CN115947421A - Acidic oxidation potential water generator and preparation method thereof - Google Patents

Abstract

The invention relates to an acidic oxidation potential water generator and a preparation method thereof, wherein the acidic oxidation potential water generator comprises a brine neutralization structure, the brine neutralization structure is used for modulating saturated salt water, the saturated salt water is introduced into a transfer structure to form electrolyte, the electrolyte can be electrolyzed by four groups of electrolytic cell assemblies and the water yield of the electrolysis is increased, a disinfection water pipe and a waste water pipe are led out of the electrolytic cell assemblies, and the brine neutralization structure and the electrolytic discharge process of the electrolytic assemblies are intelligently controlled by installing a plurality of sensors; ORP is more than 1100 mV; 50-70mg/L of available chlorine.

Description

Acidic oxidation potential water generator and preparation method thereof

Technical Field

The invention relates to the technical field of a potential water generator, in particular to an acidic oxidation potential water generator and a preparation method thereof.

Background

People also pay great attention to disinfection indoors. The sterilized products are various, and a sterilized water called acidic oxidation potential water is more and more accepted by the public by virtue of the advantages of safety, health, no pollution and the like. However, the disinfectant water has the disadvantages of being volatile and not easy to store, and is preferably prepared for use at present, so that more and more domestic commercial electrolyzed oxidizing water generators for acidic oxidizing water are natural.

The acid oxidation potential water generators visible in the market at present are various in types and different in functions, the defects of the generators are that most of the generators use special electrolyte, the special consumable material causes high use cost of users, is limited by electrolytic capacity, has small water yield which is generally 20-60L/h, is mostly non-intelligently controlled, does not have sensor detection, cannot ensure the quality of generated sterilized water, does not meet the requirements of national sterilization technical specifications, and can self-determine the physical and chemical indexes of the sterilized water.

Therefore, it is necessary to provide an electrolyzed oxidizing water generator and a method for manufacturing the same to solve the deficiencies of the prior art.

Disclosure of Invention

The invention aims to avoid the defects of the prior art and provide an electrolyzed oxidizing water generator and a preparation method thereof. A plurality of selectable water outlet flow rates (1L, 2L, 3L and 4L) are configured on the electrolytic cell, the highest water outlet flow rate can reach 4L/min, the raw materials used in the salt box are pure water and edible salt, the pure water and the edible salt are common and easy to obtain, specific consumables are not needed, a pressure switch system circuit board is designed in the salt box, a user side starts to use, the system starts to work, the user side stops using, the system automatically stops working, and the product of the generator strictly meets the physicochemical index of the national standard, namely PH2-3; ORP is more than 1100 mV; 50-70mg/L of available chlorine.

The above object of the present invention is achieved by the following technical means.

The utility model provides a rubbish preprocessing device that msw incineration used, including salt solution neutralization structure, salt solution neutralization structure is inside to add edible salt and the pure water is modulated into saturated salt solution with the pure water, leading-in to transfer structure formation electrolyte after the preparation of saturated salt solution, electrolyte carries out electrolysis treatment and promotes the electrolysis water yield through four group's electrolysis trough subassemblies, it has disinfection water pipe and waste water pipe to derive in the electrolysis trough subassembly, disinfection water pipe end is installed tap and is controlled the use, waste water pipe carries out waste water discharge after the electrolysis, salt solution neutralization structure carries out intelligent control through installing a plurality of sensors with electrolysis subassembly electrolysis discharge process, a plurality of sensors produce real-time data and show on the display screen, realize real-time human-computer interaction.

Specifically, the salt water neutralizing structure comprises a pure water pipe, the interior of the pure water pipe is filtered through an external pure water machine to generate pure water, a booster pump is installed on the pure water pipe, the booster pump pumps the pure water from the pure water pipe in a boosting mode, a pressure reducing valve and a water inlet valve are installed on the pure water pipe after the pure water pipe is boosted through the booster pump to control the flow rate of the pure water pipe, a salt box branch pipe is separated from the pure water pipe, a salt box water inlet valve is installed on the salt box branch pipe, the salt box branch pipe is connected to a salt box, a salt tank is arranged inside the salt tank, edible salt is added inside the salt tank, filter screens are installed on two sides of the salt tank, the edible salt and the pure water are diluted through the filter screens in the salt tank to generate saturated salt water, a peristaltic pump is installed inside the salt tank to pump the saturated salt water, and the salt water outlet pipe is connected to the peristaltic pump to guide the saturated salt water into the transit structure.

