CN208022753U - A kind of one-piece type electrolytic water device of no diaphragm - Google Patents
A kind of one-piece type electrolytic water device of no diaphragm Download PDFInfo
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- CN208022753U CN208022753U CN201820270976.4U CN201820270976U CN208022753U CN 208022753 U CN208022753 U CN 208022753U CN 201820270976 U CN201820270976 U CN 201820270976U CN 208022753 U CN208022753 U CN 208022753U
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Abstract
The utility model discloses a kind of no one-piece type electrolytic water devices of diaphragm, including electrolytic cell and the anode and cathode being set in electrolytic cell, anode is set in the anode chamber surrounded by ion diaphragm, cathode, which corresponds to anode and is set to, makes the outer section of the ion diaphragm in electrolytic cell form cathode chamber outside ion diaphragm, electrolytic cell sets raw water inlet and electrolysis water out, in electrolytic process, raw water is injected electrolytic cell through raw water inlet and is flowed around anode chamber by the section between ion diaphragm and cathode, anode chamber supplements electrolyte at any time, the electrolysis water of formation is by being electrolysed water out discharge.Produce electrolysis water speed is fast, production efficiency is high, the sterilizing ability of the electrolysis water of generation is strong, and cleaning effect is good, and no diaphragm will not generate pollution, and the feature of environmental protection is good, and anti-corrosion capability is strong.
Description
Technical field
The utility model is related to electrolysis water technical fields, and in particular to a kind of no one-piece type electrolytic water device of diaphragm.
Background technology
Cleaning cleans the general of the mankind such as the similar service industry of industry in housekeeping, hospital, grocery trade, various industry, beauty
Extensive utilization in property industry, the cleaning mode most generally used is the chemically cleaning method for using various detergents.Chemically
The cleaning agent used in cleaning method has general water solubility scour, pure water solubility scour, solvent system cleaning agent, chlorine system cleaning agent.
Since chemically cleaning agent contains and can make atmosphere pollution for these, the environmentally harmful substance such as global warming, entirely
It is all increasingly stringent to the regulation of cleaning agent in world wide.Therefore researching and developing while meeting the cleaning of cleaning agent basic demand
The cleaning agent of property, energy saving, safety and the feature of environmental protection.
It adds electrolyte (sodium chloride, potassium carbonate etc.) in diaphragm electrolytic cell to be electrolysed aqueous solution, cathode generates
Strong basicity electrolysis water there is cleaning effect, and there is the feature of environmental protection, in the partial automobile of South Korea and accurate accessory industry also by
Extensive use.Strong acidic electrolyzed water necessarily is generated in anode while generating strong basicity electrolysis water using diaphragm electrolytic cell, it is raw
At the strong acidic electrolyzed water electrolysis water that can only be discharged if it can not find corresponding uses and become waste water, and produced in can be mixed into
A certain amount of electrolyte, as a result can cause that the production efficiency of electrolysis water is low, sterilizing ability is weak, and cleaning effect is poor.Further, since
The defect that the pollution of diaphragm also has electrolytic efficiency low.
Therefore, the prior art also needs to be further improved and develop.
Utility model content
The purpose of this utility model is to provide for a kind of one-piece type electrolytic water device of no diaphragm, it is intended to solve the prior art
The problem of production efficiency is low, sterilizing ability is weak, cleaning effect is poor, pollution environment.
Used technical solution is:A kind of one-piece type electrolytic water device of no diaphragm, including electrolytic cell and it is set to electrolysis
Anode and cathode in slot, anode are set in the anode chamber surrounded by ion diaphragm, cathode correspond to anode be set to ion every
The outer section of the ion diaphragm in electrolytic cell is set to form cathode chamber outside film, electrolytic cell sets raw water inlet and electrolysis water out, was electrolysed
Cheng Zhong, raw water are injected electrolytic cell through raw water inlet and are flowed around anode chamber by the section between ion diaphragm and cathode, sun
Pole room supplements electrolyte at any time, and the electrolysis water of formation is by being electrolysed water out discharge.
Raw water inlet is set to bottom of electrolytic tank, and electrolysis water out is set to electrolytic cell top.
In electrolytic cell, the anode chamber being set as is enclosed by ion diaphragm at least provided with two, each anode chamber is arranged from top to bottom
Row setting.
Cathode includes being respectively arranged at the first cathode of bottom of electrolytic tank inner wall and top inner wall and being set to adjacent sun
The second cathode between pole room, the first cathode and the second cathode are horizontally disposed, wherein second cathode one end is set to electrolytic bath
On wall, flowing water via is formed between the other end and corresponding electrolytic cell cell wall, forming watertight layer by the second cathode makes water ring around second
Cathode upper and lower sides flow.
Anode chamber one end is connect with electrolytic cell cell wall, is formed flowing water gap between the other end and corresponding electrolytic cell cell wall, is passed through
Anode chamber, which forms watertight layer, makes water ring be flowed around anode chamber's upper and lower sides, wherein the flowing water gap and the second cathode that anode chamber is formed
The flowing water via of formation corresponds to distribution, makes the water in electrolytic cell with the zigzag type of flow close to electrolytic cell side cell wall respectively
Pile warp anode chamber and cathode flow.
