KR101270520B1 - A manufacturing equipment of electrolytic sterilizing water and a manufacturing system of electrolytic sterilizing water - Google Patents

Abstract

PURPOSE: A sterilization electrolyzed water producing device and system thereof are provided to connect a plurality of a first anode plates, a plurality of a first cathode plates, a plurality of a second anode plates, and a plurality of a second cathode plates in parallel, respectively, thereby reducing the contact resistance generated by an electrode connection. CONSTITUTION: A sterilization electrolyzed water producing device includes a body(100), a plurality of first anode plates, a plurality of cathode plates, a plurality of second anode plates, and a plurality of a second cathode plates. The body includes a first reacting part(110), a second reacting part(120), and a mixing part(130). The second reacting part produces an electrolytic product by electrolyzing the unreacted electrolyte of an electrolytic product and an unreacted electrolyte induced through the first reacting part. The first cathode plates are connected to the first reacting part in parallel and are connected to the cathode of an outer direct current power supplier. The first anode plates are alternatively arranged and connected to the first cathode plates of the reacting part in parallel. The second anode plates are connected with the second reacting part in parallel, and connected with the first cathode plates in series. The second cathode plates are alternatively arranged and connected with the second anode plates of the second reacting part in parallel, and connected with the cathode of the outer direct current power supplier.

Description

A manufacturing equipment of electrolytic sterilizing water and a manufacturing system of electrolytic sterilizing water

The present invention relates to a sterile electrolyzed water production apparatus and a sterile electrolyzed water production system, and more particularly, to a sterile electrolyzed water production apparatus and a sterile electrolyzed water production system for producing sterilized electrolytic water by electrochemically sterilizing raw water.

Sterilized electrolyzed water has sterilization and disinfection ability against various bacteria, molds, viruses and the like, and examples thereof include hypochlorous acid and sodium hypochlorite.

Hypochlorous acid, also referred to as hypochlorous acid, is a strong oxidizing agent as a chlorine disinfectant.

The sterilization and disinfecting power of chlorine disinfectant is determined by free residual chlorine. The free residual chlorine is present as Cl ₂ (aq), hypochlorous acid (HOCl) and chlorate ion (OCl-). The form of existence depends on the pH.

Below pH 4, it is in the form of chlorine gas (Cl ₂ ), in the form of hypochlorite (HOCl) in weak acid and neutral region, and in the form of chlorine ion (OCl-) in alkaline region, and the disinfecting power of hypochlorite (HOCl) is chlorine ion It is known to be superior to (OCl-).

Hypochlorite water is classified into strong acid hypochlorite water (pH 2.7 or less, effective chlorine concentration 20 ~ 60ppm) and unacidic hypochlorite water (pH 5.0 ~ 6.5, effective chlorine concentration 10 ~ 30ppm). Excellent acid hypochlorous acid water.

As a device for manufacturing a conventional sterilized electrolytic water, there is a Korean Patent No. 1027538 disclosed by the applicant.

The technique includes a body; A reaction part in which a positive electrode and a negative electrode are accommodated in the body to generate an electrolytic product by an electrolysis reaction; A moving part in communication with the reaction part of the body; A mixing part in communication with the moving part inside the body to move the electrolytic product generated in the reaction part, a raw water inlet part into which raw water is introduced, and a discharge part to discharge sterilized electrolytic water mixed with raw water and an electrolytic product; It is formed in the mixing unit and the rotating means rotated by the raw water flowing through the raw water inlet; It relates to a sterile electrolytic water production apparatus comprising a.

As another apparatus for manufacturing conventional sterilized electrolytic water, there is Korean Patent No. 1054266 disclosed by the present applicant.

The technique is a sieve; A reaction part in which a positive electrode and a negative electrode are accommodated in the body to generate an electrolytic product by an electrolysis reaction; A mixing part in communication with the reaction part inside the body to move the electrolytic product generated in the reaction part, a raw water inlet part into which raw water is introduced, and a discharge part to discharge sterilized electrolytic water mixed with raw water and an electrolytic product; It is formed in the mixing unit and the rotating means rotated by the raw water flowing through the raw water inlet; It relates to a sterile electrolytic water production apparatus comprising a.