Specifically, the transfer structure comprises a check valve, the check valve is arranged between the brine outlet pipe and the pure water pipe to prevent backflow of saturated salt water and the pure water pipe, an electrolyte pipe is connected between the brine outlet pipe and the pure water pipe after neutralization, a high-voltage switch is arranged on the electrolyte pipe, and the electrolyte is introduced into the electrolytic cell component by the high-voltage switch.

Specifically, the electrolytic cell assembly comprises an electrolytic cell and an N66 ionic membrane, wherein positive and negative electrodes adopt ruthenium-platinum alloy electrode plates, an ABS shell is arranged outside the electrolytic cell, an electrolytic circuit board is correspondingly arranged on the back of the electrolytic cell, the electrolytic circuit board is connected with a power supply board, the electrolytic circuit board is electrified through the power supply board, and the ruthenium-platinum alloy electrode plates on the electrolytic cell electrolyze electrolyte entering the electrolytic cell.

Specifically, a plurality of sensors include the level sensor of a salt case, two TDS sensors, raw water TDS sensor and salt solution TDS sensor, salt case level sensor installs in the salt case, guarantee the water level supply of salt incasement to obtain saturated salt solution, raw water TDS sensor installs on the pure water pipe between water intaking valve and the salt case water intaking valve, detect the interior pure water quality of main line, salt solution TDS sensor installs on the electrolyte pipe between high-voltage switch and electrolysis trough subassembly, detect the electrolyte before the electrolysis.

Specifically, a flowmeter for measuring the flow rate of the disinfection water is installed on the disinfection water pipe, and a PH/ORP tester is installed at one end of the flowmeter.

Specifically, a flushing pipe is arranged between the disinfection water pipe and the waste water pipe, a flushing electromagnetic valve is arranged on the flushing pipe, the flushing electromagnetic valve is opened, and the cleaned water is uniformly discharged into the waste water pipe.

S1, converting external tap water into pure water through an external water purifier, introducing the pure water into a pure water pipe through a booster pump, adjusting the pressure of the pure water in the pure water pipe through a pressure reducing valve, introducing the pure water qualified through pure water detection into a salt tank through opening a water inlet valve and a salt tank water inlet valve in a grading manner, detecting the water level of the salt tank in real time in the salt tank, and adding edible salt into the salt tank to be mixed with the introduced pure water to generate saturated salt water.

And S2, pumping out the saturated salt water from the salt box by starting a peristaltic pump, and preventing backflow through a check valve, wherein the saturated salt water is mixed with pure water in the pure water pipe to generate electrolyte.

And S3, leading the qualified electrolyte into an electrolytic cell through a high-voltage switch arranged on an electrolyte pipe, electrolyzing the qualified electrolyte through positive and negative ruthenium-platinum alloy electrode plates, electrolyzing the electrolyte to generate waste liquid and acidic oxidation potential water, enabling the generated waste liquid and the acidic oxidation potential water to flow out through the waste liquid pipe arranged on the electrolytic cell and a disinfection water pipe respectively, starting a faucet arranged on the disinfection water pipe to obtain the acidic oxidation potential water, and cleaning the electrolytic cell, the waste water pipe and the disinfection water pipe after use.

In the step S1, a raw water TDS sensor for detecting pure water is arranged on a pure water pipe between a water inlet valve and a salt tank water inlet valve, the raw water TDS sensor detects a TDS value of raw water, when the TDS value is less than 100, the raw water in the pure water pipe is pure water, and if the TDS value is more than or equal to 100, the raw water is abnormal in TDS, the raw water is non-pure water;

in the step S1, the salt tank water level sensor is installed in the salt tank for real-time detection, when the water level reaches a low water level line, the water inlet valve of the salt tank is opened by the system program control to supply pure water to the salt tank, and when the water level reaches a high water level line, the water inlet valve of the salt tank is closed by the system program control to stop supplying the pure water to the salt tank.

