CN203284279U - Self-cleaning electric adsorption water purification device - Google Patents

Self-cleaning electric adsorption water purification device Download PDF

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Publication number
CN203284279U
CN203284279U CN2013203121901U CN201320312190U CN203284279U CN 203284279 U CN203284279 U CN 203284279U CN 2013203121901 U CN2013203121901 U CN 2013203121901U CN 201320312190 U CN201320312190 U CN 201320312190U CN 203284279 U CN203284279 U CN 203284279U
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electrode
water
electricity
desorbs
electrolytic
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罗烈明
罗逸
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FUJIAN FANGMING ENVIRONMENTAL TECHNOLOGY Co Ltd
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FUJIAN FANGMING ENVIRONMENTAL TECHNOLOGY Co Ltd
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Abstract

The utility model discloses a self-cleaning electric adsorption water purification device. The electric adsorption water purification device comprises a first electrolytic system and an electric absorption-desorption system. The first electrolytic system comprises a first electrode assembly comprising a first positive electrode and a first negative electrode. Harmful materials in water are with ions by ionizing and exciting the water with the powered-on first electrode assembly. The electric absorption-desorption system comprises at least one electric absorption-desorption unit which is provided with an absorption material electrode therein. By turning on the power of the electric absorption-desorption unit, the harmful materials with the ions can be absorbed by the absorption material electrode; and by replacing polarity of the absorption material electrode of the electric absorption-desorption unit by controlling the power supply, the harmful materials on the absorption material electrode can be desorbed. The first electrolytic system is connected with the electric absorption-desorption system. The self-cleaning electric adsorption water purification device can efficiently take out the harmful materials without replacing filter cores and can retain beneficial mineral substances.

Description

A kind of automatically cleaning electro-adsorption water-purification plant
Technical field
The utility model relates to a kind of automatically cleaning electro-adsorption water-purification plant.
Background technology
Existing water treatment is divided into following several as the water treatment of tap water:
The one, absorption method, such as active carbon adsorption, this method is the method for at present the most general practicality, and the method is adsorbable except anhydrating middle most objectionable impurities, reaches water and purifies purpose, it is the method preferably of the harmless non-secondary pollution of a kind of simple and effective, but there is following shortcoming in it: one, along with the increase of adsorptive capacity, when adsorptive capacity is saturated, namely lose adsorption, cause purification function to lose efficacy; They are two years old, fluctuation due to source water quality, can not correctly estimate accurately and adsorb the time limit by the timetable that purifies the water yield and use, so it is inaccurate to change the time point of absorption filter element, thereby cause the hygienic safety accident of tap water to occur, such as the former water due to before purifying, (generally adopt the water quality of source water and tap water poor), may not reach and estimate that more the renew cartridge time point has just adsorbed saturated and serious adsorbed material pollution, if this moment not in time more renew cartridge certainly will cause the water quality of clearing machine water outlet to become bad, the pollution more serious than source water appears; Its three, frequently more renew cartridge causes the resource significant wastage, running cost increases; Its four, passive absorption naturally is difficult to remove some small molecules objectionable impuritiess.
The 2nd, filtration method, filtration method can be divided into nano filtering process and reverse osmosis method.This method is to adopt nanofiltration membrane or permeable membrane, under the condition of pressurization, thereby makes the current objectionable impurities in nanofiltration membrane or permeable membrane elimination water of flowing through.This method advantage is that equipment is simple, grow the duration of service of film (approximately 1 year), and stable effluent quality, but its shortcoming is also very serious, and one, less than the objectionable impurities of membrane pore size, this method can't filtering, at present the aperture of film can only be greater than 10 nanometers (too small aperture certainly will increase hydraulic pressure, affects the water yield, and this becomes the water yield and pressure can reach the threshold value of economic implications).And endanger exactly maximum material less than the objectionable impurities of 10 nanometers, such as bromate, chloroform, its molecule of heavy metal all less than 1 nanometer; They are two years old, because being easy to be filtered off thing, blocks film, therefore need to adopt backwashing technology, namely adopt former water to rinse and remove the clogged material that filters out, to purify two to four times of water outlet according to the general wash-down water of measuring and calculating, as seen to obtain one ton of water purification with this method and will waste average two to four times, namely will obtain one ton of water purification and will slattern average three tons of former water.Owing to containing the water that leaches objectionable impurities, also can't live on and drink, the hygiene use such as cleaning ground that can only be used for flushing the toilet, and that the hygiene water need not is so many, and its inconvenience storage again, so the overwhelming majority is to run off in vain.Cause the significant wastage of water resources.Its three, frequently use easily in the water side breed bacteria, be also one of hygienic safety hidden danger.So this method is not generally independently used and with adsorption method, is united use.
