ft connection of the bottom of first cavity 131 provided with anode water inlet 21 with the housing 10, described first The top of cavity 131 is provided with the ft connection of anode delivery port 22 and the cavity 13；The top of second cavity 132 is provided with The ft connection of negative electrode delivery port 42 and the housing 10, the bottom of second cavity 132 is provided with negative electrode water inlet 41 and institute State the ft connection of cavity 13；

Negative oxygen ion generator 50, the negative oxygen ion generator 50 include negative oxygen ion release head 51, the negative oxygen from Sub- release head 51 is installed on the upper end of the housing 10.

The principle of the present embodiment sewerage disposing device 100 is：

1st, running water contains various mineral matters, is weak electrolyte, can ionize out micro H⁺(hydrogen ion) and OH^-(hydroxyl Ion).

①H₂O=H⁺+OH^-②H⁺+OH^-=H₂O

2nd, running water is entered in the first cavity 131 (because the first cavity 131 is provided with anode electrode 20, therefore the first cavity 131 equivalent to anode reaction room), in the presence of direct current positive potential, oxygen is generated, simultaneously because OH^-(hydroxide ion) Reduction, and the pH value of water is diminished, show faintly acid.

Anode reaction：(4OH^-)-(4e^-)=2H₂O+O₂↑, release oxygen.

3rd, the negative oxygen ion reaction zone that oxygen is risen in housing forms compressed gas, and oxygen is in negative oxygen ion generator 50 Negative potential effect under, generation(negative oxygen ion).

Ionization reaction：

4th, compressed gas area(negative oxygen ion) reacts with water, generation OH- (hydroxide ion).Negative oxygen ion is anti-with water Should：

5、(negative oxygen ion) and the OH of water reaction generation^-(hydroxide ion), supplemented with anode reaction area (the first cavity 131) OH of consumption^-(hydroxide ion), slightly acidic water caused by anode reaction is become neutral water, pass through negative electrode water inlet 41 enter cathode reaction chambers (the second cavity 132).

6th, the H of anode reaction room (the first cavity 131)⁺(hydrogen ion) reaches cathode reaction chambers through cation-exchange membrane 30 (the second cavity 132) and original H⁺(hydrogen ion), together in the presence of direct current negative potential, hydrogen is generated, simultaneously because OH^-The increase of (hydroxide ion), and the pH value of water is become big, show alkalescent.

Cathode reaction：2H⁺+2e^-=H₂↑

7th, hydrone forms (or water is made up of hydrogen and oxygen) by hydrogen atom and oxygen atom, and hydrone is destroyed after energization, It is decomposed into hydrogen atom, oxygen atom；Two hydrogen atoms form a hydrogen molecule；Two oxygen atoms form an oxygen molecule；Many hydrogen Molecule flocks together as hydrogen；Many oxygen molecules flock together as oxygen.

Overall reaction：

The technical solution of the utility model is dexterously combined by using electrolysis unit with negative oxygen ion generator 50, generation It is relatively beneficial to the negative potential alkalescent water of the subset group of health, negative electricity on hydrone band, becomes ionic condition Ionized water because ion is active more than molecule, activated equivalent to water, such activated water is easier to be absorbed by the body, And the negative potential of water also has more affinity with the alkalescent of human body fluid, it can more be absorbed by the body, the water in human body is more, respectively The internal chemical reaction of kind also will be carried out preferably, play more preferable adjustment effect.Activated water is in human body except participating in oxygen To change metabolism, also to carry out various chemical reactions, negative potential water can improve cytoactive, regulation blood glucose, blood fat, remove free radical, The accumulation of poisonous and harmful substance in vivo is reduced, there is anti-aging.And because the solubility of water is limited, electrolysis produces Substantial amounts of oxygen and hydrogen, these hydrogen, oxygen are all present in water in the form of micro air bubble, are constantly floated, are gradually become Greatly, finally burst in the water surface, form the effect of nanobubble water, along with the effect of negative potential, hydrone is all presented small point Son group.The running water of the subset group formed is decomposed, permeability is strong, and dissolubility is good.And also include negative oxygen ion in housing 10 Reaction zone 133, electrolytically generated oxygen form compressed gas area in the negative oxygen ion reaction zone 131 of housing 10, the compression it is pure Oxygen is both beneficial to make the negative oxygen ion release head 51 of anion generator 50 substantially more to ionize out negative oxygen ion, again can be with Prevent water logging to negative oxygen ion release head 51；And due to the presence of pressure, the oxygen-containing tolerance of water can also be improved；And cause in water Nano bubble in water the duration more lengthen.

Wherein, the explosion of caused slightly acidic water and fine gas bubbles, the harmful microorganisms such as bacterium in water can be killed.