The cleaning treatment in the preparation method of the acidic potential water comprises the manual reverse-pole cleaning of an electrolytic tank, an anode ruthenium platinum alloy electrode plate in the electrolytic tank and a cathode of a power supply end can be manually connected during cleaning, otherwise, the anode ruthenium platinum alloy electrode plate is connected with an anode of the power supply end, so that acidic water generated by electrolysis of electrolyte entering the electrolytic tank exchanges with alkaline water, acid-base neutralization reaction is carried out inside the electrolytic tank, the electrolytic tank is cleaned, after the exchanged acidic water and the alkaline water flow into a waste water pipe and a disinfection water pipe, a water tap is closed to prevent the disinfection water pipe from discharging water, a flushing electromagnetic valve installed on a flushing pipe is controlled to be opened, and water entering an acid water pipeline of the electrolytic tank and water of an alkaline water pipeline are discharged together through the waste water pipe.

The invention designs the components with detection structures, wherein the components comprise TDS detection, PH detection, OPR detection, effluent flow detection and salt tank water level detection. A plurality of selectable water outlet flow rates (1L, 2L, 3L and 4L) are configured on the electrolytic cell, the highest water outlet flow rate can reach 4L/min, the raw materials used in the salt box are pure water and edible salt, the pure water and the edible salt are common and easy to obtain, specific consumables are not needed, a pressure switch system circuit board is designed in the salt box, a user side starts to use, the system starts to work, the user side stops using, the system automatically stops working, and the product of the generator strictly meets the physicochemical index of the national standard, namely PH2-3; ORP is above 1100 mV; 50-70mg/L of available chlorine.

Drawings

The invention is further illustrated by means of the attached drawings, the content of which is not in any way limiting.

FIG. 1 is a front exploded view of an electrolyzed oxidizing water generator and a method for manufacturing the same according to the present invention.

FIG. 2 is a front plan view of an electrolyzed oxidizing water generator and a method for manufacturing the same according to the present invention.

FIG. 3 is a back plan view of an electrolyzed oxidizing water generator and a method for manufacturing the same according to the present invention.

FIG. 4 is a schematic diagram of the internal piping of an electrolyzed oxidizing water generator and a method for manufacturing the same according to the present invention.

From fig. 1 to 4, the method includes:

1. a brine neutralizing structure;

2. edible salt;

3. pure water;

4. saturated salt water;

5. a transfer structure;

6. an electrolyte;

7. an electrolyzer assembly;

8. disinfecting the water pipe;

9. a waste pipe;

10. a faucet;

11. a pure water pipe;

12. an external water purification machine;

13. a booster pump;

14. a pressure reducing valve;

15. a water inlet valve;

16. dividing the salt box into pipes;

17. a salt tank inlet valve;

18. a salt tank;

19. a filter screen;

20. a peristaltic pump;

21. a brine outlet pipe;

22. a check valve;

23. an electrolyte tube;

24. a high voltage switch;

25. an electrolytic cell;

26. an N66 ionic membrane;

27. a ruthenium platinum alloy electrode plate;

28. an ABS housing;

29. an electrolytic circuit board;

30. a power panel;

31. a salt tank water level sensor;

32. a raw water TDS sensor;

33. a saline TDS sensor;

34. a flow meter;

35. a flush tube;

36. flushing the electromagnetic valve;

37. PH/ORP tester.

Detailed Description

The invention is further described with reference to the following examples.

Example 1.

As shown in fig. 1-4, an acidic oxidation potential water generator and a preparation method thereof comprise a brine neutralization structure 1, edible salt 2 and pure water 3 are added into the brine neutralization structure 1 to be modulated into saturated brine 4, the saturated brine 4 is introduced into a transfer structure 5 after being prepared to form electrolyte 6, the electrolyte 6 is subjected to electrolytic treatment through four groups of electrolytic cell assemblies 7 and electrolytic water yield is increased, a disinfection water pipe 8 and a waste water pipe 9 are led out of the electrolytic cell assemblies 7, a faucet 10 is installed at the tail end of the disinfection water pipe 8 for controlling use, the waste water pipe 9 is subjected to waste water discharge after electrolysis, the electrolytic discharge processes of the brine neutralization structure 1 and the electrolytic assemblies are intelligently controlled by installing a plurality of sensors, real-time data generated by the plurality of sensors is displayed on a display screen, and real-time human-computer interaction is realized.