However, the prior arts have a limit of increasing the contact area of the raw water and the electrolytic product in the mixing part, and thus there is a problem in that the production efficiency of the sterilized electrolytic water and the conversion efficiency of the electrolyte are reduced.

Therefore, it is necessary to develop a sterilizing electrolyzed water production apparatus and a sterilized electrolyzed water production system to solve the above problems.

(Previous Document 1) Korean Registered Patent No. 1027538 (2011.03.30) (Previous Document 2) Korean Patent Registration No. 1054266 (2011.07.29)

The present invention has been made to solve the above problems, the object of the present invention is to convert the unreacted electrolyte to the electrolytic product as possible, and the sterilized electrolytic water production apparatus and sterilized electrolytic water capable of maximizing the contact area of the raw water and the electrolytic product It relates to a manufacturing system.

The apparatus for producing sterile electrolytic water according to the present invention includes a first reaction unit 110 in which an electrolytic product is generated by an electrolysis reaction of an electrolyte introduced through an electrolyte inlet 111, and the first reaction unit 110. The second reaction unit 120 and the electrolytic product introduced through the second reaction unit 120 to generate an electrolytic product by the electrolysis reaction of the unreacted electrolyte of the electrolytic product and the unreacted electrolyte introduced through Body 100 to form a mixing unit 130 is discharged through the discharge portion 132 sterilized electrolyzed water mixed with the raw water introduced through the raw water inlet 131; A plurality of first positive electrode plates 210 connected in parallel to each other in the first reaction unit 110 and connected to positive electrodes of an external DC power supply device; A plurality of first cathode plates 220 arranged alternately with the plurality of first cathode plates 210 in the first reaction unit 110 and connected in parallel with each other; A plurality of second cathode plates 230 connected in parallel to the second reaction unit 120 and connected in series with the plurality of first cathode plates 220; And a plurality of second cathode plates 240 arranged alternately with the plurality of second cathode plates 230 in the second reaction unit 120, connected in parallel with each other, and connected to the cathodes of an external DC power supply device. It is done.

In addition, the apparatus for producing sterile electrolytic water 1000 may include a first parallel terminal 410 connecting the plurality of first positive electrode plates 210 in parallel; A second parallel terminal 420 connecting the plurality of first cathode plates 220 in parallel; A third parallel terminal 430 connecting the plurality of second positive electrode plates 230 in parallel; A fourth parallel terminal 440 for connecting the plurality of second negative electrode plates 240 in parallel; And a serial terminal 450 connecting the second parallel terminal 420 and the third parallel terminal 430 in series.

In addition, the sterilized electrolytic water production apparatus 1000 is installed between the second reaction unit 120 and the mixing unit 130 to move the unreacted electrolyte to the second reaction unit 120, the electrolytic product It characterized in that it comprises a; moving means to be moved to the mixing unit 130.

In addition, the movement means 300 is provided in the lower side of the mixing unit 130 and the inside is hollow is a communication hole 311 is formed in communication between the mixing unit 130 and the second reaction unit 120 is formed The first and second through holes (310), the first through-hole provided to be inclined at the lower side of the communication hole (311), the electrolyte product introduced into the communication hole (311) through the second reaction portion 120 at the top ( 321 and an inclined member 320 formed at a lower end of each of the second passage holes 322 through which the unreacted electrolyte flowing into the communication hole 311 flows through the second reaction part 120. Characterized in that.

In addition, the sterilized electrolytic water production apparatus 1000 is characterized in that it further comprises a filler 500 installed in the mixing unit 130.

In addition, the mixing unit 130 is characterized in that the flow path is formed by a plurality of guide walls 600 are formed in a zigzag form spaced apart from each other.