In the present embodiment, water treatment facilities 100 of the present utility model can use product as single, such as roof water Case, electrolysis water filter；Accessory can also be used as, as being applied to the electrolysis water filter in water purifier.

And then the housing 10 can be designed as body structure, tubulose, column etc., can be set according to real needs are specifically chosen Meter；Wherein the difference of structure, the flow of water and volume size etc. all influence to discharge the pH value of water, but work as many design parameters, Such as the size of electrode, electrode voltage, the size of electric current, when negative oxygen ion concentration and control flow etc. determine, the device The water pH value typically discharged is 8.5 or so, meets human body fluid environment, this is no longer going to repeat them.

In the present embodiment, reinforcement 90 is provided with particularly referring to Fig. 2, housing 10, to increase the intensity of housing 10, improved The service life of housing 10.

Certainly in the present embodiment, referring to figs. 1 to 5, one end of first cavity is provided with anode water inlet, and described first The other end of cavity connects provided with anode delivery port with the communicating passage；One end of second cavity is provided with negative electrode water outlet Mouthful, the other end of second cavity connects provided with negative electrode water inlet with the communicating passage.

A specific embodiment is enumerated in reference picture 2 to 5, the in the present embodiment setting for specific cavity 13：

Cavity 13 is arranged at the lower end in housing 10, and positioned at the middle part of housing 10, the left and right sides of cavity 13 formed with Water flow passage, cavity 13 and housing 10 totally one bottom wall and front and rear sides wall, before cavity 13 is separated into by cation-exchange membrane 30 Latter two cavity 13, i.e. the first cavity 131 (anode reaction room) and the second cavity 132 (cathode reaction chambers), the first cavity 131 exist The bottom of cavity wall facing forward offers anode water inlet 21, anode water inlet 21 and the ft connection of housing 10, typically and running water Pipe connects, for intaking；Anode delivery port 22 is equipped with the top of the left and right cavity wall of the first cavity 131；Anode delivery port 22 Connected with water flow passage；Cavity wall top of second cavity 132 backwards offers negative electrode delivery port 42, negative electrode delivery port 42 and shell The ft connection of body 10, water is used for discharging；Negative electrode water inlet is offered in the bottom of the left and right cavity wall of the second cavity 132.

In the present embodiment, reference picture 7, flow direction 2-3-4-5, specifically, anode water inlet 21 flow through the first cavity 131 flow out from anode delivery port 22, flow to the second cavity 132 from negative electrode water inlet 41 through communicating passage 14, are finally gone out by negative electrode Flow out at the mouth of a river 42.

Wherein, it is arranged on left and right sides cavity wall for anode delivery port 22 and impulsive force mistake can be avoided by being not arranged in upper end Greatly negative oxygen ion release head 51 is soaked, reference picture 3, if anode delivery port 22 is arranged on to the upper end of the first cavity 131, and A baffle plate 60 is set to block water outlet, naturally it is also possible to prevent negative oxygen ion release head 51 from soaking.

Preferably, the anode electrode 20 and the cathode electrode 40 are flat mesh electrode, the anode electrode 20 and the cathode electrode 40 clamp the cation-exchange membrane 30.General cation-exchange membrane 30 is polypropylene fibre material, It only allows cation by and preventing anion, gas and hydrone from passing through, that is to say, that only allows H⁺(hydrogen ion) is logical Cross, and OH^-(hydroxide ion), gas and hydrone can not then pass through.Bubble hydrogen caused by negative electrode and sun can so be prevented Extremely caused oxygen bubbles mixes.And by the way that electrode is arranged into flat netted in the technical program so that electrode connects Contacting surface product is big, and electrolysis effectiveness is good；And by by anode electrode 20, cation-exchange membrane 30 and cathode electrode 40 is compact sets Put, can both fix cation-exchange membrane 30, impact of the water to cation-exchange membrane 30 can be reduced again, avoid cation exchange There is drainage in film 30；Moreover, anode electrode 20, cation-exchange membrane 30 and cathode electrode 40 are compacter, voltage can be with Lower, more energy-conserving and environment-protective are set.Certain electrode can also be bar-shaped, column, polygon-shaped etc..

Wherein, in order to extend electrode life and improve electrolytic efficiency, Ni―Ti anode scribbles the painting of the oxides such as titanium, ruthenium on the net Layer or platinum (platinum) coating；Negative electrode is made up of stainless (steel) wire, scribbles nickel coating above, and there is catalysis to accelerate electrolysis anti- Answer, reduce the characteristic of overpotential of hydrogen evolution.