When the device is used, external tap water is converted into pure water 3 through an external water purifier 12 for use, the pure water 3 is introduced into the electrolyzed oxidizing water generator through a pure water pipe 11, and a special corresponding booster pump 13 is arranged according to the water outlet flow of the selected electrolyzed oxidizing water generator, so that the supply amount of the water inlet source of the electrolyzed oxidizing water generator in unit time is ensured.

Directly related to the index quality of the produced disinfectant water, the pure water 3 in the pure water pipe 11 is supplied to the inside of the electrolyzed oxidizing water generator by the supply action of the booster pump 13, the flow of the pure water 3 in the pure water pipe 11 is stabilized by the pressure reducing valve 14 with a physical structure, the flow of the pure water is controlled to be stabilized to the flow required by the electrolyzed oxidizing water generator, and when the pure water flows to the water inlet valve 15 in the pure water pipe 11, the pure water 3 enters the electrolyzed oxidizing water generator to start working by the water inlet valve 15 when the water inlet valve 15 is opened by program control.

The brine neutralization structure 1 comprises a pure water pipe 11, pure water 3 is generated by filtering the inside of the pure water pipe 11 through an external pure water machine 12, a booster pump 13 is installed on the pure water pipe 11, the pure water 3 is pumped into the pure water pipe 11 by the booster pump 13 under the action of force, and a pressure reducing valve 14 and a water inlet valve 15 are installed on the pure water pipe 11 after the pure water pipe 11 is boosted by the booster pump 13 to control the flow rate of the pure water pipe 11.

The division has salt case to be in charge of 16 on the pure water pipe 11, install salt case water intaking valve 1715 on the salt case is in charge of 16, salt case is in charge of 16 and is connected on the salt case, salt incasement portion is provided with salt tank 18, salt tank 18 is inside to have added edible salt 2, filter screen 19 is installed to salt tank 18 both sides, edible salt 2 and pure water 3 see through filter screen 19 and dilute production saturated salt solution 4 in salt tank 18, install peristaltic pump 20 in the salt case and pump saturated salt solution 4 out, peristaltic pump 20 is connected with salt solution outlet pipe 21 and imports into transfer structure 5 with saturated salt solution 4 with salt solution outlet pipe 21.

The salt box is a container for generating saturated salt water 4, edible salt 2 is added for the first time, the salt amount in the salt box can be frequently checked in the process or the system is in a salt shortage alarm state, proper edible salt 2 is added without exceeding the volume of the salt box, the added edible salt 2 and pure water 3 penetrate through the filter screen 19 in the salt tank 18 and are diluted with the pure water 3 entering the salt box to generate the saturated salt water 4, the prepared saturated salt water 4 is properly given out after the action and the stop of the peristaltic pump 20 controlled by a system program, and the pure water 3 in the pure water pipe 11 is mixed to provide electrolyte 6 with TDS of 800-1200.

Pure water 3 can pass through the detection of raw water TDS sensor before getting into the salt case in the preparation process of acid oxidation potential water generator, and the raw water TDS sensor detects the TDS value of raw water through this sensor, and when TDS value was less than 100, it is 3 to explain the raw water, can guarantee that the generater uses water, and if TDS value more than or equal to 100, this system's procedure was provided with "the raw water TDS is unusual" alarm function, and entire system stops work.

When the pure water 3 enters the salt tank, a salt tank water level sensor 31 is installed in the salt tank, when the water level reaches a low water level line, the system program controls to open a water inlet valve 15 of the salt tank to supply water to the salt tank, and when the water level reaches a high water level line, the system program controls to close the water inlet valve 15 of the salt tank to stop supplying the pure water 3 into the salt tank.

The transit structure 5 comprises a check valve 22, the check valve 22 is arranged between the brine outlet pipe 21 and the pure water pipe 11 to prevent backflow of the saturated saline 4 and the pure water pipe 11, an electrolyte pipe 23 is connected after the brine outlet pipe 21 and the pure water pipe 11 are neutralized, a high-voltage switch 24 is arranged on the electrolyte pipe 23, and the electrolyte 6 is introduced into the electrolytic cell assembly 7 by the high-voltage switch 24.

The electrolyte 6 is prevented from flowing back to the salt tank through the check valve 22 with a physical structure, the electrolyte 6 in the electrolyte pipe 23 is prevented from flowing back to the salt tank, the electrolyte pipe 23 is provided with a high-voltage switch 24, the high-voltage switch 24 is a pressure switch, and when a rear-end water path is opened, the switch is disconnected, and the system starts to work. When the rear water path is closed, the switch is closed, the power supply is cut off, and the system stops working, so that when the water outlet tap 10 of the electrolyzed oxidizing water generator is opened, the system starts working to prepare sterilized water, the water outlet tap 10 is closed, and the system automatically stops working.

