CN101519252A - Graded electrolyzed oxidizing water generation system - Google Patents

Abstract

The invention relates to a graded electrolyzed oxidizing water generation system which comprises two grade electrolytic bath devices or more grade electrolytic bath devices, wherein each grade electrolytic bath device comprises an electrolytic bath; the electrolytic bath comprises a main water inlet opening, a main acidic water outlet and a main alkaline water outlet; the main acidic water outlet of the electrolytic bath of the previous-grade electrolytic bath device is communicated with the main water inlet opening of the electrolytic bath of the next-grade electrolytic bath device; and the main acidic water outlet of the electrolytic bath of the final-grade electrolytic bath device is used for discharging. Compared with the prior art, the graded electrolyzed oxidizing water generation system adopts the grading mode, enables the acidic water produced by the previous-grade electrolytic bath device to be delivered to the next-grade electrolytic bath device and can effectively reduce the pH value of the produced electrolyzed oxidizing water to be less than 1.3.

Description

Graded electrolyzed oxidizing water generation system

Technical field

The present invention relates to acidic oxidized electric potential water and generate equipment, particularly the electrolyzed oxidizing water generation system of low pH value.

Background technology

Electrolyzer is key part and the core component that generates acidic oxidized electric potential water equipment, its principle of work mainly is to utilize electrolytic reaction, after tap water after softening and the mixing of a certain proportion of analytical pure NaCL solution, in containing the electrolyzer of ion-exchange membrane, carry out electrolysis by special platinum titanium alloy electrode.Wherein the water that comes out from anode one side is acidic oxidized electric potential water, because of it can be by low pH value, the acting in conjunction of high redox potential and available chlorine, the living environment of destroy microorganisms, the permeability of enhancing cytolemma, cause cellular swelling, the inner metabolism enzyme is destroyed, thereby makes microorganism dead rapidly, so acidic oxidized electric potential water has sterilization, simultaneously its have that sterilization speed is fast, wide spectrum, safe and reliable, do not stay advantages such as residual hazard, environmental protection.

Present electrolytic cell equipment is the single-group type electrolyzer, equipment is simpler and cruder, a kind of " the acidic oxidized electric potential water thimerosal generates electrolyzer " disclosed as CN2721615Y, this electrolyzer comprises two pressing plates, a plurality of unit groove that is arranged side by side, pressing plate, unit groove are arranged side by side, and unit groove clamps and is arranged between two pressing plates; Each unit groove is formed by the pole plate that is arranged side by side, ionic membrane, dividing plate, is provided with sour water water channel, alkaline water water channel between pole plate, ionic membrane, the dividing plate; Each unit groove all is provided with a water-in, a sour water water outlet, an alkaline water water outlet; Water-in is by sour water water channel and sour water water outlet UNICOM, and water-in is by alkaline water water channel and alkaline water water outlet UNICOM; The water-in of each unit groove is UNICOM mutually, and the sour water water outlet of each unit groove is UNICOM mutually, and the alkaline water water outlet of each unit groove is UNICOM mutually.This electrolyzer also comprises total water inlet, the total water outlet of sour water, the total water outlet of alkaline water, total water inlet, the total water outlet of sour water, the total water outlet of alkaline water are arranged on the pressing plate, the water-in UNICOM of total water inlet and unit groove, the sour water water outlet UNICOM of total water outlet of sour water and unit groove, the alkaline water water outlet UNICOM of total water outlet of alkaline water and unit groove.

Though above-mentioned electrolyzer can generate acidic oxidized electric potential water, the pH value of the acidic oxidized electric potential water of its generation can only reach about 3.0, because the pH value is higher, has limited the use field and the use range of acidic oxidized electric potential water.

Summary of the invention

Technical problem to be solved by this invention is: a kind of graded electrolyzed oxidizing water generation system is provided, and this system can effectively reduce the pH value that generates acidic oxidized electric potential water.