There is horizontally disposed two anodes, two anodes to be set respectively close to upper and lower sides in ion diaphragm in ion diaphragm
It sets, it is corresponding with the cathode that upper and lower sides outside ion diaphragm are arranged respectively.
The distance between cathode and corresponding anode are 1.5~2mm.
Corresponding anode chamber is provided with the electrolyte feedway for injecting electrolyte to anode chamber, and corresponding anode chamber is also set
It is equipped with the outlet for discharging anode chamber's Inner electrolysis matter water.
Anode be platinum electrode, iridium electrode, gold-plated platinum electrode and gold-plated iridium electrode in one kind, the cathode be molybdenum electrode or
Gold-plated molybdenum electrode.
Advantageous effect:The utility model provides a kind of novel no one-piece type electrolytic water device of diaphragm, produces the speed of electrolysis water
Degree is fast, production efficiency is high, and the sterilizing ability of the electrolysis water of generation is strong, and cleaning effect is good, and no diaphragm will not generate pollution, ring
Guarantor property is good, and anti-corrosion capability is strong.
Description of the drawings
Fig. 1 is the structural schematic diagram without the one-piece type electrolytic water device of diaphragm in the utility model specific embodiment.
Specific implementation mode
To keep the purpose of this utility model, technical solution and advantage clearer, clear, develop simultaneously implementation referring to the drawings
The utility model is further described in example.
A kind of no one-piece type electrolytic water device of diaphragm as shown in Figure 1, including electrolytic cell 100 and it is set to electrolytic cell 100
Interior anode 200 and cathode 300, anode 200 are set in the anode chamber 500 surrounded by ion diaphragm 400, and cathode 300 corresponds to
Anode 200, which is set to, makes the 400 outer section of ion diaphragm in electrolytic cell 100 form cathode chamber 600, electrolysis outside ion diaphragm 400
Slot 100 sets raw water inlet 700 and is electrolysed water out 800, and in electrolytic process, raw water injects electrolytic cell 100 simultaneously through raw water inlet 700
It is flowed around anode chamber 500 by the section between ion diaphragm 400 and cathode 300, anode chamber 500 supplements electrolyte at any time,
The electrolysis water of formation is discharged by being electrolysed water out 800.Specifically, using potassium carbonate as electrolyte, the infiltration of ion diaphragm 400
Rate is 0.1cc/cm2.min, it is the low-down ion diaphragm of permeability 400 of water.
Raw water inlet 700 is set to 100 bottom of electrolytic cell, and electrolysis water out 800 is set to 100 top of electrolytic cell.Electrolysis
In slot 100, the anode chamber 500 being set as is enclosed by ion diaphragm 400 at least provided with two, each anode chamber 500 is arranged from top to bottom
Row setting.
Cathode 300 includes the first cathode 310, the Yi Jishe for being respectively arranged at 100 bottom interior wall of electrolytic cell and top inner wall
The second cathode 320 being placed between adjacent anode room 500, the first cathode 310 and the second cathode 320 are horizontally disposed, wherein second
320 one end of cathode is set on 100 cell wall of electrolytic cell, is formed flowing water via between the other end and 100 cell wall of corresponding electrolytic cell, is passed through
Second cathode 320, which forms watertight layer, makes water ring be flowed around 320 upper and lower sides of the second cathode.
500 one end of anode chamber is connect with 100 cell wall of electrolytic cell, and flowing water is formed between the other end and 100 cell wall of corresponding electrolytic cell
Gap, forming watertight layer by anode chamber 500 makes water ring be flowed around 500 upper and lower sides of anode chamber, wherein what anode chamber 500 was formed
The flowing water via that flowing water gap and the second cathode 320 are formed corresponds to distribution, to be electrolysed close to 100 side cell wall of electrolytic cell respectively
Water in slot 100 is flowed with zigzag type of flow pile warp anode chamber 500 and cathode 300.There is water in ion diaphragm 400
Two anodes 200 of flat setting, two anodes 200 are arranged close to upper and lower sides in ion diaphragm 400 respectively, respectively with ion diaphragm
The cathode 300 of 400 outer upper and lower sides settings is corresponding.
The distance between cathode 300 and corresponding anode 200 are 1.5~2mm.Between anode 200 and corresponding cathode 300
Few away from quantitative change that is less than or being ionized close to electrolytic separation when 1.5mm, the efficiency of electrolytic separation reduces, and can occur when more than 2mm
Polarization can also be such that efficiency reduces.Corresponding anode chamber 500 is provided with the electrolyte for injecting electrolyte to anode chamber 500 and supplies
To device 900 and electrolyte drainage arrangement 910, corresponding anode chamber 500 is additionally provided with for discharging 500 Inner electrolysis matter water of anode chamber
Outlet 510.Anode 200 is one kind in platinum electrode, iridium electrode, gold-plated platinum electrode and gold-plated iridium electrode, malleability and ductility
It is good, it will not all get rusty in acid and salt, cathode 300 is molybdenum electrode or gold-plated molybdenum electrode.