The 3rd, electroosmose process, this method water purification water quality is extremely excellent, but cost is higher, aquifer yield is very little, and, due to the olighydria mineral substance after this law is pure, is unsuitable for long-term drinking, be unsuitable for popularization and use, only be used for the high occasions of water quality requirement such as laboratory, lack social and economic significance.
Three large methods respectively have quality in sum, but the shortcoming that all ubiquity running cost is higher, decontamination effect improving is not good.And being present drinking water purification equipments, these shortcomings are difficult to reach a hygienic safety purpose difficult problem.
The utility model content
The utility model provides a kind of automatically cleaning electro-adsorption water-purification plant, and it has overcome the existing deficiency of a kind of method for purifying water in background technology.
The technical scheme that adopts that the utility model solves its technical problem is:
A kind of automatically cleaning electro-adsorption water-purification plant, comprise that the first electrolytic system and electricity suction desorb system; This first electrolytic system comprises the first electrode group, and this first electrode group comprises first anodal and the first negative pole, by the first electrode group ionization that switches on power, excites water to make nuisance band ion in water; This electricity is inhaled the system that desorbs and is comprised that at least one electricity suction desorbs unit, this electricity is inhaled to desorb in unit and is established the sorbing material electrode, inhale and desorb unit and switch on power and make the nuisance of sorbing material electrode adsorption band ion by electricity, by controlling power supply, change electricity and inhale the polarity of the sorbing material electrode that desorbs unit and desorb nuisance on the sorbing material electrode; This first electrolytic system desorbs the system connection with being connected to inhale.
Among one embodiment: this electricity suction desorbs unit and comprises the first electrode and the second electrode, this second electrode and the first electrode space, and this sorbing material electrode is located between the first electrode and the second electrode; This first electrode and the second electrode be an electric utmost point that connects power supply all, and this sorbing material electrode electricity connects another utmost point of power supply.
Among one embodiment: this electricity inhales that to desorb the unit number be two, and this two electricity is inhaled and desorbed that unit switches on power and two electricity are inhaled the sorbing material electrode band Different electrodes that desorb in unit.
Among one embodiment: this electricity is inhaled and is desorbed the shell that unit comprises hollow cylinder and surrounds hollow cylinder, this first electrode connects hollow cylinder, this the second electrode connected with outer casing, this the second electrodes surrounding first electrode, this hollow cylinder and shell are all established the current port, and current flow into after the sorbing material electrode and flow out from another current port from a current port.
Among one embodiment: this first electrolytic system also comprises the first container of interior formation first cavity, and this first container is established the first water-in and one first water outlet of connecting the first cavity, and this first electrode group is inserted in the first cavity; The first water outlet of this first container and an electricity are inhaled a current port connection that desorbs unit, and this electric suction desorbs another current port of unit and the current port connection that another electricity suction desorbs unit.
Among one embodiment: also comprise strainer, this strainer connects electricity and inhales the system that desorbs.
Among one embodiment: also comprise the second electrolytic system, this second electrolytic system comprises the second electrode group, and this second electrode group comprises second anodal and the second negative pole, and this second electrolytic system connects electricity and inhales the system that desorbs.
Among one embodiment: also comprise primary filter, this primary filter connects the first electrolytic system.