The present invention solves the problems of the technologies described above the technical scheme that is adopted:

Graded electrolyzed oxidizing water generation system, it comprises two-stage or the above electrolytic cell equipment of two-stage, electrolytic cell equipments at different levels include electrolyzer; Electrolyzer comprises total water inlet, the total water outlet of sour water, the total water outlet of alkaline water; The total water outlet of electrolyzer sour water of upper level electrolytic cell equipment and the electrolyzer total water inlet UNICOM of next stage electrolytic cell equipment; The total water outlet output of the electrolyzer sour water of final stage electrolytic cell equipment.

In the such scheme, electrolytic cell equipments at different levels all also comprise water inlet pipe, sour water rising pipe; The total water inlet UNICOM of water inlet pipe and electrolyzer, the total water outlet of the sour water of sour water rising pipe and electrolyzer UNICOM; The sour water rising pipe of upper level electrolytic cell equipment and the water inlet pipe UNICOM of next stage electrolytic cell equipment; The sour water rising pipe output of final stage electrolytic cell equipment.

In the such scheme, electrolytic cell equipments at different levels comprise two or more electrolyzers, and each electrolyzer also is listed between water inlet pipe, the sour water rising pipe.

In the such scheme, be provided with acid water tank between the sour water rising pipe of upper level electrolytic cell equipment and the water inlet pipe of next stage electrolytic cell equipment, the sour water rising pipe of upper level electrolytic cell equipment is by the water inlet pipe UNICOM of acid water tank and next stage electrolytic cell equipment.

In the such scheme, at least one is electrolytic bath for grouped electrolyzed oxidizing water generator in the described electrolyzer, and the packet type acidic oxidized electric potential water generates electrolyzer and comprises two pressing plates, two groups or more unit groove group, channel plate; Pressing plate, unit groove group, channel plate are arranged side by side, and unit groove group, channel plate clamp and be arranged between two pressing plates, and channel plate is arranged between the adjacent unit groove group;

Each unit groove group comprises a plurality of unit grooves that are arranged side by side, and each unit groove is formed by the pole plate that is arranged side by side, ionic membrane, dividing plate, is provided with sour water water channel, alkaline water water channel between pole plate, ionic membrane, the dividing plate;

Each unit groove all is provided with first water-in, second water-in, sour water water outlet, alkaline water water outlet; First water-in is by sour water water channel and sour water water outlet UNICOM, and second water-in is by alkaline water water channel and alkaline water water outlet UNICOM;

In every group of unit groove group, first water-in of each unit groove is UNICOM mutually, and second water-in of each unit groove is UNICOM mutually, and the sour water water outlet of each unit groove is UNICOM mutually, and the alkaline water water outlet of each unit groove is UNICOM mutually;

Channel plate has first water channel, second water channel; First water channel will be gone up in one group of unit groove group the first water-in UNICOM in sour water water outlet and next the group unit groove group; Second water channel will be gone up the second water-in UNICOM in one group of unit groove group neutral and alkali water water outlet and next the group unit groove group.

In the such scheme, in each unit groove group, the connection terminal of alternate pole plate links to each other, adjacent pole plate polarity difference.

In the such scheme, total water inlet be arranged on the pressing plate and with adjacent cells groove group in first water-in, the second water-in UNICOM of unit groove; The total water outlet of sour water, the total water outlet of alkaline water are arranged on another pressing plate, the sour water water outlet UNICOM of unit groove in total water outlet of sour water and the adjacent cells groove group, the alkaline water water outlet UNICOM of unit groove in total water outlet of alkaline water and the adjacent cells groove group.

Compared with prior art, the advantage of graded electrolyzed oxidizing water generation system of the present invention is:

1, adopt the fractionated mode, the sour water that the upper level electrolytic cell equipment generates is sent into the next stage electrolytic cell equipment, can effectively reduce the pH value that generates acidic oxidized electric potential water, the pH value that system of the present invention generates acidic oxidized electric potential water can reach below 1.3.