In addition, the sterilizing electrolyzed water manufacturing apparatus 1000 is installed at a portion where the mixing unit 130 and the moving unit 300 are connected to suck the electrolytic product transferred from the moving unit 300 to the mixing unit 130. Ejector 700 for discharging; characterized in that it further comprises.

In addition, the electrolytic product is characterized in that it comprises hypochlorous acid water or sodium hypochlorite water.

In addition, the sterilized electrolytic water production system 1 according to the present invention is the sterilized electrolytic water production apparatus (1000); An electrolyte supply means (2000) including an electrolyte storage unit (2100) and an electrolyte pump (2200) for pumping the electrolyte stored in the electrolyte storage unit (2100) to the first reaction unit (110); And between the raw water retention part 3100, the solenoid valve 3200 connecting the raw water retention part 3100 and the mixing part 130, and the raw water retention part 3100 and the solenoid valve 3200. A flow rate control valve 3300 for controlling the flow rate constantly, a flow meter 3400 installed between the flow rate control valve 3300 and the solenoid valve 3200 to measure the flow rate of the raw water, and the raw water retention part 3100. And raw water supply means 3000 including a raw water pump 3500 for pumping raw water stored in the mixing unit 130.

Accordingly, the apparatus for producing sterile electrolytic water according to the present invention has an effect of converting the unreacted electrolyte to the electrolytic product as much as possible by electrolytic reaction of the unreacted electrolyte in the second reaction part.

In addition, the apparatus for producing sterile electrolytic water according to the present invention has a plurality of first positive electrode plates, a plurality of first negative electrode plates, a plurality of second positive electrode plates, a plurality of second negative electrode plates are connected in parallel, respectively, thereby reducing the contact resistance due to electrode connection. And, a plurality of first cathode plates and a plurality of second cathode plates are connected in series, there is an effect that a large current flows.

In addition, the sterilized electrolytic water production apparatus according to the present invention has an effect that can increase the contact area of the electrolytic product and the raw water by installing the filler.

1 is a perspective view of a sterile electrolytic water production apparatus according to the present invention
2 is a cross-sectional view AA` of the apparatus for producing sterile electrolytic water according to the present invention
Figure 3 is a cross-sectional view BB` of the sterilizing electrolytic water production apparatus according to the present invention
4 is a perspective view of a partition according to the present invention;
5 is a cross-sectional view CC` of the sterilized electrolytic water production apparatus according to the present invention
Figure 6 is a block diagram of a sterilized electrolytic water production system according to the present invention

Hereinafter, the technical idea of the present invention will be described more specifically with reference to the accompanying drawings.

The accompanying drawings are only examples to illustrate the technical idea of the present invention in more detail, and thus the technical idea of the present invention is not limited to the forms of the accompanying drawings.

1 is a perspective view of a sterilized electrolytic water production apparatus according to the present invention, Figure 2 is a AA` cross-sectional view of the sterilized electrolytic water production apparatus according to the present invention, Figure 3 is a BB` cross-sectional view of the sterilized electrolytic water production apparatus 1000 according to the present invention, Figure 4 is a perspective view of a partition according to the present invention, Figure 5 is a cross-sectional view CC` of the apparatus for producing sterile electrolytic water according to the present invention.

As shown in Figures 1 to 5, the sterilized electrolytic water producing apparatus 1000 according to the present invention is a body 100, a plurality of first positive electrode plate 210, a plurality of first negative electrode plate 220, a plurality of second It is configured to include a positive electrode plate 230, a plurality of second negative electrode plate 240, and the moving means (300).

The body 100 may be formed in a rectangular parallelepiped shape, and the first reaction part 110 and the second reaction part (110) by the first partition wall 140 in which the through hole 141 is formed at the lower side thereof. The second partition wall 150 is coupled to an upper end of the first partition wall 140, and the mixing unit 130 is formed on the second partition wall 150. In this case, referring to FIG. 1, the first compartment wall 140 may be formed as a vertical wall, and the second compartment wall 150 may be formed as a horizontal wall, but the present invention is not limited thereto. . In addition, the through hole 141 is preferably formed in the upper portion of the first partition wall 140. In addition, the moving unit 300 connects the second reaction unit 120 and the mixing unit 130.