Among one embodiment: also comprise an outlet terminal and a water shoot, this electricity suction desorbs system and has a water outlet, and this water outlet is divided into two minutes water routes, and outlet terminal can be connected in this minute water route, this another minute water route connection water shoot, and open and close valve is all established in this two minutes water routes.
Among one embodiment: also comprise controller and power supply, this power supply connects controller, and this controller connects the first electrolytic system and electricity is inhaled the system that desorbs; This outlet terminal place establishes water sensor, and this water sensor connects controller.
The technical program is compared with background technology, and it has following advantage:
1, first by ionization, excite the nuisance band ion that makes in water, pass through again the nuisance of electro-adsorption material electrode adsorption band ion, therefore overcome the existing deficiency of background technology, and produce following technique effect: a, not only rate of adsorption is fast, advantages of good adsorption effect, and inhale mutually principle by positive and negative electrode and can also adsorb the nuisance of nano sized particles, can take out efficiently nuisance; B, desorb speed and efficiency is high, the automatically cleaning water is few, is only that below one of the percentage of water purification amount, the automatically cleaning fast and easy, need not more renew cartridge, avoids because being difficult to estimate to change the pollution that time point brings.
2, electricity is inhaled and to be desorbed unit and strainer is united use, and the electro-adsorption material substance of the denier of being taken out of by current with elimination, further increase water quality, and can reach extremely excellent drink water purifying effect.
Description of drawings
The utility model is described in further detail below in conjunction with drawings and Examples.
Fig. 1 has illustrated the structural representation of the device for purifying potable water of a preferred embodiment.
Fig. 2 has illustrated the electricity of a preferred embodiment and has inhaled the horizontal section schematic diagram that desorbs unit.
Fig. 3 has illustrated the electricity of a preferred embodiment and has inhaled the longitudinal profile schematic diagram that desorbs unit.
Embodiment
Please refer to Fig. 1, Fig. 2 and Fig. 3, a kind of automatically cleaning electro-adsorption water-purification plant, comprise that at least the first electrolytic system 10 and electricity suction desorb system 20.Water-purification plant of the present utility model can be used for: drinking water treatment, the water treatment of the sewage such as low density, intermediate concentration heavy metal ion, the water treatment of the sewage such as low density, intermediate concentration negative ion.
This first electrolytic system 10 comprises at least one group of the first electrode group, and the group number of this first electrode group can be 1,2,3,4,5 etc., if many groups can be arranged alternately, this first electrode group comprises first anodal and the first negative pole.The positive and negative electrode of power supply electricity respectively connects first anodal and the first negative pole, and first anodal and the first negative pole can ionize and excite water to produce following effect: nuisance in water is ionized, and activation and being free in water, make nuisance band negative ions; 2, during electrolysis, can produce the .OH ion, the macromole of the difficult absorption of a part is degraded into small molecules or innoxious through the oxidation meeting of .OH; 3, make in water a nuisance part oxidized and degrade.So its ionization energy is high seldom with simple substance, exists as calcium magnesium sodium etc. due to beneficial mineral matter, therefore is difficult to be ionized, can ionize nuisance while having guaranteed electrolysis and can not ionize beneficial mineral matter, keep useful mineral substance.
In preferred version, this first positive electrode material is selected titanium-based oxide, or the titanium base is coated with oxide compound outward, or, the outer applying oxidn of titanium base; This first negative material is selected titanium, or other insoluble nontoxicity electrode.This first electrode gap anodal and the first negative pole is 0.1-10mm, and during use, water flows through from electrode gap.
Among the present embodiment, this first electrolytic system 10 also comprises the first container 11 of interior formation first cavity, and this first container 11 is established the first water-in and the first water outlet of connecting the first cavity, and this first water-in can be connected former water.This first electrode group is inserted in the first cavity.