2, in the system, the sour water rising pipe of upper level electrolytic cell equipment and the water inlet pipe UNICOM of next stage electrolytic cell equipment; The sour water rising pipe output of final stage electrolytic cell equipment.Each electrolyzer also is listed between water inlet pipe, the sour water rising pipe.Be provided with acid water tank between the sour water rising pipe of upper level electrolytic cell equipment and the water inlet pipe of next stage electrolytic cell equipment, the sour water rising pipe of upper level electrolytic cell equipment is by the water inlet pipe UNICOM of acid water tank and next stage electrolytic cell equipment.System architecture is simple, and control is convenient.

3, because the water treatment amount of system front end one-level or what electrolytic cell equipment is big, the acidic oxidized electric potential water growing amount that needs to increase the quantity of electrolyzer or improve single electrolyzer.At least one is electrolytic bath for grouped electrolyzed oxidizing water generator in the electrolyzer of system of the present invention, electrolytic bath for grouped electrolyzed oxidizing water generator comprises two groups or more unit groove group, each unit groove group comprises a plurality of unit grooves that are arranged side by side, each unit groove can be powered respectively by power supply separately, convenient control to power supply, therefore, can improve the acidic oxidized electric potential water growing amount by the mode that rolls up unit groove, and not influence the quality that generates acidic oxidized electric potential water.

4, electrolytic bath for grouped electrolyzed oxidizing water generator combination, assembling easily, electrolyzer is easy to maintenance, can be combined into the electrolyzer of all size as required, is easy to design, have the construction cycle short, save cost, advantage such as raise the efficiency.

5, in each unit groove group, the connection terminal of alternate pole plate links to each other, and the power supply of powering for pole plate is respectively each unit groove group power supply.

6, electrolyzer also comprises total water inlet, the total water outlet of sour water, the total water outlet of alkaline water, and total water inlet is arranged on the pressing plate, and the total water outlet of sour water, the total water outlet of alkaline water are arranged on another pressing plate, makes that the pipeline in the electrolyzer is simple, easily produces.

Description of drawings

Fig. 1 is the structured flowchart of system embodiment 1 of the present invention

Fig. 2 is the structured flowchart of system embodiment 2 of the present invention

Fig. 3 is the structural representation of system embodiment 2 of the present invention

Fig. 4 is the structural representation of electrolytic bath for grouped electrolyzed oxidizing water generator

Fig. 5 analyses and observe the local structure synoptic diagram for A-A of Fig. 4

Fig. 6 is the structural representation of two butt joint dividing plates

Fig. 7 is the structural representation of ionic membrane

Fig. 8 is the structural representation of pole plate and dividing plate combination

Fig. 9 is the structural representation of channel plate

Figure 10 is B-B sectional view of Fig. 9

Figure 11 is the structural representation of another kind of electrolytic bath for grouped electrolyzed oxidizing water generator

Figure 12 generates the structural representation of electrolyzer for the single-group type acidic oxidized electric potential water

Among the figure: 1-pressing plate, 101-total water inlet, the total water outlet of 102-sour water, the total water outlet of 103-alkaline water, 2-unit groove, 201-pole plate, 202-ionic membrane, 203-dividing plate, 204-sour water water channel, 205-alkaline water water channel, 3-the first water-in, 4-the second water-in, 5-sour water water outlet, 6-alkaline water water outlet, 7-channel plate, 701-the first water channel, 702-the second water channel, 8-unit groove group, 9-connection terminal, 10-bolt.

Embodiment

The present invention is described in further detail below in conjunction with the drawings and specific embodiments:

Graded electrolyzed oxidizing water generation system embodiment 1 of the present invention as shown in Figure 1, it comprises three grades electrolytic cell equipment, electrolytic cell equipments at different levels include electrolyzer; Electrolyzer comprises total water inlet 101, the total water outlet 102 of sour water, the total water outlet 103 of alkaline water; Electrolyzer total water inlet 101 UNICOMs of total water outlet 102 of the electrolyzer sour water of upper level electrolytic cell equipment and next stage electrolytic cell equipment; Total water outlet 102 outputs of the electrolyzer sour water of final stage electrolytic cell equipment.