The first reaction part 110 is formed with an electrolyte inlet 111 to introduce the electrolyte into one side, the electrolytic product is generated by the electrolysis reaction of the electrolyte introduced through the electrolyte inlet 110. In this case, the electrolyte may be an aqueous hydrochloric acid solution, an aqueous sodium chloride solution, and a mixed solution of an aqueous hydrochloric acid solution and an aqueous sodium chloride solution.

The electrolyte inlet 111 is supplied with an electrolyte from the outside, wherein the electrolyte may be a mixed solution of an aqueous hydrochloric acid solution, an aqueous sodium chloride solution, and an aqueous hydrochloric acid solution and an aqueous sodium chloride solution.

In the second reaction unit 120, the electrolytic product and the unreacted electrolyte introduced through the first reaction unit 110 are introduced through the through hole 141, and are electrolyzed by the electrolytic reaction of the unreacted electrolyte. The product is produced and moved upwards.

Accordingly, the apparatus 1000 for producing sterile electrolytic water according to the present invention has an effect of converting the unreacted electrolyte into an electrolytic product as much as possible by the electrolytic reaction of the unreacted electrolyte in the second reaction unit 120.

On the other hand, when the solution supplied to the first reaction unit 110 through the electrolyte inlet 111 is an aqueous hydrochloric acid solution, the first reaction unit 110 (or the second reaction unit 120) in the following The same reaction is triggered.

Anode reaction

2Cl ^-- 2e → Cl ₂

2H ₂ O-4e → 4H ⁺ + O ₂

Cathodic reaction

2H ⁺ → H ₂

Mixed reaction

Cl ₂ + H ₂ O ↔ HOCl + HCl

Overall reaction

HCl + H ₂ O → HOCl + H ₂ (gas)

That is, when the hydrochloric acid solution is electrolyzed, hypochlorous acid (HOCl), hydrogen gas, and chlorine gas are produced.

In addition, when the solution supplied to the first reaction unit 110 through the electrolyte inlet 111 is sodium chloride solution, in the first reaction unit 110 (or the second reaction unit 120) The following reactions are induced.

Anode reaction

2Cl ^-- 2e → Cl ₂

2H ₂ O-4e → 4H ⁺ + O ₂

Cathodic reaction

Na + 2e? 2Na

2Na + 2H ₂ O → NaOH + H ₂

Mixed reaction

NaOH + Cl ₂ → NaOCl + HCl

Overall reaction

NaCl + H ₂ O-> NaOCl + H ₂ (Gas)

In the case of a mixed solution of an aqueous hydrochloric acid solution and an aqueous sodium chloride solution, the added hydrochloric acid is converted into water and sodium chloride by neutralization with the sodium hydroxide produced when the aqueous sodium chloride solution is applied alone.

The mixing unit 130 has a raw water inlet 131 through which the raw water flows in one side, and the electrolytic product and the raw water inlet 131 introduced from the second reaction unit 120 through the moving unit 300. Raw water introduced through the mixture is mixed to generate sterilized electrolyzed water, and the discharge part 132 is formed to discharge sterilized electrolytic water on the other side.

The plurality of first positive electrode plates 210 are accommodated in the first reaction unit 110 and connected in parallel to each other and connected to the positive electrode of the external DC power supply device.

The plurality of first cathode plates 220 are alternately arranged in parallel with the plurality of first cathode plates 210.

The plurality of second cathode plates 2300 are accommodated in the second reaction unit 120 and connected in parallel, and are connected in series with the plurality of first cathode plates 220.

The plurality of second negative electrode plates 240 are alternately arranged with the plurality of second positive electrode plates 230 and are connected in parallel and connected to the negative electrodes of the external DC power supply. At this time, since the external DC power supply uses a known technique, a detailed description thereof will be omitted.