This electricity is inhaled the system that desorbs and is comprised that two electricity suctions desorb unit, this two electricity suction desorbs unit and all comprises the first electrode 21, the second electrode 22 and sorbing material electrode 23, this first electrode 21 and the second electrode 22 intervals, this sorbing material electrode 23 are located at 22, the first electrode 21 and the second electrode; This first electrode 21 and the second electrode 22 be an electric utmost point that connects power supply all, and these sorbing material electrode 23 electricity connect another utmost point of power supply.This two electricity suction desorbs the unit electricity and connects power supply and two electricity are inhaled the sorbing material electrodes 23 band Different electrodes that desorb in unit, namely be respectively: positive adsorption material electrode and negative adsorption material electrode, nuisance by positive adsorption material electrode 23 adsorption zone negative ions, nuisance by negative adsorption material electrode 23 adsorption zone positive ions, on the one hand, self has adsorption function sorbing material, inhale mutually principle by positive and negative electrode on the other hand and realize adsorption function, therefore not only rate of adsorption is fast, effective, and can also adsorb the fines nuisance, realize the water cleaning action with this; And, controlling power supply makes two electricity inhale the electrode replacing of the sorbing material electrode 23 that desorbs unit, can desorb nuisance, realize automatic cleaning action with this, as: positive adsorption material electrode 23 is more become negative adsorption material electrode, former absorption band negative ion nuisance thereon can be discharged, another sorbing material electrode is discharged band positive ion nuisance.
Among the present embodiment, this sorbing material electrode 23 is for example activated carbon fiber (ACF), but, not as limit, also can adopt other sorbing material electrode, as zeolite; This sorbing material electrode can be processed as electrode shape, and bar-shaped as adaptive the first electrode 21 and the second electrode 22 spacings, but not as limit as required, also can adopt the modes such as powder or particle moulding to be filled in 22, the first electrode 21 and the second electrode.This first electrode 21 and the second electrode 22 materials can be selected: titanium or titanium-based oxide coating, coating (titanium base peripheral hardware has oxide compound), stainless steel electrode or insoluble nontoxic stability electrode such as platinum electrode, ceramic electrode etc.
In one preferred version, this electricity is inhaled and is desorbed the shell 25 that unit comprises hollow cylinder 24 and surrounds hollow cylinder 24, and this first electrode 21 connects hollow cylinder 24, and these the second electrode 22 connected with outer casing 25 inwalls make this second electrode 22 surround the first electrode 21 and interval.This first electrode 21 can be located in hollow cylinder 24, also can be enclosed in outside hollow cylinder 24.Best, the first electrode 21 and the second electrode 22 practise physiognomy to surface on the insulating film 26 that is sticked.Desorb unit in the electricity suction and establish the current port, make the current sorbing material of flowing through, this current port setting example is as adopting following structure: 1, hollow cylinder 24 and shell 25 are all established the current port, make current flow into after the sorbing material electrode and flow out from another current port from a current port, what can gather interval on this hollow cylinder 24 crosses the water through hole, enter the sorbing material electrode by crossing the water through hole after current are entered from hollow cylinder, reassociate to another current port; 2, hollow cylinder was not established the water through hole, and current enter from hollow cylinder one port, from another port, enter in the sorbing material electrode, reassociated to another current port; 3, a current port is an annular space of hollow cylinder and shell, and another current port is another annular space.But and be limited with preferred version, as required, also can adopt other scheme, for example: the first electrode and the second electrode all adopt sheet, two electrode space, and the sorbing material electricity connects between between two electrodes, one interval port is a current port, and another interval port is another current port.
This first electrolytic system 10 is inhaled the system that desorbs 20 and is connected with being connected, and is that flow through the first electrolytic system 10, an electricity of current inhaled and desorbed unit and another electricity and inhale and desorb unit.For example: the first water outlet of this first container 11 and an electricity are inhaled a current port connection that desorbs unit, and this electric suction desorbs another current port of unit and the current port connection that another electricity suction desorbs unit.
In one preferred embodiment, also comprise primary filter 30, this primary filter 30 connects the first electrolytic system 10, and primary filter 30 and the first electrolytic system 10 so that current are flowed through, with the macrobead thing of elimination front end water inlet.These primary filter 30 structures as: comprise that a housing and is installed in the filter cotton in housing or crosses filter core, the both sides of this housing are respectively equipped with an opening, and an opening is import, and another opening is outlet, the low price of this filter cotton or mistake filter core, change easy (every filter core is 3-5 unit).