The electrolytic cell assembly 7 comprises an electrolytic cell 25 and an N66 ionic membrane 26, wherein the positive electrode and the negative electrode adopt ruthenium platinum alloy electrode plates 27, the ABS shell 28 is arranged outside, the electrolytic circuit board 29 is correspondingly arranged on the back of the electrolytic cell 25, the electrolytic circuit board 29 is connected with a power supply board 30, the electrolytic circuit board 29 is electrified through the power supply board 30, and the ruthenium platinum alloy electrode plates 27 on the electrolytic cell 25 electrolyze the electrolyte 6 entering the electrolytic cell 25.

The electrolytic cell component 7 is used for electrolyzing after the electrolyte 6 enters, the electrolytic cell component 7 is a core element of an acidic oxidation potential water generator, the diaphragm type electrolytic device consists of a titanium platinum alloy electrode plate and an N ion membrane, the inside of the electrolytic cell component is divided into an acid cavity and a base cavity, the acid cavity is sterilized water (acidic oxidation potential water), the base cavity is waste water, and the shell is an anti-corrosion durable ABS shell 28 which can play a better protection role.

The electrolytic cell assembly 7 is divided into a cathode reaction and an anode reaction in the acid oxidation electrolysis preparation, and acid oxidation potential water mainly containing chlorine, hypochlorous acid, hypochlorite, hydrochloric acid, dissolved oxygen, ozone and the like is obtained at the anode.

The chlorine evolution reaction and the oxygen evolution reaction generated at the anode are shown as formulas 1-6:

2H ₂ O＝O2+4H ⁺ +4e … … formula 1

2 OH-2e=2OH … … formula 2

2OH＝(O)+H ₂ O … … formula 3

(O)+O ₂ ＝O ₃ … … formula 4

2Cl--2e＝Cl ₂ … … formula 5

Cl ₂ +H ₂ O = HOCl + HCl … … formula 6

The cathode reaction is mainly hydrogen evolution reaction, alkaline potential water is generated on the cathode side, the pH value is more than 11.0, the ORP value is less than minus 900mV, the main components are hydrogen and dilute sodium hydroxide solution, and the cleaning effect is very strong.

The cathode reaction is shown in equations 7 and 8:

2H ₂ O+2e＝H ₂ +2OH ^- … … formula 7

Na + + OH- = NaOH … … formula 8

The plurality of sensors include the level sensor of a salt case, two TDS sensors, raw water TDS sensor 32 and salt solution TDS sensor 33, salt case level sensor 31 installs in the salt case, guarantee the water level supply of salt incasement, thereby obtain saturated salt solution 4, raw water TDS sensor 32 is installed on the pure water pipe 11 between water intaking valve 15 and salt case water intaking valve 1715, detect the interior pure water 3 quality of main line, salt solution TDS sensor 33 is installed on electrolyte pipe 23 between high-voltage switch 24 and electrolysis cell subassembly 7, detect electrolyte 6 before the electrolysis.

Install saline TDS sensor 33 by high tension switch 24, detect the TDS value of the salt solution of mixing through saline TDS sensor 33, when the TDS value is between 800-1200, accord with the electrolysis demand, can directly supply to electrolysis cell subassembly 7 and carry out the electrolysis, if the TDS value is not in this interval, the procedure of this system is provided with "saline TDS is unusual" alarm function, entire system stop work.

A flow meter 34 for measuring the flow rate of the sterilizing water is installed on the sterilizing water pipe 8, and a PH/ORP meter 37 is installed at one end of the flow meter 34.

Electrolyte 6 which is electrolyzed in the electrolytic cell component 7 can be led out from the disinfection water pipe 8 and the waste water pipe 9, a meter for testing the water outlet flow is arranged on the disinfection water pipe 8, the meter can display the water outlet flow value on the display screen interface of the control system in real time, a PH/ORP tester 37 arranged beside the meter can test the physical and chemical indexes PH and ORP of the water outlet disinfection water in real time and display the physical and chemical indexes on the display screen in real time so as to be monitored, and the disinfection water which is qualified after detection can be directly discharged for use under the control of the water tap 10.