Accordingly, the apparatus 1000 for producing sterile electrolytic water according to the present invention includes a plurality of first positive electrode plates 210, a plurality of first negative electrode plates 220, a plurality of second positive electrode plates 230, and a plurality of second negative electrode plates 240. In parallel with each other, the contact resistance by the electrode connection is reduced, and the plurality of first cathode plates 220 and the plurality of second cathode plates 230 are connected in series, so that a large current flows.

Meanwhile, the apparatus 1000 for producing sterile electrolytic water according to the present invention includes the plurality of first cathode plates 210, the plurality of first cathode plates 220, the plurality of second cathode plates 230, and the plurality of second cathode plates. The first parallel terminal 410, the second parallel terminal 420, and the second parallel connection 240 for connecting the plurality of first cathode plates 220 and the plurality of second cathode plates 230 in series. The three parallel terminals 430, the fourth parallel terminal 440, and the serial terminal 450 may be further included.

Referring to FIG. 2, the first parallel terminal 410 is a conductor that connects the plurality of first positive electrode plates 210 in parallel and is connected to a positive pole of an external DC power supply device. The second parallel terminal 420 is connected to the first parallel terminal 410. A plurality of first cathode plates 220 are connected in parallel.

The third parallel terminal 430 is a conductor connecting the plurality of second positive electrode plates 230 in parallel, and the fourth parallel terminal 440 is a conductor connecting the plurality of second negative electrode plates 240 in parallel with the outside. It is connected to the negative pole of DC power supply.

In this case, since the external DC power supply device uses a device of a conventionally known technique capable of applying a DC power supply, a detailed description thereof will be omitted.

The serial terminal 450 is a conductor connecting the second parallel terminal 420 and the third parallel terminal 430 in series.

The moving means 300 is installed between the second reaction unit 120 and the mixing unit 130, the electrolytic product transferred from the second reaction unit 120 to the mixing unit 130 to the mixing unit And the unreacted electrolyte is returned to the second reaction part 120 again.

In addition, the moving means 300 is configured to further include a moving member 310, and the inclined member (320).

The moving member 310 is provided on the lower side of the mixing unit 130 and the inside is hollow in the vertical direction, the communication hole 311 is formed. At this time, the moving member 310 may be formed in the 'b' shape.

The inclined member 320 is provided to be inclined at the lower side of the moving member 310, the electrolytic product moved from the second reaction portion 120 to the upper side to pass through the mixing unit 130 at the top A second through hole 322 is formed at the first through hole 321 and at the bottom of the unreacted electrolyte, which is moved upward from the second reaction part 120, by flowing down the inclined member 320. .

That is, the movement means 300 is the mixing of the electrolytic product moved upward from the second reaction unit 120 via the inclined member 320 via the first through hole 321 and the communication hole 311 The unreacted electrolyte moved to the unit 130 and moved upward from the second reaction unit 120 flows down the inclined member 320 by a drop and passes again through the first through hole 321. Returned to the second reaction unit 120 is converted to the electrolytic product in the second reaction unit 120.

Accordingly, the sterilized electrolytic water producing apparatus 1000 according to the present invention has an effect that the unreacted electrolyte is returned to the second reaction part 120 by the moving means 300 and may be re-reacted.

In addition, the apparatus for producing sterile electrolytic water 1000 according to the present invention may further include a filler 500 installed in the mixing part 130 to increase the contact area between the electrolytic product and the raw water.

The filler 500 may be composed of lashing ring, polling, bass, or co-ring, or may be composed of one or more combinations of lashing ring, polling, bass, and co-ring, but the present invention is not limited thereto.

4 to 5, the mixing unit 130 may have a flow path formed by a plurality of guide walls 600 protruding in a zigzag form, spaced apart from each other in one direction from the inner wall of the main body 100. At this time, the filler 500 is provided in the flow path.

Accordingly, the mixing unit 130 according to the present invention has an effect that the contact ratio between the electrolytic product and the raw water is further increased by the passage formed by the guide wall 600.