The electrolyzer of first step electrolytic cell equipment adopts electrolytic bath for grouped electrolyzed oxidizing water generator (three groups of formulas), and its structure as shown in figure 11; The electrolyzer of second stage electrolytic cell equipment adopts electrolytic bath for grouped electrolyzed oxidizing water generator (two groups of formulas), and its structure as shown in Figure 4; The electrolyzer of final stage electrolytic cell equipment adopts the single-group type electrolyzed oxidizing water generator to separate groove, and its structure as shown in figure 12.

The alkaline water that the total water outlet of above-mentioned each electrolyzer alkaline water 103 is discharged can stay use it for anything else or reclaim after utilize again.

Graded electrolyzed oxidizing water generation system embodiment 2 of the present invention as shown in Figure 2, it comprises three grades electrolytic cell equipment, electrolytic cell equipments at different levels include three electrolyzers, water inlet pipe, sour water rising pipe; Electrolyzer comprises total water inlet 101, the total water outlet 102 of sour water, the total water outlet 103 of alkaline water; Each electrolyzer also is listed between water inlet pipe, the sour water rising pipe, total water inlet 101 UNICOMs of water inlet pipe and electrolyzer, the total water outlet of the sour water of sour water rising pipe and electrolyzer 102 UNICOMs; The sour water rising pipe of upper level electrolytic cell equipment and the water inlet pipe UNICOM of next stage electrolytic cell equipment; The sour water rising pipe output of final stage electrolytic cell equipment.

Be provided with acid water tank between the sour water rising pipe of upper level electrolytic cell equipment and the water inlet pipe of next stage electrolytic cell equipment, the sour water rising pipe of upper level electrolytic cell equipment is by the water inlet pipe UNICOM of acid water tank and next stage electrolytic cell equipment.

Graded electrolyzed oxidizing water generation system embodiment 2 of the present invention as shown in Figure 3 also is provided with some magnetic valves that are used for Controlling System work, volume pump, water tap, pump, water flow switch etc. on the pipeline.

Totally six electrolyzers of first step electrolytic cell equipment all adopt the packet type acidic oxidized electric potential water to generate electrolyzer (four groups of formulas); Totally three electrolyzers of second stage electrolytic cell equipment all adopt the packet type acidic oxidized electric potential water to generate electrolyzer (four groups of formulas); Totally three electrolyzers of final stage electrolytic cell equipment all adopt the packet type acidic oxidized electric potential water to generate electrolyzer (three groups of formulas).

The workflow of graded electrolyzed oxidizing water generation system embodiment 2 of the present invention is:

1, control section magnetic valve, volume pump switching, the electric tank working in the control first step generates sour water, and sour water flows into the acid water tank between the first step and the second stage, and the alkaline water of generation utilizes after flowing into alkaline-water box or recovery again.

When 2, the acid water tank between the first step and the second stage was to median water level, the electric tank working in the control second stage generated than strong oxidized water, flows into the acid water tank between the second stage and the final stage; The total water outlet of electrolyzer alkaline water is discharged weakly acidic water and is discharged as the raffinate mouth.

When 3, the acid water tank between the second stage and the final stage is expired to median water level, the electric tank working in the control final stage, the total water outlet output of electrolyzer sour water strongly-acid acidic oxidized electric potential water utilizes after the total water outlet discharge of electrolyzer alkaline water weakly acidic water is recyclable again.

About 20 minutes of above-mentioned whole process.

Graded electrolyzed oxidizing water generation system embodiment 2 of the present invention also has automatic washing function, can open and close by the magnetic valve on the pilot piping, with the big flow flushing of wash-down water electrolyzer; General one minute forward and reverse flushing electrolyzer once, wash-down water is recyclable to be utilized again.

Graded electrolyzed oxidizing water generation system embodiment 2 of the present invention also has the current measuring ability, and when the part water flow switch detects when anhydrous, system can stop to make water automatically.

When acid water tank is expired to high-water, can drive the outer water storage box of water pump oxytropism water tank and draw water; When the water in the acid water tank during to low-water level, water pump stops automatically.

When acid water tank was expired to high-water, system can stop to make water automatically.