The waste water pipe 9 is provided with a waste water valve, the waste water valve in the invention is a normally closed electric valve, the pressure of a pipeline is ensured during standby, and the high-pressure switch 24 is closed. When the rear end water path is opened, the system starts to work, and simultaneously, the waste water valve is opened, and waste water generated by electrolysis of the electrolytic cell assembly 7 is drained.

A flushing pipe 35 is arranged between the disinfection water pipe 8 and the waste water pipe 9, a flushing electromagnetic valve 36 is arranged on the flushing pipe 35, the flushing electromagnetic valve 36 is opened, and the cleaned water is uniformly discharged into the waste water pipe 9.

When the electrolytic cell assembly 7 needs cleaning treatment, manual reverse electrode cleaning can be adopted, the water tap 10 is closed, the system controls the cleaning pipe to be washed, the washing electromagnetic valve 36 is opened, and water after cleaning is discharged from the waste water pipe 9.

The method for preparing the acidic oxidation potential water comprises the following specific steps:

s1, converting external tap water into pure water 3 through an external water purification machine 12, introducing the pure water 3 into a pure water pipe 11 through a booster pump 13, adjusting the pressure of the pure water 3 in the pure water pipe 11 through a pressure reducing valve 14, opening the pure water 3 qualified through detection of the pure water 3 into a salt tank through a water inlet valve 15 and a salt tank water inlet valve 17 in a grading manner, detecting the water level of the salt tank in real time, and adding edible salt 2 into a salt tank 18 to be mixed with the introduced pure water 3 to generate saturated salt water 4.

And S2, pumping out the saturated salt water from the salt tank by starting the peristaltic pump 20, and preventing backflow through a check valve, wherein the saturated salt water 4 is mixed with the pure water 3 in the pure water pipe 11 to generate the electrolyte 6.

And S3, the electrolyte 6 passes through a high-voltage switch 24 arranged on an electrolyte pipe 23, the qualified electrolyte 6 is guided into an electrolytic tank 25 and electrolyzed by positive and negative ruthenium-platinum alloy electrode plates 27, the electrolyte is electrolyzed to generate waste liquid and acidic oxidation potential water, the generated waste liquid and the acidic oxidation potential water respectively flow out through a waste liquid pipe 9 and a disinfection water pipe 8 arranged on the electrolytic tank 25, a faucet 10 arranged on the disinfection water pipe is opened to obtain the acidic oxidation potential water, and the electrolytic tank 25, the waste water pipe 9 and the disinfection water pipe 8 can be cleaned after use.

In the step S1, a raw water TDS sensor 32 for detecting pure water 3 is installed on a pure water 3 pipe between the water inlet valve 5 and the salt tank water inlet valve 17, the raw water TDS sensor 32 detects a TDS value of raw water, when the TDS value is less than 100, it is indicated that the raw water in the pure water pipe 11 is pure water 3, and if the TDS value is greater than or equal to 100, the raw water TDS is abnormal, the raw water is non-pure water;

in the step S1, the salt tank water level sensor 31 is arranged in the salt tank for real-time detection, when the water level reaches a low water level line, the system program controls to open the water inlet valve 5 of the salt tank and supply pure water 3 to the salt tank, and when the water level reaches a high water level line, the system program controls to close the water inlet valve 17 of the salt tank and stop supplying the pure water 3 to the salt tank.

The other saline TDS sensor 33 of installing of high-voltage switch 24 detects the TDS value of mixed saturated salt solution 4 through saline TDS sensor 33, when the TDS value is between 800-1200, accords with the electrolysis demand, can directly supply to electrolysis cell subassembly 7 and electrolyze, if the TDS value is not in this interval, explains that saline TDS is unusual.