In one preferred embodiment, also comprise water pump 40, before this water pump 40 is connected to primary filter 30.As be connected to the place, municipal tap water, can not establish water pump.
In one preferred embodiment, also comprise strainer 50, this strainer 50 connects electricity and inhales the system 20 that desorbs, the first electrolytic system 10, electricity are inhaled and are desorbed system 20 and strainer 50 so that current are flowed through, comprise a filtering membrane or cross filter core by strainer 50, be used for the safety elimination and inhale and desorb denier nuisance or the sorbing material electrode that system 20 is taken out of by current from electricity.
In one preferred embodiment, also comprise the second electrolytic system 60, this second electrolytic system 60 comprises the second electrode group, the group number of this second electrode group can be 1,2,3,4,5 etc., if many groups can be arranged alternately, this the second electrode group comprises second anodal and the second negative pole, and this second electrolytic system connects the electricity suction and desorbs system, and the first electrolytic system 10, electricity are inhaled and desorbed system 20 and the second electrolytic system 60 so that current are flowed through.Certainly, as with strainer 50 combinations, the first electrolytic system 10, electricity are inhaled and are desorbed system 20, strainer 50 and the second electrolytic system 60 so that current are flowed through.
This second electrode group comprises second anodal and the second negative pole.The positive and negative electrode of power supply electricity respectively connects second anodal and the second negative pole, the second positive pole and the second negative pole can ionize and excite water to produce following effect: during 1, because of electrolysis, anodal meeting precipitated oxygen, oxygen dissolution is in water, improve dissolved oxygen amount in water (when the highest, can reach former water more than two times), improve mouthfeel, improve taste quality; 2,, because a part of hydroxyl radical free radical sodium calcium magnesium with water in is combined, form weakly alkaline when these materials are few, make water weakly alkaline (pH value greater than former water more than 0.2), the pH value of raising water outlet, drink alkalescent water, is conducive to HUMAN HEALTH; 3, after the second electrolytic system 60 connects outlet terminal, as water tap, produce the .OH ion by the second electrolytic system 60, can also produce reactive chlorine (also having disinfection function) as containing part chlorine in water, .OH ion can carry out disinfection sterilizing to outlet terminal 71, the water of guaranteeing to flow out water tap is sterilized aseptic, stops the bacteria breed that because of the discontinuous use of machine itself, may cause.
In preferred version, this second positive electrode material is selected titanium-based oxide, or the titanium base is coated with oxide compound outward, or, the outer applying oxidn of titanium base; This second negative material is selected titanium, or other insoluble nontoxicity electrode.This second electrode gap anodal and the second negative pole is 0.1-10mm, and during use, water flows through from electrode gap.
Among the present embodiment, this second electrolytic system 60 also comprises the second container 61 of interior formation second cavity, and this second container 61 is established the second water-in and the second water outlet of connecting the second cavity, and this second water-in can be connected the electricity suction and desorb system 20 or strainer 50.This second electrode group is inserted in the second cavity.
Among the present embodiment, also comprise an outlet terminal 71 and a water shoot 72; This electricity suction desorbs system and has a water outlet, this water outlet is that above-mentioned another electricity is inhaled another current port that desorbs unit, it establishes two minutes water routes, outlet terminal 71 can be connected in water route in one minute, as the connection outlet terminal 71 after filter 50 and the second electrolytic system 60 of the present embodiment, another minute water route connection water shoot 72, and, this two minutes water routes are respectively equipped with open and close valve 73,74, this open and close valve such as magnetic valve.While normally purifying waste water, namely electricity is inhaled the system that desorbs and is in water purification state, closes open and close valve 74, opens open and close valve 73; During automatically cleaning, namely electricity is inhaled and is desorbed system and be in the automatically cleaning state, opens open and close valve 74, closes open and close valve 73.
Each above-mentioned system and component all are installed in an outer packing shell 80, so that appearance looks elegant is convenient to transportation, storage etc.This outer packing shell such as materials such as adopting steel, stainless steel, plastics, glass reinforced plastic is made, and is used for installing above-mentioned parts.