In addition, the apparatus for producing sterile electrolytic water 1000 according to the present invention is installed at a portion where the mixing unit 130 and the moving unit 300 are connected, and sucks the electrolytic product transferred from the moving unit 300 to mix the mixing unit 130. It may be configured to further include an ejector 700 for discharging.

At this time, since the ejector 700 uses a known technique, a detailed description thereof will be omitted.

Accordingly, the sterilized electrolytic water production apparatus 1000 according to the present invention further includes an ejector 700, thereby preventing the electrolytic product from stagnating without moving.

Figure 6 is a block diagram of a sterilized electrolytic water production system according to the present invention.

As shown in FIG. 6, the sterilized electrolytic water production system 1 according to the present invention includes a sterilized electrolytic water production apparatus 1000, an electrolyte supply unit 2000, a raw water supply unit 3000, and a controller (not shown). .

Since the sterilized electrolytic water production apparatus 1000 has already been described, a detailed description thereof will be omitted.

The electrolyte supplier 2000 is configured to supply electrolyte to the electrolyte inlet of the first reaction part, and includes an electrolyte storage part 2100 and an electrolyte pump 2200.

The electrolyte storage unit 2100 stores the electrolyte, and the electrolyte pump 2200 is controlled by the control unit and pumps and supplies the electrolyte stored in the electrolyte storage unit 2100 to the electrolyte inlet unit.

The raw water supply unit 3000 includes a raw water holding unit 3100, a solenoid valve 3200, a flow control valve 3300, a flow meter 3400, and a raw water pump 3500.

The raw water stagnation part 3100 is always stagnant raw water, the solenoid valve 3200 is controlled to open and close by the control unit and connects the raw water stagnation part 3100 and the mixing part.

The flow control valve 3300 is controlled by a control unit and is installed between the raw water holding unit 3100 and the solenoid valve 3200, and the raw water transferred from the raw water holding unit 3100 to the solenoid valve 3200. Constantly control the flow rate of

The flow meter 3400 is installed between the flow control valve 3300 and the solenoid valve 3200 to measure the flow of raw water.

The raw water pump 3500 is controlled by the control unit and pumps raw water stored in the raw water storage unit 3100 to the raw water inlet unit.

Accordingly, the sterilized electrolytic water production system 1 according to the present invention includes a raw water supply unit including a raw water holding unit 3100, a solenoid valve 3200, a flow control valve 3300, a flow meter 3400, and a raw water pump 3500 Since the 3000 is configured, there is an effect that a certain amount of raw water can be supplied to the raw water inflow unit irrespective of the change in the supply amount of raw water.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

1000: sterilizing electrolytic water production apparatus according to the present invention
100: Body
110: first reaction part
111: electrolyte inlet
120: second reaction unit
130: mixing unit
131: raw water inlet 132: discharge
140: first partition 141: through hole
150: second compartment wall
210: first positive electrode plate 220: first negative electrode plate
230: second positive electrode plate 240: second negative electrode plate
300: means of transportation
310: moving member
311: communication hole
320: inclined member
321: first through hole 322: second through hole
410: Parallel Terminal 1 420: Parallel Terminal 2
430: Parallel Terminal 3 440: Parallel Terminal 4
450: serial terminal
500: Filling
600: guide wall
700: ejector
1: sterilized electrolytic water production system according to the present invention
2000: electrolyte supply unit
2100: electrolyte storage unit
2200: electrolyte pump
3000: raw water supply
3100: raw water stagnation
3200: solenoid valve
3300: flow control valve
3400: Flow Meter

Claims (9)