The cleaning treatment in the preparation method of the acidic potential water comprises manual reverse-pole cleaning of the electrolytic tank 25, the positive electrode ruthenium platinum alloy electrode plate 27 in the electrolytic tank can be connected with the negative electrode of the power supply end in a manual mode during cleaning, on the contrary, the negative electrode ruthenium platinum alloy electrode plate 27 is connected with the positive electrode of the power supply end, the same group of electrode plates are adopted for manual reverse-pole cleaning, replacement is not needed, the electrolyte 6 enters the electrolytic tank 25 to be electrolyzed to generate exchange of acidic water and alkaline water, acid-base neutralization reaction is carried out in the electrolytic tank to clean the electrolytic tank 25, after the exchanged acidic water and alkaline water flow into the waste water pipe 9 and the disinfection water pipe 8, the water faucet 10 is closed to prevent the disinfection water 9 from discharging water, a flushing electromagnetic valve 36 arranged on a flushing pipe 35 is controlled to be opened, and water entering the acidic water pipeline of the electrolytic tank 25 and water in the alkaline water pipeline are discharged through the waste water pipe 9 together.

Have the subassembly that detects the structure through the design, including TDS detection, PH detection, OPR detection, play water flow detection, salt tank water level detection. A plurality of selectable water outlet flow rates (1L, 2L, 3L and 4L) are configured on the electrolytic tank 25, the highest water outlet flow rate can reach 4L/min, the raw materials used in the salt box are pure water 3 and edible salt 22, the raw materials are common and easy to obtain, no specific consumable material is needed, a pressure switch system circuit board is designed in the salt box, a user side starts to use, the system starts to work, the user side stops using, the system stops working automatically, and the product of the generator strictly meets the physicochemical index of the national standard, namely PH2-3; ORP is more than 1100 mV; 50-70mg/L of available chlorine.

Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting the protection scope of the present invention, and although the present invention is described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention.

Claims (10)

1. An electrolyzed oxidizing water generator, which is characterized in that: including salt solution neutralization structure, saturated salt solution is become with inside edible salt and the pure water of adding of structure in the salt solution, leading-in to transfer structure formation electrolyte after the saturated salt solution preparation, electrolyte carries out electrolysis treatment and promotes the electrolysis water yield through four group's electrolysis trough subassemblies, it has disinfection water pipe and waste pipe to lead out in the electrolysis trough subassembly, disinfection water pipe end is installed tap and is controlled the use, waste water discharge after the waste pipe carries out the electrolysis, salt solution neutralization structure with electrolysis subassembly electrolysis discharge process carries out intelligent control through installing a plurality of sensors, a plurality of sensors produce real-time data and show on the display screen, realize real-time human-computer interaction.

2. A electrolyzed oxidizing water generator as defined in claim 1 wherein: the salt solution neutralization structure comprises a pure water pipe, the pure water pipe is internally filtered through an external pure water machine to generate pure water, a booster pump is installed on the pure water pipe, the booster pump is used for pumping the pure water into the pure water pipe in a boosting mode, the pure water pipe passes through a pressure reducing valve and a water inlet valve are installed after the booster pump is boosted to control the flow rate of the pure water pipe, a salt tank branch pipe is separated from the pure water pipe, a salt tank water inlet valve is installed on the salt tank branch pipe, the salt tank is connected onto a salt tank in a branching mode, a salt tank is arranged inside the salt tank, edible salt is added inside the salt tank, filter screens are installed on two sides of the salt tank, the edible salt and the pure water penetrate through the salt tank, the filter screens are used for diluting to generate saturated salt solution, a peristaltic pump is installed inside the salt tank to pump the saturated salt solution, the peristaltic pump is connected with a salt solution outlet pipe, the salt solution outlet pipe is used for pumping the saturated salt solution to the water leading-in to the transfer structure.

3. A electrolyzed oxidizing water generator as defined in claim 1 wherein: the transfer structure comprises a check valve, the check valve is installed between the brine outlet pipe and the pure water pipe to prevent backflow of the saturated brine and the pure water pipe, an electrolyte pipe is connected to the brine outlet pipe and the pure water pipe after neutralization, a high-voltage switch is installed on the electrolyte pipe, and the electrolyte is introduced into the electrolyte tank assembly through the high-voltage switch.

4. A electrolyzed oxidizing water generator as defined in claim 1 wherein: the electrolytic cell component comprises an electrolytic cell and an N66 ionic membrane, wherein positive and negative electrodes adopt ruthenium-platinum alloy electrode plates, an ABS shell is arranged outside the electrolytic cell, an electrolytic circuit board is correspondingly arranged on the back of the electrolytic cell and connected with a power supply board, the electrolytic circuit board is electrified through the power supply board, and the ruthenium-platinum alloy electrode plates on the electrolytic cell electrolyze electrolyte entering the electrolytic cell.