For the ease of controlling, preferably establish a controller 90, these controller 90 electricity connect the first electrode group, electricity is inhaled and desorbed the electrode of unit, as comprise above-mentioned other component, also electric water pump 40 or and the second electrode group or with open and close valve 73,74 etc.This controller 90 is gone back electricity and is connected to a control panel 91 or a plurality of switches set, by control panel 91 or a plurality of switches set, can control water purification or automatically cleaning.Separately can connect controller by extraneous power supply electricity, think that they provide electric energy, but also can adopt store battery or drying battery to realize electrical energy fed.This controller 90, be convenient to the easy operation of user, automatically controls the water-purifying machine running, automatically detects indices, and the high-frequency direct-current low tension of other system use etc. is provided.
This controller 90 can adopt software control, also can adopt other structure, this other structure example is as being: comprise that the second electrolytic circuit 95, an electricity that the first electrolytic circuit 94, an electricity that a PLC92, a pumping source circuit 93, an electricity connect the first electrode group connect the second electrode group connect electricity and inhale the electricity that desorbs unit and inhale and desorb circuit 96 and open and close valve circuit 97, this PLC92 signal connects pumping source circuit 93, the first electrolytic circuit 94, the second electrolytic circuit 95, electricity and inhales and desorb circuit 96 and open and close valve circuit 97.
In order to realize automatic control, preferably set up a sensor 98, this sensor 98 is for detection of purifying the water yield, as is installed in water tap place, water pump place etc., but and as limit, as required, this sensor 98 as also can adopt timing register, be used for the judgement self-purification time.These sensor 98 signals connect controller, as signal, connect PLC, wait the purification water yield or clarification time after the scheduled time, and controller is offered to control and realized self-cleaning function.
As required, being no matter that water purification and automatically cleaning work are all predeterminable has a water outlet lagging device, and all systems just started draining after first switching on rear some seconds, prevented unprocessed discharge.
A kind of drink water purifying method comprises:
Ionization excites the water step, by electrode, ionizes and excites water, makes nuisance band negative ions in water;
Electro-adsorption nuisance step, switch on power so that two electricity suctions desorb the sorbing material electrode band Different electrodes in unit and are respectively positive adsorption material electrode and negative adsorption material electrode, make current two electricity of flowing through inhale and to desorb unit, with the nuisance by positive adsorption material electrode adsorption band negative ion, by the nuisance of negative adsorption material electrode adsorption band positive ion, to realize the water cleaning action;
During as the need automatically cleaning, comprising:
Ionization excites the water step, by electrode, ionizes and excites water, makes chlorine residue in water be provoked into oxidation state chlorine and electro-adsorption solution adsorption device be carried out sterilizing contaminated to prevent this device;
Electrolysis is with the pest step, switches on power so that two electricity are inhaled the sorbing material electrode band Different electrodes that desorbs in unit and opposite with the electrode of electro-adsorption nuisance step,, can desorb nuisance, realizes self-cleaning function.
Take municipal tap water or the waterhead area water that meets national standard be former water, after processing, the utility model system purification greatly is better than quoting the water purification water quality standard, and it is lower to purify cost, water approximately per ton is only used 2-5 kilowatt-hour electricity, amount to purification cost 1-5 per ton first, sorbing material can be inhaled the solution number of times and reach 50-100 time; Level of automation is high, can realize the automatic operation operation, stops hygienic safety system hidden danger.
The above, it is only the utility model preferred embodiment, therefore can not limit according to this scope that the utility model is implemented, the equivalence of namely according to the utility model the scope of the claims and description, doing changes and modifies, and all should still belong in the scope that the utility model contains.