Of the first reaction unit 110 and the electrolytic product and the unreacted electrolyte introduced through the first reaction unit 110 by the electrolytic reaction of the electrolyte introduced through the electrolyte inlet 111 Raw water introduced through the second reaction unit 120, the electrolytic product introduced through the second reaction unit 120 and the raw water inlet 131 through the electrolysis reaction of the unreacted electrolyte The body 100 to form a mixed portion 130 is discharged through the mixed sterilization electrolyzed discharge portion 132;
A plurality of first positive electrode plates 210 connected in parallel to each other in the first reaction unit 110 and connected to positive electrodes of an external DC power supply device;
A plurality of first cathode plates 220 arranged alternately with the plurality of first cathode plates 210 in the first reaction unit 110 and connected in parallel with each other;
A plurality of second cathode plates 230 connected in parallel to the second reaction unit 120 and connected in series with the plurality of first cathode plates 220; And
And a plurality of second cathode plates 240 arranged alternately with the plurality of second cathode plates 230 in the second reaction unit 120, connected in parallel with each other, and connected to a cathode of an external DC power supply device. Sterilized electrolytic water production apparatus.
The method of claim 1, wherein the sterilized electrolytic water production apparatus 1000
A first parallel terminal 410 connecting the plurality of first positive electrode plates 210 in parallel;
A second parallel terminal 420 connecting the plurality of first cathode plates 220 in parallel;
A third parallel terminal 430 connecting the plurality of second positive electrode plates 230 in parallel;
A fourth parallel terminal 440 for connecting the plurality of second negative electrode plates 240 in parallel; And
Sterilizing electrolytic water production apparatus further comprises; a serial terminal (450) for connecting the second parallel terminal (420) and the third parallel terminal (430) in series.
The method of claim 1, wherein the sterilized electrolytic water production apparatus 1000
A movement installed between the second reaction part 120 and the mixing part 130 to allow unreacted electrolyte to be moved to the second reaction part 120 and an electrolytic product to be moved to the mixing part 130. Means (300); sterile electrolytic water production apparatus comprising a.
The method of claim 3, wherein the moving means 300
A moving member 310 provided at a lower side of the mixing unit 130 and having a hollow inside thereof, and having a communication hole 311 communicating with the mixing unit 130 and the second reaction unit 120;
It is provided to be inclined at the lower side of the communication hole 311, the first passage hole 321 and the lower end through which the electrolytic product introduced into the communication hole 311 through the second reaction unit 120 at the top Sterilization, characterized in that it comprises a slanting member 320 is formed with each of the second passage hole 322 through which the unreacted electrolyte flowing into the communication hole 311 through the second reaction unit 120 flows down Electrolyzed water production device.
The method of claim 1, wherein the sterilized electrolytic water production apparatus 1000
Sterilized electrolytic water production apparatus further comprises ;; the filler 500 is installed in the mixing unit (130).
The method of claim 1, wherein the mixing unit 130
Sterilized electrolytic water production apparatus, characterized in that the flow path is formed by a plurality of guide walls 600 are spaced apart from each other formed in a zigzag form.
The method of claim 2, wherein the sterilized electrolytic water production apparatus 1000
An ejector 700 installed at a portion at which the mixing unit 130 and the moving unit 300 are connected to suck the electrolytic product transferred from the moving unit 300 to the mixing unit 130. Sterilizing electrolytic water production apparatus, characterized in that.
The method of claim 1, wherein the electrolytic product is
A sterilized electrolytic water production apparatus comprising hypochlorous acid water or sodium hypochlorite water.
Sterilizing electrolytic water production apparatus 1000 according to claim 1;
An electrolyte supply means (2000) including an electrolyte storage unit (2100) and an electrolyte pump (2200) for pumping the electrolyte stored in the electrolyte storage unit (2100) to the first reaction unit (110); And
It is installed between the raw water holding unit 3100, the solenoid valve 3200 connecting the raw water holding unit 3100 and the mixing unit 130, and the raw water holding unit 3100 and the solenoid valve 3200, A flow rate control valve 3300 for constantly controlling the flow rate, a flow meter 3400 installed between the flow rate control valve 3300 and the solenoid valve 3200 and measuring the flow rate of the raw water, and the raw water holding part 3100. Sterilized electrolytic water production system comprising a; raw water supply means (3000) comprising a raw water pump (3500) for pumping the stored raw water to the mixing unit (130).

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