Three groups of formula electrolyzed oxidizing water generators are as shown in Figure 4 separated groove, and it comprises two pressing plates 1, two groups of unit groove groups 8, a channel plate 7; Pressing plate 1, unit groove group 8, channel plate 7 are arranged side by side, and two pressing plates 1 clamp unit groove group 8, channel plate 7 to be arranged between two pressing plates 1 by bolt 10, and channel plate 7 is arranged between the adjacent unit groove group 8.Each unit groove group 8 comprises a plurality of unit grooves that are arranged side by side 2.

As shown in Figure 5, each unit groove 2 is formed by the pole plate 201 that is arranged side by side, ionic membrane 202, dividing plate 203, is provided with sour water water channel 204, alkaline water water channel 205 between pole plate 201, ionic membrane 202, the dividing plate 203;

All be provided with first water-in 3, second water-in 4, sour water water outlet 5, alkaline water water outlet 6 as Fig. 6,7,8 each unit groove 2; First water-in 3 is by sour water water channel 204 and sour water water outlet 5 UNICOMs, and second water-in 4 is by alkaline water water channel 205 and alkaline water water outlet 6 UNICOMs;

In every group of unit groove group 8, first water-in 3 of each unit groove 2 is UNICOM mutually, and second water-in 4 of each unit groove 2 is UNICOM mutually, and the sour water water outlet 5 of each unit groove 2 is UNICOM mutually, and the alkaline water water outlet 6 of each unit groove 2 is UNICOM mutually;

Shown in Fig. 9,10, channel plate 7 has first water channel 701, second water channel 702; First water channel 701 will be gone up in one group of unit groove group 8 first water-in, 3 UNICOMs in sour water water outlet 5 and next group unit groove group 8; Second water channel 702 will be gone up one group of unit groove group, 8 neutral and alkali water water outlets 6 and organize second water-in, 4 UNICOMs in unit groove group 8 with next.

As shown in Figure 4, above-mentioned electrolytic bath for grouped electrolyzed oxidizing water generator also comprises total water inlet 101, the total water outlet 102 of sour water, the total water outlet 103 of alkaline water, total water inlet 101 be arranged on the pressing plate 1 and with adjacent cells groove group 8 in first water-in 3, second water-in, 4 UNICOMs of unit groove 2; The total water outlet 102 of sour water, the total water outlet 103 of alkaline water are arranged on another pressing plate 1, sour water water outlet 5 UNICOMs of unit groove 2 in total water outlet 102 of sour water and the adjacent cells groove group 8, alkaline water water outlet 6 UNICOMs of unit groove 2 in total water outlet 103 of alkaline water and the adjacent cells groove group 8.

Another kind of electrolytic bath for grouped electrolyzed oxidizing water generator as shown in figure 11, it comprises two pressing plates 1, three groups of unit groove groups 8, two channel plates 7; Pressing plate 1, unit groove group 8, channel plate 7 are arranged side by side, and two pressing plates 1 clamp unit groove group 8, channel plate 7 to be arranged between two pressing plates 1 by bolt 10, and two channel plates 7 are separately positioned between the adjacent unit groove group 8.Each unit groove group 8 comprises a plurality of unit grooves that are arranged side by side 2.

When above-mentioned electrolytic bath for grouped electrolyzed oxidizing water generator used, in each unit groove group 8, the connection terminal 9 of alternate pole plate 201 linked to each other, adjacent pole plate 201 polarity differences, and the power supply of powering for pole plate is respectively each unit groove group power supply.

Claims (7)

1, graded electrolyzed oxidizing water generation system is characterized in that: it comprises two-stage or the above electrolytic cell equipment of two-stage, and electrolytic cell equipments at different levels include electrolyzer; Electrolyzer comprises total water inlet (101), the total water outlet of sour water (102), the total water outlet of alkaline water (103); Electrolyzer total water inlet (101) UNICOM of the total water outlet of electrolyzer sour water (102) of upper level electrolytic cell equipment and next stage electrolytic cell equipment; The total water outlet of electrolyzer sour water (102) output of final stage electrolytic cell equipment.