Reference picture 2 to 5, it is preferable that first cavity 131 and second cavity 132 are equipped with baffle plate 60.By setting The impact of current can be slowed down by putting baffle plate 60, prevent that cavity 13 from being washed out.

Further, first cavity 131 and second cavity 132 are equipped with three pieces of baffle plates 60, three pieces of gears Plate 60 is downwardly inclined setting, wherein, left and right cavity wall sets baffle plate 60 with can evenly distributing；Such blocking effect is more preferable.

Further, reference picture 4 or Fig. 5, the negative electrode water inlet 41 are arranged to column grated inlet, the negative electrode water outlet Mouth 42 is arranged to tubulose delivery port.The left and right cavity wall of preferably the second cavity 132 is all provided with being set to barrier formula water inlet 41, and negative electrode Delivery port 42 could be arranged to threaded tubular, and convenient installation, certainly, concrete application can specific design.

Further, the anode delivery port 22 may be alternatively provided as threaded tubular delivery port, wherein, the threaded tubular delivery port Check valve 70 is also provided with 22, to prevent water from being flowed backward to out of housing 10 outside housing 10.

In the present embodiment, when housing 10 is small-scale structure, reference picture 1, the housing 10 may be arranged as detachably Mounting structure, the first housing 11 and the second housing 12 are connected through a screw thread fixation, the preferable housing of first housing 11 and second 12 are symmetrical arranged, and the first cavity 131 is arranged in first housing 11, and second cavity 132 is arranged at described second In housing 12, the first cavity 131 and the second cavity 132 can also be symmetrical arranged.By the way that be arranged to the water treatment facilities 100 can Detaching structure, can conveniently repair the electrode in housing 10, and certain negative oxygen ion generator 50 can also be removably mounted to institute State housing 10.And use to be symmetrical arranged and be more convenient for processing, assembling can save process and assemble cost.

Further, reference picture 6, because the inadequate situation of sealing occurs in demountable structure, therefore by described Latex mattress 80 is provided between one housing 11 and second housing 12, so to improve the watertightness of device and air-tightness.Wherein, The latex mattress 80 can also be covered between the first cavity 131 and the second cavity 132 simultaneously, while cavity 13 also be formed close Envelope.

Preferred embodiment of the present utility model is the foregoing is only, not thereby limits the scope of the claims of the present utility model, Every equivalent structure under utility model of the present utility model design, made using the utility model specification and accompanying drawing content Conversion, or directly/be used in other related technical areas indirectly and be included in scope of patent protection of the present utility model.

Claims (8)

1. A kind of 1. water treatment facilities, it is characterised in that including

   Housing, the housing are provided with cavity and the communicating passage connected with the cavity；

   Cation-exchange membrane, the cation-exchange membrane are contained in the cavity, and the cation-exchange membrane divides the cavity The first cavity and the second cavity are divided into, first cavity and second cavity connect with the communicating passage；

   Electrolysis unit, the electrolysis unit include the anode electrode being located in first cavity and located at second cavitys Interior cathode electrode；

   Negative oxygen ion generator, the negative oxygen ion generator include the negative oxygen ion release head being contained in the housing, institute Negative oxygen ion release head is stated to connect with the cavity by the communicating passage.
2. 2. water treatment facilities as claimed in claim 1, it is characterised in that

   One end of first cavity is provided with anode water inlet, the other end of first cavity be provided with anode delivery port with it is described Communicating passage connects；One end of second cavity is provided with negative electrode delivery port, and the other end of second cavity enters provided with negative electrode The mouth of a river connects with the communicating passage.
3. 3. water treatment facilities as claimed in claim 2, it is characterised in that the anode electrode and the cathode electrode are flat Plate-like net type electrode, the anode electrode and the cathode electrode clamp the cation-exchange membrane.
4. 4. water treatment facilities as claimed in claim 1 or 2, it is characterised in that first cavity and/or second cavity Baffle plate is equipped with, the baffle plate is set with the cavity wall of first cavity and/or the cavity wall of second cavity in angle.
5. 5. water treatment facilities as claimed in claim 4, it is characterised in that the negative electrode water inlet is arranged to the water inlet of barrier formula Mouthful, the negative electrode delivery port is arranged to tubulose delivery port.
6. 6. water treatment facilities as claimed in claim 5, it is characterised in that the anode delivery port is tubulose delivery port, described Tubulose water outlet is provided with check valve.
7. 7. water treatment facilities as claimed in claim 1 or 2, it is characterised in that the housing includes first detachably installed Housing and the second housing, first cavity are located in the first shell body, and second cavity is located in the second shell body.
8. 8. water treatment facilities as claimed in claim 7, it is characterised in that set between first housing and second housing There is latex mattress.