Claims (10)

1. an automatically cleaning electro-adsorption water-purification plant, is characterized in that: comprise that the first electrolytic system and electricity suction desorb system; This first electrolytic system comprises the first electrode group, and this first electrode group comprises first anodal and the first negative pole, by the first electrode group ionization that switches on power, excites water to make nuisance band ion in water; This electricity is inhaled the system that desorbs and is comprised that at least one electricity suction desorbs unit, this electricity is inhaled to desorb in unit and is established the sorbing material electrode, inhale and desorb unit and switch on power and make the nuisance of sorbing material electrode adsorption band ion by electricity, by controlling power supply, change electricity and inhale the polarity of the sorbing material electrode that desorbs unit and desorb nuisance on the sorbing material electrode; This first electrolytic system desorbs the system connection with being connected to inhale.
2. a kind of automatically cleaning electro-adsorption water-purification plant according to claim 1, it is characterized in that: this electricity suction desorbs unit and comprises the first electrode and the second electrode, this second electrode and the first electrode space, this sorbing material electrode are located between the first electrode and the second electrode; This first electrode and the second electrode be an electric utmost point that connects power supply all, and this sorbing material electrode electricity connects another utmost point of power supply.
3. a kind of automatically cleaning electro-adsorption water-purification plant according to claim 2 is characterized in that: this electricity inhales that to desorb the unit number be two, and this two electricity is inhaled and desorbed that unit switches on power and two electricity are inhaled the sorbing material electrode band Different electrodes that desorb in unit.
4. a kind of automatically cleaning electro-adsorption water-purification plant according to claim 3, it is characterized in that: this electricity is inhaled and is desorbed the shell that unit comprises hollow cylinder and surrounds hollow cylinder, this first electrode connects hollow cylinder, this the second electrode connected with outer casing, this the second electrodes surrounding first electrode, this hollow cylinder and shell are all established the current port, and current flow into after the sorbing material electrode and flow out from another current port from a current port.
5. a kind of automatically cleaning electro-adsorption water-purification plant according to claim 4, it is characterized in that: this first electrolytic system also comprises the first container of interior formation first cavity, this first container is established the first water-in and one first water outlet of connecting the first cavity, and this first electrode group is inserted in the first cavity; The first water outlet of this first container and an electricity are inhaled a current port connection that desorbs unit, and this electric suction desorbs another current port of unit and the current port connection that another electricity suction desorbs unit.
6. according to claim 1 and 2 or 3 or 4 or 5 described a kind of automatically cleaning electro-adsorption water-purification plants is characterized in that:
Also comprise strainer, this strainer connects electricity and inhales the system that desorbs.
7. according to claim 1 and 2 or 3 or 4 or 5 described a kind of automatically cleaning electro-adsorption water-purification plants, it is characterized in that: also comprise the second electrolytic system, this second electrolytic system comprises the second electrode group, this the second electrode group comprises second anodal and the second negative pole, and this second electrolytic system connects electricity and inhales the system that desorbs.
8. according to claim 1 and 2 or 3 or 4 or 5 described a kind of automatically cleaning electro-adsorption water-purification plants, is characterized in that: also comprise primary filter, this primary filter connection first electrolytic system.
9. according to claim 1 and 2 or 3 or 4 or 5 described a kind of automatically cleaning electro-adsorption water-purification plants, it is characterized in that: also comprise an outlet terminal and a water shoot, this electricity suction desorbs system and has a water outlet, this water outlet is divided into two minutes water routes, outlet terminal can be connected in this minute water route, this another minute water route connection water shoot, open and close valve is all established in this two minutes water routes.
10. a kind of automatically cleaning electro-adsorption water-purification plant according to claim 9, is characterized in that: also comprise controller and power supply, this power supply connection controller, this controller connection first electrolytic system and the electric system that desorbs of inhaling; This outlet terminal place establishes water sensor, and this water sensor connects controller.
CN2013203121901U 2013-05-31 2013-05-31 Self-cleaning electric adsorption water purification device Active CN203284279U (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105217744A (en) * 2015-09-17 2016-01-06 大连理工大学 A kind of cylindrical electro-adsorption filtration unit using activated carbon fiber as electro-adsorption material

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105217744A (en) * 2015-09-17 2016-01-06 大连理工大学 A kind of cylindrical electro-adsorption filtration unit using activated carbon fiber as electro-adsorption material

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