The purity of the electrolysis water of generation is 99.98% or more, and purity is high, and cathode 300 generates the strong basicity of PH12.5 or more
Ionized water can obtain the redox reaction of 940mv, harmless to also have strong bactericidal properties.Electrolysis water parent's environment, it is recyclable to make
With.
It should be understood that the application of the utility model is not limited to above-mentioned citing, those of ordinary skill in the art are come
It says, it can be modified or changed according to the above description, and all these modifications and variations should all belong to the appended power of the utility model
The protection domain that profit requires.
Claims (9)
1. a kind of one-piece type electrolytic water device of no diaphragm, which is characterized in that including electrolytic cell and the anode being set in electrolytic cell
And cathode, the anode are set in the anode chamber surrounded by ion diaphragm, the cathode corresponds to anode and is set to ion diaphragm
The outer outer section of the ion diaphragm made in electrolytic cell forms cathode chamber, and electrolytic cell sets raw water inlet and electrolysis water out, electrolytic process
In, raw water is injected electrolytic cell through raw water inlet and is flowed around anode chamber by the section between ion diaphragm and cathode, anode
Room supplements electrolyte at any time, and the electrolysis water of formation is by being electrolysed water out discharge.
2. the one-piece type electrolytic water device of no diaphragm according to claim 1, which is characterized in that raw water inlet is set to electrolysis
Trench bottom, electrolysis water out are set to electrolytic cell top.
3. the one-piece type electrolytic water device of no diaphragm according to claim 2, which is characterized in that in electrolytic cell, by ion every
Film encloses the anode chamber being set as at least provided with two, and each anode chamber is arranged from top to bottom.
4. the one-piece type electrolytic water device of no diaphragm according to claim 3, which is characterized in that the cathode includes setting respectively
The second cathode for being placed in the first cathode of bottom of electrolytic tank inner wall and top inner wall and being set between adjacent anode room, the
One cathode and the second cathode are horizontally disposed, wherein second cathode one end is set on electrolytic cell cell wall, the other end and corresponding electrolysis
Flowing water via is formed between groove groove wall, forming watertight layer by the second cathode makes water ring be flowed around the second cathode upper and lower sides.
5. the one-piece type electrolytic water device of no diaphragm according to claim 4, which is characterized in that described anode chamber one end and electricity
Groove groove wall connection is solved, forms flowing water gap between the other end and corresponding electrolytic cell cell wall, forming watertight layer by anode chamber makes water ring
It being flowed around anode chamber's upper and lower sides, wherein the flowing water via that the flowing water gap and the second cathode that anode chamber is formed are formed corresponds to distribution,
Make the water in electrolytic cell with zigzag type of flow pile warp anode chamber and cathode flow close to electrolytic cell side cell wall respectively.
6. the one-piece type electrolytic water device of no diaphragm according to claim 3, which is characterized in that have in ion diaphragm
Horizontally disposed two anodes, two anodes are arranged close to upper and lower sides in ion diaphragm respectively, respectively with upper and lower sides outside ion diaphragm
The cathode of setting is corresponding.
7. the one-piece type electrolytic water device of no diaphragm according to claim 6, which is characterized in that the cathode and corresponding sun
The distance between pole is 1.5~2mm.
8. the one-piece type electrolytic water device of no diaphragm according to claim 1, which is characterized in that corresponding anode chamber's setting is useful
In the electrolyte feedway for injecting electrolyte to anode chamber, corresponding anode chamber is additionally provided with for discharging anode chamber's Inner electrolysis matter
The outlet of water.
9. the one-piece type electrolytic water device of no diaphragm according to claim 1, which is characterized in that the anode be platinum electrode,
One kind in iridium electrode, gold-plated platinum electrode and gold-plated iridium electrode, the cathode are molybdenum electrode or gold-plated molybdenum electrode.
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CN201820270976.4U CN208022753U (en) | 2018-02-26 | 2018-02-26 | A kind of one-piece type electrolytic water device of no diaphragm |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110697949A (en) * | 2019-09-24 | 2020-01-17 | 无锡迅朗联大机能水技术研究院有限公司 | Method for reducing residual quantity of chloride ions in diaphragm-free electrolyzed water |
-
2018
- 2018-02-26 CN CN201820270976.4U patent/CN208022753U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110697949A (en) * | 2019-09-24 | 2020-01-17 | 无锡迅朗联大机能水技术研究院有限公司 | Method for reducing residual quantity of chloride ions in diaphragm-free electrolyzed water |
CN110697949B (en) * | 2019-09-24 | 2021-12-17 | 无锡迅朗联大机能水技术研究院有限公司 | Method for reducing residual quantity of chloride ions in diaphragm-free electrolyzed water |
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