2, graded electrolyzed oxidizing water generation system as claimed in claim 1 is characterized in that: electrolytic cell equipments at different levels all also comprise water inlet pipe, sour water rising pipe; The total water inlet of water inlet pipe and electrolyzer (101) UNICOM, the total water outlet of the sour water of sour water rising pipe and electrolyzer (102) UNICOM; The sour water rising pipe of upper level electrolytic cell equipment and the water inlet pipe UNICOM of next stage electrolytic cell equipment; The sour water rising pipe output of final stage electrolytic cell equipment.

3, graded electrolyzed oxidizing water generation system as claimed in claim 2 is characterized in that: electrolytic cell equipments at different levels comprise two or more electrolyzers, and each electrolyzer also is listed between water inlet pipe, the sour water rising pipe.

4, graded electrolyzed oxidizing water generation system as claimed in claim 2, it is characterized in that: be provided with acid water tank between the sour water rising pipe of upper level electrolytic cell equipment and the water inlet pipe of next stage electrolytic cell equipment, the sour water rising pipe of upper level electrolytic cell equipment is by the water inlet pipe UNICOM of acid water tank and next stage electrolytic cell equipment.

5, graded electrolyzed oxidizing water generation system as claimed in claim 1, it is characterized in that: at least one is electrolytic bath for grouped electrolyzed oxidizing water generator in the described electrolyzer, and electrolytic bath for grouped electrolyzed oxidizing water generator comprises two pressing plates (1), two groups or more unit groove group (8), channel plate (7); Pressing plate (1), unit groove group (8), channel plate (7) are arranged side by side, and unit groove group (8), channel plate (7) clamp and be arranged between two pressing plates (1), and channel plate (7) is arranged between the adjacent unit groove group (8);

Each unit groove group (8) comprises a plurality of unit grooves that are arranged side by side (2), each unit groove (2) is formed by the pole plate that is arranged side by side (201), ionic membrane (202), dividing plate (203), is provided with sour water water channel (204), alkaline water water channel (205) between pole plate (201), ionic membrane (202), the dividing plate (203);

Each unit groove (2) all is provided with first water-in (3), second water-in (4), sour water water outlet (5), alkaline water water outlet (6); First water-in (3) is by sour water water channel (204) and sour water water outlet (5) UNICOM, and second water-in (4) is by alkaline water water channel (205) and alkaline water water outlet (6) UNICOM;

In every group of unit groove group (8), first water-in (3) of each unit groove (2) is UNICOM mutually, second water-in (4) of each unit groove (2) is UNICOM mutually, the sour water water outlet (5) of each unit groove (2) is UNICOM mutually, and the alkaline water water outlet (6) of each unit groove (2) is UNICOM mutually;

Channel plate (7) has first water channel (701), second water channel (702); First water channel (701) will be gone up the middle sour water water outlet (5) of one group of unit groove group (8) and organize first water-in (3) UNICOM in unit groove group (8) with next; Second water channel (702) will be gone up one group of unit groove group (8) neutral and alkali water water outlet (6) and organize second water-in (4) UNICOM in unit groove group (8) with next.

6, graded electrolyzed oxidizing water generation system as claimed in claim 5 is characterized in that: in each unit groove group (8), the connection terminal (9) of alternate pole plate (201) links to each other, adjacent pole plate (201) polarity difference.

7, graded electrolyzed oxidizing water generation system as claimed in claim 5 is characterized in that: total water inlet (101) be arranged on that a pressing plate (1) is gone up and with adjacent cells groove group (8) in first water-in (3), second water-in (4) UNICOM of unit groove (2); The total water outlet of sour water (102), the total water outlet of alkaline water (103) are arranged on another pressing plate (1), sour water water outlet (5) UNICOM of unit groove (2) in total water outlet of sour water (102) and the adjacent cells groove group (8), alkaline water water outlet (6) UNICOM of unit groove (2) in total water outlet of alkaline water (103) and the adjacent cells groove group (8).

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