5. A electrolyzed oxidizing water generator as defined in claim 1 wherein: the sensors comprise a salt tank water level sensor, two TDS sensors, a raw water TDS sensor and a salt water TDS sensor, the salt tank water level sensor is installed in the salt tank, the water level supply in the salt tank is guaranteed, saturated salt water is obtained, the raw water TDS sensor is installed on the water inlet valve and a pure water pipe between the salt tank water inlet valve, the quality of pure water in a main pipeline is detected, the salt water TDS sensor is installed on a high-voltage switch and an electrolyte pipe between the electrolytic cell components, and electrolyte before electrolysis is detected.

6. A electrolyzed oxidizing water generator as defined in claim 1 wherein: the disinfection water pipe is provided with a flowmeter for measuring the disinfection water flow, and one end of the flowmeter is provided with a PH/ORP tester.

7. A electrolyzed oxidizing water generator as defined in claim 1 wherein: a flushing pipe is arranged between the disinfection water pipe and the waste water pipe, a flushing electromagnetic valve is arranged on the flushing pipe, the flushing electromagnetic valve is opened, and the cleaned water is uniformly discharged into the waste water pipe.

8. The method for preparing electrolyzed oxidizing water according to any one of claims 1 to 7, characterized in that: the method comprises the following specific steps:

s1, converting external tap water into pure water through an external water purification machine, introducing the pure water into a pure water pipe through a booster pump, adjusting the pressure of the pure water in the pure water pipe through a pressure reducing valve, opening a water inlet valve and a salt tank water inlet valve in a grading manner, introducing the pure water qualified through pure water detection into a salt tank, detecting the water level of the salt tank in real time in the salt tank, and adding edible salt into the salt tank to be mixed with the introduced pure water to generate saturated salt water;

s2, pumping out saturated salt water from the salt box through the opening of a peristaltic pump, and preventing the saturated salt water from being mixed with pure water in a pure water pipe to generate electrolyte after backflow through a check valve;

and S3, leading the qualified electrolyte into an electrolytic cell through a high-voltage switch arranged on an electrolyte pipe, electrolyzing the qualified electrolyte through positive and negative ruthenium-platinum alloy electrode plates, electrolyzing the electrolyte to generate waste liquid and acidic oxidation potential water, enabling the generated waste liquid and the acidic oxidation potential water to flow out through the waste liquid pipe arranged on the electrolytic cell and a disinfection water pipe respectively, starting a faucet arranged on the disinfection water pipe to obtain the acidic oxidation potential water, and cleaning the electrolytic cell, the waste water pipe and the disinfection water pipe after use.

9. The method for preparing electrolyzed oxidizing water according to claim 8, wherein: in the step S1, a raw water TDS sensor for detecting pure water is arranged on a pure water pipe between a water inlet valve and a salt tank water inlet valve, the raw water TDS sensor detects a TDS value of raw water, when the TDS value is less than 100, the raw water in the pure water pipe is pure water, and if the TDS value is more than or equal to 100, the raw water is non-pure water;

in the step S1, the salt tank water level sensor is installed in the salt tank for real-time detection, when the water level reaches a low water level line, the system program controls to open a water inlet valve of the salt tank to supply pure water to the salt tank, and when the water level reaches a high water level line, the system program controls to close the water inlet valve of the salt tank to stop supplying the pure water to the salt tank.

10. The method for preparing electrolyzed oxidizing water according to claim 8, wherein: the cleaning treatment in the preparation method of the acidic potential water comprises manual reverse cleaning of the electrolytic tank, wherein a positive ruthenium-platinum alloy electrode plate in the electrolytic tank is connected with a negative electrode of a power supply end in a manual mode during cleaning, and conversely, the negative ruthenium-platinum alloy electrode plate is connected with the positive ruthenium-platinum alloy electrode plate of the power supply end, so that acidic water generated by electrolysis when electrolyte enters the electrolytic tank is exchanged with alkaline water;

the inside acid-base neutralization reaction that carries on of electrolysis trough washs in the electrolysis trough, and the acid water and the alkaline water of interchange flow in waste pipe and disinfection water pipe in the back, close tap and prevent that the disinfection water pipe from going out water, and the electromagnetic valve that washes of installation on the control flushing pipe opens, makes the water that gets into electrolysis trough acid water pipeline together discharge through the waste pipe with the water of buck pipeline.

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